JP4539825B2 - Prize-winning device for bullet ball machines - Google Patents

Prize-winning device for bullet ball machines Download PDF

Info

Publication number
JP4539825B2
JP4539825B2 JP2004198567A JP2004198567A JP4539825B2 JP 4539825 B2 JP4539825 B2 JP 4539825B2 JP 2004198567 A JP2004198567 A JP 2004198567A JP 2004198567 A JP2004198567 A JP 2004198567A JP 4539825 B2 JP4539825 B2 JP 4539825B2
Authority
JP
Japan
Prior art keywords
game
winning
ball
passage
game ball
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Fee Related
Application number
JP2004198567A
Other languages
Japanese (ja)
Other versions
JP2006015081A (en
Inventor
貴章 木下
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Sammy Corp
Original Assignee
Sammy Corp
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Sammy Corp filed Critical Sammy Corp
Priority to JP2004198567A priority Critical patent/JP4539825B2/en
Publication of JP2006015081A publication Critical patent/JP2006015081A/en
Application granted granted Critical
Publication of JP4539825B2 publication Critical patent/JP4539825B2/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

Links

Images

Landscapes

  • Pinball Game Machines (AREA)

Description

本発明は、弾球遊技機に用いられる入賞装置に関し、なお詳細には、入賞口に落入した遊技球を装置内部に貯留する貯留通路(球貯留部)および装置外部に排出させる排出通路を有する球貯留機構と、遊技球を受容可能な球受け部を正逆両方向に回動可能な球受け回転盤を備え入賞口から導かれた遊技球を球受け回転盤の回動により振り分け移動させる振り分け機構とを備えた複合的な入賞装置に関する。   The present invention relates to a winning device used in a ball game machine, and more specifically, a storage passage (ball storage portion) for storing a game ball dropped into a winning opening inside the device and a discharge passage for discharging it to the outside of the device. A ball storage mechanism having a ball receiving mechanism that can receive a game ball and a ball receiving rotating disk that can rotate in both forward and reverse directions, and the game balls guided from the winning opening are distributed and moved by the rotation of the ball receiving rotating disk The present invention relates to a composite winning device including a distribution mechanism.

上記のような球貯留機構と振り分け機構とを備えた複合的な入賞装置は、従来からパチンコ機等の弾球遊技機に用いられている。これら各々の機構および組み合わせには種々の形態があるが、球貯留機構としては、一般的に所定期間開放される可変入賞口を有し、この所定期間内に入賞口に落入した遊技球が貯留通路または排出通路の何れかに流入して流下し、その流下した通路に応じて遊技条件を設定したり、貯留された遊技球を一度に崩落させてその後の遊技が展開されるように構成されていた。すなわち、入賞装置に落入した遊技球は、貯留通路に貯留可能な数量(最大貯留球数)まで順次貯留されたうえで余剰球が排出される形態ではなく、入賞口に落入する時の運動方向や入賞装置内での遊技球同士の衝突等によっていずれの通路に流入するかが不確定であり、例えば3個貯留し得る入賞装置に5個の遊技球が落入した場合に、このうち1個目および4個目が貯留通路側に流下し、2,3,5個目が排出通路側に流下するという状況が発生しても、これを許容し得るような構成になっていた。(例えば、特許文献1、特許文献2)。   A composite winning device including the ball storage mechanism and the distribution mechanism as described above has been conventionally used in a ball game machine such as a pachinko machine. Although each of these mechanisms and combinations has various forms, the ball storage mechanism generally has a variable winning opening that is opened for a predetermined period, and game balls that fall into the winning opening within this predetermined period are It is configured to flow into and flow down to either the storage passage or the discharge passage, and to set game conditions according to the flow-down passage, or to collapse the stored game balls at a time and develop the subsequent game It had been. In other words, the game balls dropped into the winning device are not stored in the storage passage in order to be stored in the storage passage, and the excess balls are not discharged. It is uncertain which passage will flow into due to the direction of movement or the collision of game balls in the winning device, etc. For example, when 5 game balls fall into a winning device that can store 3 Of these, the first and fourth pieces flowed down to the storage passage side, and the second, third, and fifth pieces flowed down to the discharge passage side. . (For example, Patent Document 1 and Patent Document 2).

また振り分け機構としては、一般的に、外周側に遊技球を受容可能な球受け部を有して回動可能に設けられた球受け回転盤と、球受け回転盤を時計廻りおよび反時計廻りに回動させる回転盤駆動構造と、入賞口から導かれた遊技球を基準位置にある球受け回転盤の球受け部に導く導入口と、球受け回転盤の回動により球受け部に受容されて移動された遊技球を導出する第1導出口および第2導出口と、回転盤駆動構造の作動を制御する回転盤制御手段とを備えて構成され、回転盤制御手段が入賞条件(例えば抽選手段における抽選結果などの入賞条件)に基づいて球受け回転盤を時計廻りまたは反時計廻り(正・逆方向)に回動させ、球受け部に受容された遊技球を第1導出口または第2導出口に排出させて、排出された導出口に応じた遊技を展開するように構成されていた。(例えば、特許文献2)。   In addition, as a sorting mechanism, generally, a ball receiving rotary plate having a ball receiving portion capable of receiving a game ball on the outer peripheral side and provided rotatably, and the ball receiving rotary plate are rotated clockwise and counterclockwise. A turntable drive structure for turning the ball, an introduction port for guiding the game ball guided from the winning opening to the ball receiving portion of the ball receiving turntable at the reference position, and the ball receiving portion received by the rotation of the ball receiving turntable The first outlet and the second outlet for deriving the moved game ball and the rotating disk control means for controlling the operation of the rotating disk drive structure. The rotating disk control means is configured to receive a winning condition (for example, Based on the winning conditions such as the lottery result in the lottery means), the ball receiving wheel is rotated clockwise or counterclockwise (forward / reverse direction), and the game ball received in the ball receiving portion is moved to the first outlet or A game according to the discharged outlet that is discharged to the second outlet It has been configured to deploy. (For example, patent document 2).

特開平8−182831号公報JP-A-8-182831 特開2001−340575号公報JP 2001-340575 A

ところが、上記のような従来の入賞装置では、以下に示すような構成機構単独の問題と複合化に伴う問題とがあった。例えば、球貯留機構単独の問題として、最大貯留球数を超える数量の遊技球が入賞口に入賞したにも拘わらず、装置内部で遊技球が弾き合って衝突した遊技球の一方または双方が排出通路側に流下してしまう状況が生じ、享受し得る遊技展開上の利益を受けられなかった遊技者に不満を感じさせることがあった。特に上記のような状況が度重なると、遊技者は次第に不快感を抱くようになり、当該機種の遊技機が全般的に忌避されて稼働率が低下する虞もあった。   However, the conventional winning device as described above has the following problems of the configuration mechanism alone and the problems associated with the combination. For example, as a problem with the ball storage mechanism alone, one or both of the game balls that collide with each other when the game balls bounce inside the device even though a number of game balls that exceed the maximum number of stored balls have won the prize opening are discharged. There was a situation where the player flowed down to the aisle side, and the player who could not enjoy the benefits of the game development that could be enjoyed was sometimes frustrated. In particular, when the situation as described above is repeated, the player gradually becomes uncomfortable, and there is a risk that the gaming machines of the model are generally avoided and the operation rate is lowered.

また、球貯留機構と振り分け機構との複合化に伴う問題として、貯留通路に貯留された遊技球(「貯留球」という)を次段の振り分け機構で振り分けて新たな遊技を展開するゲーム構成にしようとしても、貯留通路に貯留された貯留球の有無及び数量が不確定な状況では、新たな遊技の存立自体が不確定であり、これを無理に行えば遊技球が存在しない状態で空虚な作動が行われたり、一定時間内に通過すべき遊技球が検出されないことからエラーを発生する虞があるという問題があった。   In addition, as a problem associated with the combination of the ball storage mechanism and the distribution mechanism, a game configuration in which game balls stored in the storage passage (called “storage balls”) are distributed by the distribution mechanism in the next stage to develop a new game. Even when trying to do so, in the situation where the existence and quantity of the storage balls stored in the storage passage are uncertain, the existence of a new game itself is uncertain, and if this is done forcibly, there is no game ball. There is a problem that an error may occur because the operation is not performed or a game ball to be passed within a certain time is not detected.

特に、入賞口に落入した入賞球に対応して抽選を行い、この抽選結果に基づいて当該入賞球を次のステップの流下通路に振り分けて遊技を展開するような、個々の入賞球に固有の意義を持たせた1:1対応のゲーム構成にするためには、入賞口に落入した遊技球を最大貯留球数まで順次貯留通路に貯留して、その貯留された順に貯留球を振り分け処理する必要があるが、上記のように貯留球の数量が不確定でありかつ個々の入賞球が特段の意義を持たない従来の入賞装置では、このようなゲーム構成を構築することが困難であるという課題があった。   In particular, a lottery is made corresponding to the winning ball dropped into the winning opening, and the game is played by distributing the winning ball to the downflow passage of the next step based on the lottery result. In order to create a 1: 1-compatible game structure with the significance of, game balls dropped into the winning opening are sequentially stored in the storage passage up to the maximum number of stored balls, and the stored balls are distributed in the order in which they are stored. However, it is difficult to construct such a game structure with a conventional winning device in which the number of stored balls is uncertain and the individual winning balls are not particularly meaningful as described above. There was a problem that there was.

さらに、このような入賞装置は機構の複合化により大型となるが、貯留機構および振り分け機構は入賞口よりも下側に設ける必要がある、一方パチンコ機等の遊技盤は所定の規格寸法で形成され、盤面の中央には図柄表示装置を有する中央飾りが設けられている。その結果、入賞装置は中央飾りよりも下側に入賞口を設けたうえアウト口までの限られた高さ寸法内に収める必要があり、振り分け機構により振り分けられた遊技球を利用してさらに新たなゲームを展開するような装置及びゲーム構成を採ることが、遊技盤のレイアウト上困難であるという問題もあった。   Furthermore, such a winning device becomes large due to the combination of mechanisms, but the storage mechanism and the distribution mechanism must be provided below the winning opening, while a game board such as a pachinko machine is formed with a predetermined standard size. A central ornament having a symbol display device is provided at the center of the board surface. As a result, it is necessary for the winning device to have a winning opening below the center ornament and to fit within the limited height dimension to the out opening, and it will be further renewed using the game balls distributed by the distributing mechanism. There is also a problem that it is difficult to adopt a device and a game configuration for developing a simple game because of the layout of the game board.

本発明は上記のような事情に鑑みて成されたものであり、遊技者の期待感を害することなく、入賞球を利用したゲーム展開の自由度を拡大して個々の入賞球に固有の意義を持たせた斬新なゲーム構成を、限られた遊技盤面のスペース内で構築可能な入賞装置を提供することを目的とする。   The present invention has been made in view of the circumstances as described above, and has a unique meaning to each winning ball by expanding the degree of freedom of game development using winning balls without harming the player's expectation. It is an object of the present invention to provide a winning device capable of constructing a novel game configuration with a limited game board space.

上記目的達成のため、本発明に係る入賞装置は、概観的には、A:遊技球を貯留する貯留通路および装置外部に排出させる排出通路を有し入賞口に落入した遊技球の流下経路を切り替えて流下させる球貯留機構と、B:遊技球を受容可能な球受け部を正逆両方向に回動可能な球受け回転盤を備え貯留通路を介して導かれた遊技球を球受け回転盤の回動により第1導出口または第2導出口に移動させて排出させる振り分け機構と、C:第1導出口および第2導出口の何れか一方に排出された遊技球を入賞口よりも上方に搬送する揚送機構と、D:遊技球が転入可能な入賞領域を複数有し通過した入賞領域に応じた遊技を実行する入賞選別機構(例えば、実施形態における回転入賞機構500)とを備えて構成される。   In order to achieve the above object, the winning device according to the present invention is generally summarized as follows: A: a flow path for a game ball dropped into a winning opening having a storage passage for storing game balls and a discharge passage for discharging to the outside of the device A ball storage mechanism that switches the flow down and B: A ball receiving part that can receive a game ball can be rotated in both forward and reverse directions, and a game ball guided through a storage passage is received and rotated. A distribution mechanism that moves to the first outlet or the second outlet by rotation of the board and discharges it, and C: game balls discharged to either the first outlet or the second outlet from the winning opening A lifting mechanism that conveys upward; and D: a winning selection mechanism (for example, a rotary winning mechanism 500 in the embodiment) that has a plurality of winning areas into which game balls can be transferred and that executes a game according to the winning area that has passed. It is prepared for.

ここで、A:貯留機構は、遊技球が落入可能な入賞口、入賞口に落入した遊技球を順次貯留し得る貯留通路、入賞口に落入した遊技球を排出させる排出通路、入賞口に落入した遊技球の流下経路を貯留通路または排出通路に切り替えて流下させる流路切り替え構造、貯留通路が貯留された遊技球で充満されたことを検出する充満検出手段(例えば、実施形態における貯留部満杯検出器251、貯留部満杯判定手段713)、および流路切り替え構造の作動を制御する流路制御手段(例えば、実施形態におけるシャッター駆動制御手段714等)を有し、流路制御手段は、充満検出手段において貯留通路の充満状態が検出されていないときには遊技球の流下経路を貯留通路側に設定して入賞口に落入した遊技球を貯留通路に導き、充満検出手段において貯留通路の充満状態が検出されているときには遊技球の流下経路を排出通路側に切り替えて入賞口に落入した遊技球を排出通路に導くように構成される。   Here, A: a storage mechanism is a winning opening through which game balls can be dropped, a storage passage that can sequentially store gaming balls that have dropped into the winning opening, a discharge passage that discharges gaming balls that have dropped into the winning opening, and winning a prize A flow path switching structure for switching the flow path of a game ball dropped into the mouth to a storage path or a discharge path and flowing down, and a filling detection means for detecting that the storage path is filled with a stored game ball (for example, an embodiment) Storage portion full detector 251, storage portion full determination means 713), and flow path control means (for example, shutter drive control means 714 in the embodiment) for controlling the operation of the flow path switching structure. When the full state of the storage passage is not detected by the fullness detection means, the flow path of the game ball is set to the storage passage side, and the game ball dropped into the winning opening is guided to the storage passage, and the fullness detection means It is configured to guide the game balls that 落入 the winning openings switch the falling path of the game ball to the discharge passage side to the discharge passage when the charging status of Oite reservoir passage is detected.

B:振り分け機構は、上記貯留通路の下流側に設けられた回転盤収容部、外周側に遊技球を受容可能な球受け部を有して回転盤収容部に回動可能に設けられた球受け回転盤(例えば、実施形態における第1回転体320)、球受け回転盤を時計廻りおよび反時計廻りに回動させる回転盤駆動構造、貯留通路の下流部に設けられ入賞口から導かれた遊技球を基準位置にある球受け回転盤の球受け部に導く導入口、導入口を挟んで設けられ球受け回転盤の回動により球受け部に受容されて移動された遊技球を導出する第1導出口ならびに第2導出口、および回転盤駆動構造の作動を制御する回転盤制御手段(例えば、実施形態における第1回転体駆動制御手段715等)を有し、回転盤制御手段が入賞条件に基づいて球受け回転盤を時計廻りまたは反時計廻りに回動させ、基準位置において球受け部に受容された遊技球を第1導出口または第2導出口に排出させるように構成される。   B: The distribution mechanism has a rotating disc housing portion provided on the downstream side of the storage passage and a ball receiving portion capable of receiving a game ball on the outer peripheral side, and a ball provided rotatably in the rotating disc housing portion. A receiving rotating disk (for example, the first rotating body 320 in the embodiment), a rotating disk driving structure for rotating the ball receiving rotating disk clockwise and counterclockwise, and provided at the downstream portion of the storage passage and led from a winning opening. An introduction port that guides the game ball to the ball receiving portion of the ball receiving turntable at the reference position, and a game ball that is received and moved by the ball receiving portion by rotation of the ball receiving turntable provided across the introduction port. The first lead-out port, the second lead-out port, and turntable control means for controlling the operation of the turntable drive structure (for example, the first rotary body drive control means 715 in the embodiment) are provided. Depending on the conditions, turn the ball rest Is rotated counterclockwise, configured to discharge the receptor has been game balls in the ball receiving portion to the first outlet or the second outlet port at the reference position.

C:揚送機構は、振り分け機構の第1導出口および第2導出口の何れか一方に排出された遊技球を入賞口よりも上方に搬送するように構成される。   C: The lifting mechanism is configured to convey the game ball discharged to one of the first outlet and the second outlet of the sorting mechanism above the winning opening.

D:入賞選別機構は、入賞口の後方に位置して設けられ遊技球が転動可能な転動皿、揚送機構により搬送された遊技球を転動皿に導く案内通路、転動皿に導かれて皿面上を転動した遊技球が転入可能な複数の入賞領域(例えば、実施形態における特別領域と非特別領域)、複数の入賞領域の何れを通過したかを検出する領域通過検出手段、および領域通過検出手段からの信号により入賞状態を判定して遊技を実行する遊技判定実行手段とを備え、遊技判定実行手段が入賞状態に応じた遊技を実行するように構成される。   D: The winning selection mechanism is provided at the rear of the winning opening so that the game ball can roll, a guide passage for guiding the game ball conveyed by the lifting mechanism to the rolling plate, and the rolling plate. Area passing detection for detecting which of a plurality of winning areas (for example, special areas and non-special areas in the embodiment) and a plurality of winning areas in which a game ball that has been guided and rolled on the dish surface can be transferred. And a game determination execution means for determining a winning state based on a signal from the area passage detecting means and executing a game, and the game determination executing means is configured to execute a game according to the winning state.

上記構成の入賞装置における球貯留機構では、貯留通路が充満状態でないとき、すなわち貯留通路に最大貯留球数まで遊技球が貯留されておらずまだ貯留可能な状態のときには、遊技球の流下経路が貯留通路側に設定されており入賞球が順次貯留通路に導かれる。一方、このようにして導かれた入賞球で貯留通路が充満状態になったときには、遊技球の流下経路が排出通路側に切り替えられ、以降の入賞球は排出通路に導かれる。このため、貯留通路が充満されていない非充満状態では入賞球は必ず貯留通路側に導かれ、貯留通路に最大貯留球数まで貯留されていないにも拘わらず入賞球が排出通路側に流下してしまうようなことがない。   In the ball storage mechanism in the winning device having the above-described configuration, when the storage passage is not full, that is, when the game balls are not stored up to the maximum number of stored balls in the storage passage and can still be stored, the flow path of the game balls is The winning balls are set on the storage passage side and are sequentially guided to the storage passage. On the other hand, when the storage path is filled with the winning balls thus guided, the flow path of the game balls is switched to the discharge path, and the subsequent winning balls are guided to the discharge path. For this reason, in a non-filled state where the storage passage is not full, the winning ball is always guided to the storage passage, and the winning ball flows down to the discharge passage even though the maximum number of stored balls is not stored in the storage passage. There is no such thing as

また、入賞口に落入した入賞球が最大貯留球数までは確実に貯留通路に導かれて貯留されたうえ、貯留通路が充満状態になって以降は充満状態が解除されるまで入賞球が排出通路に排出される構成のため、入賞球の数量が最大貯留球数を超えていても貯留通路に貯留された遊技球が不確定になることがなく、貯留球を用いて新たな遊技を展開するゲーム構成が可能となる。そして、貯留通路が充満状態になるまでは、貯留通路に導かれた入賞球が導入された順に貯留されて振り分け機構に導かれる構成のため、例えば入賞口への入賞に応じて抽選を行い、貯留通路に導かれた貯留球を当該抽選結果に基づいて次のステップの流下通路に振り分けて新たな遊技を展開するような、個々の入賞球に固有の意義を持たせた1:1対応のゲーム構成が可能となる。   In addition, the winning balls that have dropped into the winning opening are reliably guided and stored in the storage passage up to the maximum number of stored balls, and after the storage passage is full, the winning balls are released until the full state is released. Due to the structure of being discharged to the discharge passage, even if the number of winning balls exceeds the maximum number of stored balls, the game balls stored in the storage passage will not be indeterminate and new games can be played using the stored balls. The game composition to develop becomes possible. And until the storage passage becomes full, the winning balls led to the storage passage are stored in the order in which they are introduced and guided to the distribution mechanism, so that, for example, a lottery is performed according to the winning to the winning opening, Based on the lottery result, the storage balls guided to the storage passage are distributed to the downflow passages of the next step, and a new game is developed. Game configuration is possible.

さらに、振り分け機構により第1導出口および第2導出口の何れか一方に排出された遊技球を入賞口よりも上方に搬送する揚送機構が設けられ、入賞口の後方に揚送機構により搬送された遊技球を導入し遊技球の転入した入賞領域に応じて遊技が実行される入賞選別機構が設けられているため、従来では利用が困難であった入賞口よりも上方の領域(例えば中央飾りの内部や入賞口に遊技球を案内するガイド釘後方の領域など)を利用して、振り分け機構により振り分けられた遊技球を用いた新たなゲームを展開する入賞装置及びゲーム構成とすることができる。   Further, a lifting mechanism is provided for transporting the game balls discharged to either the first outlet or the second outlet by the distribution mechanism above the winning opening, and is transported by the lifting mechanism behind the winning opening. Since a winning selection mechanism is provided in which a game ball is introduced and a game is executed according to the winning area into which the game ball is transferred, an area above the winning opening that has been difficult to use in the past (for example, the center) A winning device and a game configuration for developing a new game using the game balls distributed by the distribution mechanism using the interior of the decoration or the area behind the guide nails for guiding the game balls to the winning opening). it can.

従って、本発明に係る入賞装置によれば、遊技者の期待感を害することなく、また入賞球を利用したゲーム展開の自由度を拡大して、個々の入賞球に固有の意義を持たせた斬新なゲーム構成を構築可能な入賞装置を提供することができる。   Therefore, according to the winning device according to the present invention, each player's winning ball has a specific meaning without increasing the degree of freedom of game development using the winning ball without harming the player's expectation. A winning device capable of constructing a novel game structure can be provided.

以下、本発明を実施するための形態について添付図面を参照しながら説明する。本発明を適用した構成例として、パチンコ機の遊技盤に各種遊技部品を装着して複合入賞装置を構成した状態の遊技盤の正面図を図1に示し、この遊技盤の背面図を図2に示しており、まずこれらの図面を参照して、遊技盤全体の構成について要約説明する。なお遊技盤が装着されるパチンコ機本体の構成は、公知のパチンコ機と同様であり当業者であればその構成および適用を容易に理解できるため説明を省略する。   Hereinafter, embodiments for carrying out the present invention will be described with reference to the accompanying drawings. As a configuration example to which the present invention is applied, FIG. 1 shows a front view of a game board in a state in which various game parts are mounted on a game board of a pachinko machine to constitute a composite winning device, and a rear view of this game board is shown in FIG. First, with reference to these drawings, the overall configuration of the game board will be briefly described. The configuration of the main body of the pachinko machine to which the game board is mounted is the same as that of a known pachinko machine, and a person skilled in the art can easily understand the configuration and application thereof, and thus the description thereof is omitted.

遊技盤1は、所定板厚の積層合板の表面にセルを貼り付けてルーター加工した化粧板2を基板とし、前面側には上下のレール飾りに囲まれて略円形の遊技領域PAが区画形成される。遊技領域PAの中央部には中央飾り10が取り付けられ、この中央飾り10を囲む遊技領域PAの各部に、多数本の遊技釘、風車、下部一般入賞口3,3、ゲート5、LEDを用いた遊技効果ランプ6などの遊技構成部品が取り付けられるとともに、中央飾り10の下側に複合入賞装置20、中央飾り10の左枠部に開閉入賞機構60が設けられている。   The game board 1 uses a decorative board 2 which is a router processed by attaching cells to the surface of a laminated plywood having a predetermined thickness, and a substantially circular game area PA is defined on the front side surrounded by upper and lower rail decorations. Is done. A central ornament 10 is attached to the center of the game area PA, and a large number of game nails, windmills, lower general winning entrances 3 and 3, gates 5 and LEDs are used for each part of the game area PA surrounding the central ornament 10. A game component such as the game effect lamp 6 is attached, and a composite winning device 20 is provided below the central ornament 10, and an open / close winning mechanism 60 is provided on the left frame portion of the central ornament 10.

下部一般入賞口3は、遊技球が入球可能な入賞口を有する落入形態の固定入賞具であり、入賞口に落入した遊技球が内部に設けられた入賞検出器により検出されたのち化粧板2の裏面側に排出されるようになっている。ゲート5は遊技球が通過可能な門型の固定入賞具であり、このゲート5を上下に通過した遊技球が内蔵されたゲート通過検出器5sにより検出されるようになっている。入賞検出器およびゲート通過検出器の信号は、パチンコ遊技の作動を制御する遊技制御装置(700、図16を参照)に入力されている。   The lower general winning opening 3 is a fixed winning tool having a winning shape that has a winning opening into which a game ball can enter, and after the game ball that has dropped into the winning hole is detected by a winning detector provided therein. It is discharged to the back side of the decorative board 2. The gate 5 is a gate-type fixed winning tool through which a game ball can pass, and the game ball that has passed through the gate 5 up and down is detected by a gate passage detector 5s. The signals of the winning detector and the gate passage detector are input to a game control device (700, see FIG. 16) that controls the operation of the pachinko game.

中央飾り10は、中央に前後開口する窓口11を有して枠状に形成され、化粧板2の後面側に取り付けられた図柄表示装置12の表示パネルが窓口11を通して遊技者に視認可能に配設されるようになっている。中央飾り10における上枠部の中央には上部一般入賞口13,13および球入り口としてのワープ入球口14が設けられている。上部一般入賞口13は、下部一般入賞口3と同様に落入形態の固定入賞具であり、入賞口に入賞検出器が設けられるとともに、右枠部には上部一般入賞口13に落入した遊技球を図柄表示装置12の右側方を通して化粧板2の裏面側に排出する入賞球排出通路が形成されている。なおワープ入球口14を含む中央飾り10の詳細構成については後に詳述する。   The central ornament 10 has a window 11 having a front and rear opening at the center, is formed in a frame shape, and the display panel of the symbol display device 12 attached to the rear surface side of the decorative board 2 is arranged so that the player can see through the window 11. It is set up. In the center of the upper frame portion of the central ornament 10, there are provided upper general winning openings 13, 13 and a warp entrance 14 as a entrance of the ball. The upper general winning opening 13 is a fixed winning tool in the same manner as the lower general winning opening 3, and a winning detector is provided at the winning opening, and the upper general winning opening 13 is inserted into the right frame portion. A winning ball discharge passage for discharging the game ball to the back side of the decorative board 2 through the right side of the symbol display device 12 is formed. The detailed configuration of the central ornament 10 including the warp entrance 14 will be described in detail later.

遊技領域PAの下端部には、上部一般入賞口13,13、下部一般入賞口3,3、複合入賞装置20、開閉入賞機構60の何れにも入賞することなく遊技領域PAの下端まで落下した遊技球を、遊技盤1の裏面側に排出するアウト口8が化粧板2を前後に貫通して開口形成され、化粧板2の裏面には、上記各入賞装置等に落入した遊技球を化粧板2の背面に沿って下方に導く球寄せカバー19が取り付けられている。遊技盤1の後方に配設される裏セット盤には、アウト口8から排出された遊技球および球寄せカバー19により導かれた遊技球(これらを合わせて「遊技済み球」という)を集合させてパチンコ機の下部に導く遊技済み球排出経路が形成されており、遊技盤1から排出された遊技済み球が遊技済み球排出経路を通って遊技島の回収装置に排出されるようになっている。   At the lower end of the gaming area PA, the upper general winning opening 13, 13, the lower general winning opening 3, 3, the composite winning device 20, and the open / close winning mechanism 60 fell to the lower end of the gaming area PA without winning. An out port 8 for discharging the game ball to the back side of the game board 1 is formed through the decorative plate 2 in the front-rear direction, and the game ball dropped into each of the winning devices etc. is formed on the back surface of the decorative plate 2. A ball gathering cover 19 that leads downward along the back surface of the decorative plate 2 is attached. The back set board disposed behind the game board 1 collects the game balls discharged from the outlet 8 and the game balls guided by the ball cover 19 (collectively referred to as “game-completed balls”). A game-completed ball discharge path that leads to the lower part of the pachinko machine is formed, and the game-completed ball discharged from the game board 1 is discharged to the collection device on the game island through the game-completed ball discharge path. ing.

そして、遊技盤1がパチンコ機に組付けられ遊技に供された遊技状態において、遊技球発射装置から遊技領域PAに打ち出された遊技球が一般入賞口3,13やゲート5、複合入賞装置20、開閉入賞機構60などの入賞機器に入賞すると、各入賞機器に設けられた入賞検出器、ゲート通過検出器等により入賞が検出され、これらの検出信号を受けた遊技制御装置が当該入賞機器の種別等に基づく入賞条件に応じた指令信号を出力してパチンコ機の各部の作動を制御する。例えば入賞検出器からの入賞検出信号に基づいて球払出装置の作動を制御して褒賞としての遊技球(賞球)の払い出しを行わせ、ゲート通過検出器からのゲート通過検出信号に基づいて複合入賞装置20の入賞具の開閉作動を制御し、また各検出信号に基づいて効果ランプの点滅や効果音の発生等を行わせる。   In the gaming state in which the game board 1 is assembled to the pachinko machine and used for the game, the game balls launched from the game ball launching device into the game area PA are the general winning ports 3 and 13, the gate 5, and the composite winning device 20. When a winning device such as the open / close winning mechanism 60 wins, a winning is detected by a winning detector, a gate passing detector, etc. provided in each winning device, and the game control device that receives these detection signals receives the winning control of the winning device. A command signal corresponding to a winning condition based on the type or the like is output to control the operation of each part of the pachinko machine. For example, based on the winning detection signal from the winning detector, the operation of the ball paying device is controlled to pay out the game ball (prize ball) as a reward, and based on the gate passing detection signal from the gate passing detector The opening / closing operation of the winning device of the winning device 20 is controlled, and the blinking of the effect lamp and the generation of the sound effect are performed based on each detection signal.

さて、このように概要構成される遊技盤1にあって、中央飾り10にワープ入球口、ワープ案内通路、ステージ等が形成され、左枠部に開閉入賞機構60が設けられている。以下図3から図9の各図を参照しつつ中央飾りおよび開閉入賞機構の構成について説明する。ここで、図3は中央飾り10および複合入賞装置20の構成を説明するために分解状態で左斜め前方から見た斜視図、図4は中央飾り10および複合入賞装置20の構成を説明するために分解状態で左斜め後方から見た斜視図、図5および図6は中央飾り10から開閉入賞機構ユニットを取り外した状態で開閉入賞機構ユニット600を主として示す正面図および背面図、図7は開閉入賞機構の動作変位を示す正面図(部分断面図)、図8は図7中のVIII−VIII矢視の平断面図、図9は左枠部およびステージの球流れ状態を主として示す側断面図である。   Now, in the gaming board 1 configured as described above, a warp entrance, a warp guide passage, a stage, and the like are formed in the central ornament 10, and an open / close prize winning mechanism 60 is provided in the left frame portion. The configuration of the central ornament and the open / close prize winning mechanism will be described below with reference to FIGS. 3 to 9. Here, FIG. 3 is a perspective view of the center ornament 10 and the composite winning device 20 as seen from the left front in an exploded state in order to explain the configuration of the central ornament 10 and the composite winning device 20, and FIG. FIG. 5 and FIG. 6 are a front view and a rear view mainly showing the opening / closing prize winning mechanism unit 600 with the opening / closing prize winning mechanism unit removed from the central ornament 10, and FIG. FIG. 8 is a plan sectional view taken along arrow VIII-VIII in FIG. 7, and FIG. 9 is a side sectional view mainly showing the sphere flow state of the left frame part and the stage. It is.

中央飾り10は、前後を仕切る装飾面の前面側に種々の意匠が施され後面側に遊技球を案内する球通路が形成されたベース枠101、ベース枠の後方にネジ固定されて側方の球通路を形成する中間枠102、および中間枠の後方にネジ固定されてステージの後方壁を形成する後方枠103、の前後3層からなる装飾枠100を主体として構成される。   The central ornament 10 has a base frame 101 in which various designs are applied on the front side of the decorative surface that partitions the front and rear sides, and a ball passage that guides a game ball is formed on the rear side, and is fixed to the side of the base frame by screws. The decorative frame 100 is composed mainly of a front and rear three layers of an intermediate frame 102 that forms a spherical passage and a rear frame 103 that is screwed to the rear of the intermediate frame to form a rear wall of the stage.

装飾枠100の中央部には、図柄表示装置12の表示パネルの大きさに合わせた開口サイズの窓口11が各層の枠体に位置整合して形成され、この窓口を囲む上側に上枠部111、左側に左枠部112、右側に右枠部113、下側に下枠部114が形成されて、前後に奥行きのある額縁状に構成される。上枠部111および右枠部113には、ベース枠の装飾面から前方に突出してリブ状の庇部115が形成され遊技領域に発射された打球が直接窓口11に飛び込むことなく庇部の傾斜に従って左右側方に流下するようになっている。上枠部111の上部中央には所定意匠を施した中央障壁部116が設けられ、この中央障壁部116の背後右側に上部一般入賞口13,13、左側にワープ入球口14が上向きに開口形成されている。   In the central portion of the decorative frame 100, a window 11 having an opening size matching the size of the display panel of the symbol display device 12 is formed in alignment with the frame of each layer, and an upper frame section 111 is formed on the upper side surrounding the window. The left frame portion 112 is formed on the left side, the right frame portion 113 is formed on the right side, and the lower frame portion 114 is formed on the lower side. In the upper frame portion 111 and the right frame portion 113, a rib-like flange portion 115 is formed so as to protrude forward from the decorative surface of the base frame. It flows down to the left and right sides. A central barrier 116 having a predetermined design is provided at the upper center of the upper frame 111. The upper general winning openings 13, 13 are opened on the right side behind the central barrier 116, and the warp entrance 14 is opened upward on the left. Is formed.

上部一般入賞口13,13は、上述したように下部一般入賞口3と同様の固定入賞具であり、ベース枠101の装飾面の後方には、入賞口に落入した遊技球を上枠部111〜右枠部113を通して装飾枠100の下方に導く入賞球排出通路130が形成されている。入賞球排出通路130は、上枠部111に形成された上部排出通路131と右枠部113に形成された側部排出通路132とからなり、側部排出通路132には遊技球を後方および右側方に折り返して遊技球の落下速度を緩和する屈曲部133が形成されている。入賞球排出通路130は下端の開口部で球寄せカバー19側の排出通路19bと繋がり、裏セット盤の遊技済み球排出経路を介して遊技島の回収装置に排出される。上部一般入賞口13には、入賞口に落入した遊技球を検出する入賞検出器13sがそれぞれ設けられ、各信号が遊技制御装置に入力されている。   The upper general winning opening 13, 13 is a fixed winning tool similar to the lower general winning opening 3, as described above, and a game ball dropped into the winning opening is placed on the upper frame portion behind the decorative surface of the base frame 101. A winning ball discharge passage 130 that leads to the lower part of the decorative frame 100 through the right frame portion 113 is formed. The winning ball discharge passage 130 is composed of an upper discharge passage 131 formed in the upper frame portion 111 and a side discharge passage 132 formed in the right frame portion 113. A bent portion 133 is formed that is bent back to ease the falling speed of the game ball. The winning ball discharge passage 130 is connected to the discharge passage 19b on the ball gathering cover 19 side at the opening at the lower end, and is discharged to the game island collection device through the game-completed ball discharge path of the back set board. The upper general winning opening 13 is provided with a winning detector 13s for detecting a game ball dropped into the winning opening, and each signal is input to the game control device.

ワープ入球口14は、遊技球を下枠部114に形成されたステージに導くための導入口であり、ベース枠101の後面側には、ワープ入球口14に落入した遊技球を上枠部111〜左枠部112を通してステージ140に導くワープ案内通路120が形成されている。ワープ案内通路120は、上枠部111に形成された上部案内通路121と左枠部112に形成された側部案内通路122とからなり、ベース枠101に形成された上部案内通路121の終端に後方に開口する連通開口が設けられて中間枠102に形成された側部案内通路122に繋がっている。側方案内通路122は窓口11に沿って下方に延び、この通路下端の窓口11内周面に開口形成されたワープ出口124で下枠部114のステージ140(上段ステージ142)に繋がっている。   The warp entrance 14 is an introduction port for guiding the game ball to the stage formed in the lower frame portion 114, and the game ball dropped into the warp entrance 14 is placed on the rear surface side of the base frame 101. A warp guide passage 120 that leads to the stage 140 through the frame part 111 to the left frame part 112 is formed. The warp guide passage 120 includes an upper guide passage 121 formed in the upper frame portion 111 and a side guide passage 122 formed in the left frame portion 112, and at the end of the upper guide passage 121 formed in the base frame 101. A communication opening that opens rearward is provided and is connected to a side guide passage 122 formed in the intermediate frame 102. The side guide passage 122 extends downward along the window 11, and is connected to the stage 140 (upper stage 142) of the lower frame portion 114 through a warp outlet 124 formed in the inner peripheral surface of the window 11 at the lower end of the path.

ステージ140は、窓口の手前側に形成された下段ステージ141と、窓口11の奥側に形成された上段ステージ142とからなり、下段ステージ141はベース枠101に、上段ステージ142は中間枠102に形成されている。   The stage 140 includes a lower stage 141 formed on the front side of the window and an upper stage 142 formed on the back side of the window 11, the lower stage 141 being the base frame 101 and the upper stage 142 being the intermediate frame 102. Is formed.

下段ステージ141は、前後方向に遊技球1.2〜1.5球程度の通路幅を有し、正面視において中央が低く左右枠部に向けて高くなるV字状に形成されている。下段ステージ141の中央部には、遊技球2球程度の左右方向幅で前方に下傾し遊技球を前方に誘導する誘導部141gが形成される一方、誘導部141gを除く左右ステージ面の前方には、上段ステージ142から下段ステージ141に落下した遊技球がそのまま前方に転落しないように規制する転落防止壁141wが設けられている(図4を参照)。   The lower stage 141 has a passage width of about 1.2 to 1.5 game balls in the front-rear direction, and is formed in a V-shape that is lower in the center and higher toward the left and right frame portions in front view. At the center of the lower stage 141, there is formed a guide part 141g that tilts forward with a lateral width of about two game balls and guides the game ball forward, while the front of the left and right stage surfaces excluding the guide part 141g Is provided with a fall-preventing wall 141w that restricts a game ball that has dropped from the upper stage 142 to the lower stage 141 so that it does not fall forward (see FIG. 4).

上段ステージ142は、前後方向に遊技球2〜3球程度の通路幅を有し、正面視において中央左右に2箇所の緩やかな凹部を有し左右枠部に向けて高くなるW字状に形成されている。上述したワープ出口124は、上段ステージ142の左端の高さ位置に合わせて左枠部の窓口内周面に開口形成され(図7および図9を参照)、ワープ案内通路120を転動落下した遊技球がワープ出口124から上段ステージ142の左上端部に導かれ、まず上段ステージ142を左右に転動するようになっている。   The upper stage 142 has a passage width of about 2 to 3 game balls in the front-rear direction, and is formed in a W shape that has two gentle recesses in the center left and right in the front view and increases toward the left and right frame portions. Has been. The above-described warp outlet 124 is formed in the window inner peripheral surface of the left frame portion in accordance with the height position of the left end of the upper stage 142 (see FIGS. 7 and 9), and rolls down the warp guide passage 120. The game ball is guided from the warp outlet 124 to the upper left end portion of the upper stage 142, and first rolls the upper stage 142 left and right.

上段ステージ142に形成された左右2箇所の凹部は、窓口奥部が浅く前端側に向けて深くかつ広くなる円錐溝状で前方に下傾して形成されており、この領域に収斂した遊技球が前方に誘導されて下段ステージ141に落下するようになっている。これらの左右の凹部に挟まれた上段ステージ142の中央部には、凹部と滑らかに繋がって円弧状に盛り上がる丘陵部が形成され、この丘陵部を中心として上段ステージ142と下段ステージ141の高さの差が遊技球の直径よりも大きい高段差領域143が形成される。   The two left and right recesses formed in the upper stage 142 are formed in a conical groove shape that is shallow and deep toward the front end with a shallow back part of the window, and is tilted forward and formed in this area. Is guided forward and falls to the lower stage 141. At the center of the upper stage 142 sandwiched between the left and right recesses, a hill is formed that is smoothly connected to the recess and rises in an arc shape. The height of the upper stage 142 and the lower stage 141 is centered on this hill. A high step region 143 in which the difference is larger than the diameter of the game ball is formed.

そして高段差領域143の中央部では、上段ステージ142における丘陵部の頂部に、前方に向けて緩やかにV字状に開く係合誘導溝および係合誘導溝と繋がって大きくU字状に開く付勢誘導溝からなる誘導溝142gが形成されるとともに、この誘導溝142gの前方の立設壁に下段ステージの誘導部141gの上方を跨いで前方に突出する舌片状のガイド突片145が取り付けられており、このガイド突片145の上面に遊技球の球径に合わせた凹状円筒面の特別流下通路145gが形成されている。   At the center of the high step region 143, the top of the hill portion of the upper stage 142 is connected to the engagement guide groove that gently opens in a V shape toward the front and the engagement guide groove opens to a large U shape. A guide groove 142g made of a force guide groove is formed, and a tongue-like guide protrusion 145 that protrudes forward across the upper portion of the guide part 141g of the lower stage is attached to the standing wall in front of the guide groove 142g. A special downflow passage 145g having a concave cylindrical surface matching the diameter of the game ball is formed on the upper surface of the guide protrusion 145.

すなわち、高段差領域143の中央部では、特別流下通路145gと誘導部141gとが遊技球の直径よりも大きな高低差をもって上下に立体交差し、上方の特別流下通路145gを遊技球が前後方向に転動し、その下方の誘導部141gを遊技球が係合突片145に衝突することなく転動し得るようになっている。またこれらの左右方向の関係では、下段ステージの誘導部141gの左右方向幅が遊技球2球程度の幅を有して比較的広く形成される一方、その上方の特別流下通路145gは、誘導部141gの左右方向の中心に位置し遊技球の球径に合わせた凹状円筒面で狭く形成されている。   That is, in the central portion of the high step region 143, the special downflow passage 145g and the guide portion 141g are three-dimensionally crossed vertically with a height difference larger than the diameter of the game ball, and the game ball passes through the upper special downflow passage 145g in the front-rear direction. It rolls, and it can roll without the game ball colliding with the engagement protrusion piece 145 in the guide part 141g below it. Further, in these lateral relations, the lateral width of the lower stage guide portion 141g is formed to be relatively wide with a width of about two game balls, while the special downflow passage 145g above the guide portion 141g It is located at the center in the left-right direction of 141 g and is narrowly formed by a concave cylindrical surface that matches the diameter of the game ball.

このため、ワープ出口124から上段ステージ142に導入された遊技球は、まず上段ステージ142を左右に転動し、多くの遊技球は前傾する左右何れかの凹部から下段ステージ141に落下して下段ステージ141を左右に転動し、中央の誘導部141gから装飾枠100の下方、すなわち中央飾り10の下部領域に落下する。また一部の遊技球は上段ステージを左右転動するうちに上段ステージの誘導溝142gに係合して前方に誘導され、付勢誘導溝に落ち込むことで前方に付勢されて特別流下通路145gを転動し、この通路の前端部から中央飾り10の下方に落下する。ガイド突片145の突出量は、下段ステージ141の前後方向の通路幅と略同一寸法に形成されており(図9を参照)、特別流下通路145gを転動した遊技球が下段ステージ141に当接することなく化粧板2に沿って落下する(より具体的には後述する複合入賞装置20の入賞口212に向けて落下する)。   For this reason, the game balls introduced from the warp outlet 124 to the upper stage 142 first roll the upper stage 142 to the left and right, and many game balls fall to the lower stage 141 from either of the left and right concave portions. The lower stage 141 rolls to the left and right, and falls from the central guiding portion 141g below the decorative frame 100, that is, to the lower region of the central ornament 10. In addition, some game balls are guided forward by engaging with the guide groove 142g of the upper stage while rolling left and right on the upper stage, and are urged forward by falling into the urging guide groove, and the special downflow passage 145g. , And falls below the central ornament 10 from the front end of this passage. The amount of protrusion of the guide protrusion 145 is substantially the same as the width of the lower stage 141 in the front-rear direction (see FIG. 9), and the game ball rolling on the special flow path 145g hits the lower stage 141. It falls along the decorative board 2 without touching (more specifically, it falls toward a winning opening 212 of the composite winning device 20 described later).

このように、本構成の装飾枠100ではワープ入球口14が装飾枠の上枠部111に設けられ、ワープ入球口14に入球した遊技球がステージ140に導かれる構成のため、遊技者が発射ハンドルを調整してワープ入球口14に入球するように遊技球を打ち出すことで、遊技者が自らの意思に応じて中央飾りの下側領域に流下させる遊技球の比率を高め、入賞具210やゲート5の周辺に球流れを確保することが可能になっている。   Thus, in the decorative frame 100 of this configuration, the warp entrance 14 is provided in the upper frame portion 111 of the decorative frame, and the game ball that has entered the warp entrance 14 is guided to the stage 140. The player adjusts the launch handle and launches the game ball so that it enters the warp entrance 14, thereby increasing the proportion of game balls that the player can flow down to the lower area of the central ornament according to his / her own intention. The ball flow can be secured around the winning device 210 and the gate 5.

なお、装飾枠100を構成するベース枠101、中間枠102、後方枠103のうち、少なくとも中間枠102は透視可能な樹脂材料(有色透明や半透明の樹脂材料など、光を透過する特性を有する材料)を用いて成形されており、上段ステージ142の下側に配設される複合入賞装置の回転入賞機構500が下段ステージ142を通してパチンコ機の前面側から視認できる構成になっている。また後方枠103には上段ステージ142を転動する遊技球が図柄表示装置12の表示パネルに当接しないように、上段ステージの転動面よりも高い当接規制壁が形成されている。   Of the base frame 101, the intermediate frame 102, and the rear frame 103 constituting the decorative frame 100, at least the intermediate frame 102 has a characteristic of transmitting light, such as a transparent resin material (colored transparent or translucent resin material). The rotary winning mechanism 500 of the composite winning device disposed on the lower side of the upper stage 142 can be viewed from the front side of the pachinko machine through the lower stage 142. The rear frame 103 is formed with a contact restriction wall higher than the rolling surface of the upper stage so that the game ball rolling on the upper stage 142 does not contact the display panel of the symbol display device 12.

装飾枠100における左枠部の上部に、開閉入賞機構60が設けられている。開閉入賞機構60はユニット化されており、図5および図6に示すように装飾枠100と別体に形成された開閉入賞機構ユニット600が、左枠部に形成されたユニット装着部160に一体的に装着され、開閉入賞機構60を形成するように構成されている。   An open / close prize winning mechanism 60 is provided above the left frame portion of the decorative frame 100. The open / close winning mechanism 60 is unitized, and as shown in FIGS. 5 and 6, an open / close winning mechanism unit 600 formed separately from the decorative frame 100 is integrated with a unit mounting portion 160 formed in the left frame portion. And an open / close prize winning mechanism 60 is formed.

開閉入賞機構ユニット600は、遊技球が入球し得る大入賞口を有しユニットの基体となるユニットベース610、ユニットベースに大入賞口を開閉可能に取り付けられた開閉扉620、開閉扉を開閉駆動する開閉駆動構造630、大入賞口に落入した遊技球を検出する大入賞口入賞検出器650、およびユニットベースの前面を覆う化粧蓋660などから構成される。   The open / close winning mechanism unit 600 includes a unit base 610 which has a large winning opening through which a game ball can enter and serves as a base of the unit, an open / close door 620 attached to the unit base so that the large winning opening can be opened and closed, and an open / close door. An opening / closing drive structure 630 for driving, a big winning opening winning detector 650 for detecting a game ball dropped into the big winning opening, a decorative lid 660 covering the front surface of the unit base, and the like.

ユニットベース610は、各構成部材の支持基盤となるベース面611と、ベース面の前面側にその周囲を取り囲むように立設された囲壁とを有し、全体として装飾枠100の左肩部の形状に合わせた前面開放の箱状に形成されている。   The unit base 610 has a base surface 611 that serves as a support base for each component member, and a surrounding wall that stands up to surround the periphery of the base surface on the front side of the base surface, and the shape of the left shoulder portion of the decorative frame 100 as a whole. It is formed in a box shape with an open front that matches the above.

ベース面611の前面側は、遊技球の処理領域とされ、正面左側の囲壁の上部が切り欠かれて縦長方形の大入賞口612が形成されるとともに、囲壁の内側には大入賞口に入球した遊技球を流下させる導出通路613が形成され、その下端部にベース面611を前後に貫通して遊技球を後方に排出する導出口614が形成されている。大入賞口612および導出通路613の前後方向の幅は、遊技球の直径よりも幾分大きい程度の寸法に設定されており、ベース面611の前面側に薄型コンパクトな球処理領域が形成される。導出通路613の途中には大入賞口612に入球して導出通路613を流下する遊技球を検出する大入賞口入賞検出器650が装着され、この検出器の信号が遊技制御装置に入力されている。   The front side of the base surface 611 is a processing area for game balls, and the upper part of the left wall is cut out to form a vertical rectangular big prize opening 612 and the inside of the enclosure is entered into the big prize opening. A lead-out passage 613 for allowing the game ball to flow down is formed, and a lead-out port 614 for penetrating the base surface 611 back and forth and discharging the game ball rearward is formed at the lower end thereof. The width in the front-rear direction of the special winning opening 612 and the lead-out passage 613 is set to a size somewhat larger than the diameter of the game ball, and a thin and compact ball processing region is formed on the front side of the base surface 611. . In the middle of the lead-out passage 613, a big-winning-port winning detector 650 that detects a game ball that enters the big winning opening 612 and flows down the lead-out passage 613 is mounted, and a signal of this detector is input to the game control device. ing.

一方、ベース面611の後面側は、開閉扉620を開閉する開閉駆動構造630の配設領域とされる。大入賞口612の下端近傍には開閉扉620の揺動軸625を回動可能に枢支する軸受部615が形成され、この軸受部615を軸心とする同心円上に、揺動軸625に連結されたリンクアーム635先端のリンクピン636をガイドする円弧状のガイド溝616が形成されている。またベース面611の上部には開閉扉620を開閉駆動する大入賞口開閉駆動ソレノイド631をネジ固定するソレノイド装着部が形成されている。   On the other hand, the rear surface side of the base surface 611 is an arrangement region of the opening / closing drive structure 630 that opens and closes the opening / closing door 620. A bearing portion 615 that pivotally supports the swing shaft 625 of the open / close door 620 is formed in the vicinity of the lower end of the big prize winning opening 612, and is formed on a concentric circle having the bearing portion 615 as an axis as the swing shaft 625. An arcuate guide groove 616 that guides the link pin 636 at the tip of the linked link arm 635 is formed. In addition, a solenoid mounting portion for fixing a special prize opening opening / closing drive solenoid 631 for opening / closing the opening / closing door 620 is formed on the upper portion of the base surface 611.

開閉扉620は、大入賞口612の開口寸法に合わせた縦長方形に形成され、基端側には揺動軸625が圧入固定される円筒状の軸装着部624が前後に延びて形成されている。開閉扉620の扉面は先端側で屈曲されて「く」の字状に形成されるとともに、この屈曲部から軸装着部624にかけて補強兼用のリブ627が形成される一方、ユニットベース611には開閉扉620の開放角度位置でリブ627の端面を係合支持する支持部617が形成されており(図7を参照)、上方から多数の遊技球が落下してきても、これらの遊技球を確実に受け止めて大入賞口612の内方に誘導し得るようになっている。   The open / close door 620 is formed in a vertical rectangular shape corresponding to the opening size of the grand prize winning opening 612, and a cylindrical shaft mounting portion 624 to which the swing shaft 625 is press-fitted and fixed is formed on the base end side so as to extend forward and backward. Yes. The door surface of the opening / closing door 620 is bent at the distal end side to form a “<” shape, and a rib 627 serving as a reinforcement is formed from the bent portion to the shaft mounting portion 624, while the unit base 611 has a A support portion 617 that engages and supports the end surface of the rib 627 at the opening angle position of the opening / closing door 620 is formed (see FIG. 7), and even if a large number of game balls fall from above, these game balls can be reliably secured. And can be guided to the inside of the grand prize winning opening 612.

揺動軸625の外周面には、開閉扉620の軸装着部およびリンクアーム635の軸固定ボスと係合する位置に綾目ローレットが形成されており、開閉扉の軸装着部624に揺動軸625を圧入固定することで開閉扉620に一体に組付けられる。開閉扉620は、揺動軸625をユニットベースの軸受部615に嵌挿して挿通させ、ベース面611の後面側に突出した揺動軸625の後端部にリンクアーム635の軸固定ボスを圧入固定することで揺動軸625を介してリンクアーム635と連結され、ベース面611を挟む前後で揺動軸625の軸回りに一体的に揺動可能に支持される。   On the outer circumferential surface of the swing shaft 625, a twill knurl is formed at a position where the shaft mounting portion of the opening / closing door 620 and the shaft fixing boss of the link arm 635 are engaged, and the shaft mounting portion 624 of the opening / closing door swings. The shaft 625 is press-fitted and fixed to be integrated with the opening / closing door 620. The open / close door 620 inserts and inserts the swing shaft 625 into the bearing portion 615 of the unit base, and presses the shaft fixing boss of the link arm 635 into the rear end portion of the swing shaft 625 protruding to the rear surface side of the base surface 611. By being fixed, it is connected to the link arm 635 via the swing shaft 625, and is supported so as to be swingable integrally around the swing shaft 625 before and after sandwiching the base surface 611.

開閉駆動構造630は、駆動源となる大入賞口開閉駆動ソレノイド631、大入賞口開閉駆動ソレノイドのプランジャの先端に固定された駆動伝達具634、一端が揺動軸625に固定され他端が駆動伝達具634にリンクピン636を介して連結されるリンクアーム635などからなり、大入賞口開閉駆動ソレノイド631の駆動力を揺動軸625に伝達して開閉扉620を開閉するように構成される。   The opening / closing drive structure 630 includes a large winning opening opening / closing driving solenoid 631 serving as a driving source, a drive transmission tool 634 fixed to the tip of the plunger of the large winning opening opening / closing driving solenoid, and one end fixed to the swing shaft 625 and the other end driven. A link arm 635 connected to the transmission tool 634 via a link pin 636 is configured to transmit the driving force of the special prize opening / closing driving solenoid 631 to the swing shaft 625 to open / close the opening / closing door 620. .

大入賞口開閉駆動ソレノイド631は、プランジャの外周部にリターンスプリング(コイルスプリング)が装着されたスプリングリターンタイプの直動型ソレノイドであり、駆動信号がONされた時にプランジャが引き込まれて縮長し、駆動信号をOFFしたときにリターンスプリングのバネ力でプランジャが押し出されて元の伸長状態に復帰する。プランジャの先端部には駆動伝達具634の板厚に合わせたスリ割りと、駆動伝達具634を固定するためのネジ孔とが形成されている。   The prize winning opening / closing drive solenoid 631 is a spring return type direct acting solenoid in which a return spring (coil spring) is mounted on the outer periphery of the plunger, and when the drive signal is turned ON, the plunger is drawn and contracted. When the drive signal is turned off, the plunger is pushed out by the spring force of the return spring and returns to the original extended state. A slit according to the plate thickness of the drive transmission tool 634 and a screw hole for fixing the drive transmission tool 634 are formed at the tip of the plunger.

駆動伝達具634は薄板プレート状をなし、大入賞口開閉駆動ソレノイド631のプランジャに固定される基端側にねじを挿通させる円孔が形成され、先端側にはリンクピン636と係合するピン係合孔が形成されている。ピン係合孔はリンクピン636のピン径に合わせた幅で、リンクピンの揺動軌跡に応じた長さを有する長孔状に形成されている。駆動伝達具634は、プランジャ先端部のスリ割りに嵌挿して位置合わせし後方からネジを挿通して締め込むことでプランジャの先端部にネジ固定される。   The drive transmission tool 634 has a thin plate shape, and a circular hole through which a screw is inserted is formed on the base end side fixed to the plunger of the prize winning opening / closing drive solenoid 631, and a pin that engages with the link pin 636 is formed on the distal end side. An engagement hole is formed. The pin engagement hole has a width corresponding to the pin diameter of the link pin 636 and is formed in a long hole shape having a length corresponding to the swing locus of the link pin. The drive transmission tool 634 is screwed to the distal end portion of the plunger by being inserted into the slot at the distal end portion of the plunger, aligned, and inserted and tightened from behind.

リンクアーム635は、一端に揺動軸625が圧入される軸固定ボス、他端にリンクピン636が圧入されるピン固定ボスが形成されて短いアーム状に形成されており、上述したように揺動軸625の後端部に圧入固定されてベース面611の後面側に揺動可能に支持される。   The link arm 635 is formed in a short arm shape with a shaft fixing boss into which the swing shaft 625 is press-fitted at one end and a pin fixing boss into which the link pin 636 is press-fitted into the other end. It is press-fitted and fixed to the rear end portion of the moving shaft 625 and is supported on the rear surface side of the base surface 611 so as to be swingable.

そこで、駆動伝達具634が組付けられた大入賞口開閉駆動ソレノイド631をユニットベース610のソレノイド装着部にネジ固定し、開閉扉620を揺動させてリンクアーム635のピン固定ボスと駆動伝達具634のピン係合孔とを位置合わせし、駆動伝達具634の後方からピン係合孔を通してリンクアーム635のピン固定ボスにリンクピン636を圧入する。このとき、リンクピン636の先端がベース面611に形成されたガイド溝616内に嵌入して揺動変位可能に支持される。   Therefore, the big prize opening opening / closing drive solenoid 631 with the drive transmission tool 634 assembled thereto is screwed to the solenoid mounting portion of the unit base 610, and the opening / closing door 620 is swung to drive the pin fixing boss of the link arm 635 and the drive transmission tool. The pin engaging hole 634 is aligned, and the link pin 636 is press-fitted into the pin fixing boss of the link arm 635 through the pin engaging hole from the rear of the drive transmission tool 634. At this time, the distal end of the link pin 636 is fitted into a guide groove 616 formed in the base surface 611 and supported so as to be swingable and displaceable.

こうして駆動伝達具634とリンクアーム635とがリンクピン636により連結されると、大入賞口開閉駆動ソレノイド631のON/OFFによる駆動伝達具634の上下方向変位が、リンクピン636を介してリンクアーム635の揺動角度変位に変換されて伝達され、揺動軸625により連結された開閉扉620が反時計廻り/時計廻りに揺動可能な駆動機構が形成される。そしてこれによりユニットベース610の前面側に開閉扉620、後面側に開閉駆動構造630が配設され、大入賞口開閉駆動ソレノイド631をON/OFF制御することで開閉扉620を揺動させ大入賞口612を開閉可能な開閉入賞機構ユニット600が形成される。   When the drive transmission tool 634 and the link arm 635 are connected by the link pin 636 in this way, the vertical displacement of the drive transmission tool 634 due to the ON / OFF of the prize winning opening / closing drive solenoid 631 is caused via the link pin 636. A drive mechanism is formed in which the opening / closing door 620 connected to the swing shaft 625 can be swung counterclockwise / clockwise by being converted into a swing angle displacement of 635 and transmitted. As a result, the opening / closing door 620 is provided on the front side of the unit base 610 and the opening / closing drive structure 630 is provided on the rear side, and the opening / closing door 620 is swung by ON / OFF control of the prize opening opening / closing driving solenoid 631. An open / close winning mechanism unit 600 capable of opening and closing the mouth 612 is formed.

一方、装飾枠100の左枠部112に、開閉入賞機構ユニット600を装着するユニット装着部160が設けられている。ユニット装着部160は、ユニットベース610の後面周縁を支持するベース支持部160aと、ユニットベース610の後面側に設けられた開閉駆動構造630を収容する駆動構造収容部160bとからなり、ベース支持部160aはベース枠101の装飾面を利用して形成され、駆動構造収容部160bは装飾面を貫通して装飾面の後方に形成されている。   On the other hand, a unit mounting portion 160 for mounting the opening / closing prize winning mechanism unit 600 is provided on the left frame portion 112 of the decorative frame 100. The unit mounting portion 160 includes a base support portion 160a that supports the peripheral edge of the rear surface of the unit base 610, and a drive structure storage portion 160b that stores the opening / closing drive structure 630 provided on the rear surface side of the unit base 610. 160a is formed using the decorative surface of the base frame 101, and the drive structure housing portion 160b is formed behind the decorative surface through the decorative surface.

ベース支持部160aには、ユニットベース610に形成されたネジ挿通孔618と位置整合してネジを受容する円筒状のネジボス168が装飾面の裏面側に複数形成され、開閉入賞機構ユニット600を装飾面の前面側から固定可能になっている。   A plurality of cylindrical screw bosses 168 that are aligned with the screw insertion holes 618 formed in the unit base 610 and receive screws are formed on the base support portion 160a on the back side of the decorative surface, and the open / close prize winning mechanism unit 600 is decorated. It can be fixed from the front side of the surface.

駆動構造収容部160bは、ベース枠101の装飾面の後面側に開閉駆動構造630の周囲を取り囲むように立設された収容壁162と、この収容壁162に囲まれた開口の後方を覆ってネジ固定される後方壁163とによって形成され、後方壁163にはユニットベースのベース面611に開口形成された導出口614と位置整合して、導出口614から排出された遊技球を球寄せカバー19側の排出流路19aに導く連絡流路164が形成されている。また後方壁162には、開閉入賞機構ユニット600の大入賞口開閉駆動ソレノイド631および大入賞口入賞検出器650の信号線を前後に挿通させる切り欠き部が形成されている。   The drive structure housing portion 160 b covers the housing wall 162 erected so as to surround the periphery of the opening / closing drive structure 630 on the rear surface side of the decorative surface of the base frame 101, and covers the rear of the opening surrounded by the housing wall 162. The rear wall 163 is screwed to the rear wall 163. The rear wall 163 is aligned with the outlet port 614 formed in the base surface 611 of the unit base, so that the game balls discharged from the outlet port 614 are covered by the ball cover. A communication channel 164 leading to the 19th discharge channel 19a is formed. Further, the rear wall 162 is formed with a notch portion through which the signal lines of the big prize opening opening / closing drive solenoid 631 of the opening / closing prize winning mechanism unit 600 and the big prize opening prize detector 650 are inserted back and forth.

そこで、上記信号線を切り欠き部を通して挿通させるとともに、ユニットアッセンブリされた開閉入賞機構ユニット600を装飾枠100の左肩部に位置合わせして装着すると、開閉駆動構造630が駆動構造収容部160bに収容され、ユニットベース610の後面周縁がベース支持部160aに支持されて前後に位置決めされる。そしてユニットベース610の前面側からネジ挿通孔618を通してネジボス168に固定ネジを螺合締結し、ユニットベース610の前面に化粧蓋660を嵌着することで、開閉入賞機構ユニット600がユニット装着部160に一体的に装着される。化粧蓋660の後面側には揺動軸625の先端部を枢支する軸受部665が形成されており、開閉扉620が前後の軸受部665,615に支持されて安定的に開閉可能に配設される。そして大入賞口開閉駆動ソレノイド631および大入賞口入賞検出器650の信号線を遊技制御装置に接続することで開閉入賞機構60が形成され、その作動が遊技制御装置により制御される。   Therefore, when the signal line is inserted through the cutout portion and the opening / closing prize winning mechanism unit 600 assembled as a unit is aligned with the left shoulder of the decorative frame 100 and mounted, the opening / closing drive structure 630 is accommodated in the drive structure accommodating portion 160b. Then, the rear peripheral edge of the unit base 610 is supported by the base support part 160a and positioned front and rear. Then, a fixing screw is screwed and fastened to the screw boss 168 through the screw insertion hole 618 from the front side of the unit base 610, and the decorative lid 660 is fitted to the front surface of the unit base 610, so that the opening / closing prize winning mechanism unit 600 is unit mounted portion 160. It is attached to the unit. A bearing portion 665 that pivotally supports the tip of the swing shaft 625 is formed on the rear surface side of the decorative lid 660, and the opening / closing door 620 is supported by the front and rear bearing portions 665, 615 so as to be stably opened and closed. Established. The open / close prize winning mechanism 60 is formed by connecting the signal lines of the big prize opening opening / closing drive solenoid 631 and the big prize opening prize detector 650 to the game control device, and its operation is controlled by the game control device.

このように、開閉入賞機構60では、開閉入賞機構ユニット600の開閉駆動構造630が駆動構造収容部160bに収容されて装飾面の後方に配設され、装飾面の前方には遊技球の球径よりも幾分大きい程度の薄型に構成された遊技球の処理領域が配設される。このため、大型の入賞口を開閉する開閉入賞機構でありながら化粧板の前面側への突出量を最小限に抑制したコンパクトな構成になっている。また、ユニット装着部160と前述したワープ案内通路120とは、各図に明示するように、前後方向に重なるように形成されており、左枠部112の枠幅寸法を開閉入賞機構ユニット600のユニット幅と略同一寸法まで抑制して中央飾り側方の転動領域を確保可能な構成になっている。さらに、開閉入賞機構ユニット600が一体的に着脱可能に構成されているため、開閉駆動構造630の構成部品が損耗等した場合であっても容易に着脱交換することができる。   Thus, in the open / close prize winning mechanism 60, the open / close drive structure 630 of the open / close prize winning mechanism unit 600 is accommodated in the drive structure accommodating portion 160b and disposed behind the decorative surface, and the ball diameter of the game ball is positioned in front of the decorative surface. A processing area of a game ball configured to be thin to a degree somewhat larger than that is disposed. For this reason, although it is an opening / closing prize winning mechanism that opens and closes a large prize opening, it has a compact configuration in which the amount of protrusion of the decorative board to the front side is minimized. Further, as clearly shown in each drawing, the unit mounting portion 160 and the warp guide passage 120 described above are formed so as to overlap in the front-rear direction, and the frame width dimension of the left frame portion 112 is set to the opening / closing prize winning mechanism unit 600. It is configured to be able to secure a rolling area on the side of the central decoration while suppressing to approximately the same dimension as the unit width. Further, since the open / close winning mechanism unit 600 is configured to be detachable integrally, even if the components of the open / close drive structure 630 are worn out, they can be easily attached and detached.

さて、以上説明してきた中央飾り10の下側に、複合入賞装置20が設けられている。以下、図10〜図16の各図を参照しながら、複合入賞装置20の構成について説明する。複合入賞装置20は、化粧板2の前方から取り付けられる前方機構部と、化粧板2の後方から取り付けられる後方機構部とからなり、図10は貯留通路が充満される以前の様子を主として示す前方機構部の正面図、図11は貯留通路が充満されて以降の様子を主として示す前方機構部の正面図、図12は前方機構部の背面図、図13は前方機構部の平面図、図14は後方機構部の平面図、図15は化粧板2の背面側の球流れを主として示す後方機構部の正面図(図14中のXV−XV矢視の正面図)、図16は複合入賞装置20の制御形態を概要的に示すブロック図である。   Now, the composite winning device 20 is provided below the central ornament 10 described above. Hereinafter, the configuration of the composite winning device 20 will be described with reference to FIGS. 10 to 16. The composite winning device 20 includes a front mechanism portion attached from the front of the decorative board 2 and a rear mechanism portion attached from the rear of the decorative board 2, and FIG. 10 mainly shows a state before the storage passage is filled. FIG. 11 is a front view of the front mechanism part mainly showing the state after the storage passage is filled, FIG. 12 is a rear view of the front mechanism part, FIG. 13 is a plan view of the front mechanism part, and FIG. 15 is a plan view of the rear mechanism portion, FIG. 15 is a front view of the rear mechanism portion mainly showing the sphere flow on the back side of the decorative board 2 (front view as viewed in the direction of arrows XV-XV in FIG. 14), and FIG. It is a block diagram which shows the control form of 20 roughly.

複合入賞装置(役物(遊技部品))20は、その複合機能を機構的に大別すると、A:遊技球を貯留する貯留通路および装置外部に排出させる排出通路を有し入賞口に落入した遊技球の流下経路を切り替えて流下させる球貯留機構200、B:遊技球を受容可能な球受け部を正逆両方向に回動可能な第1回転体を備え貯留通路を介して導かれた遊技球を第1回転体の回動により第1導出口または第2導出口に移動させて排出させる振り分け機構300、C:第1導出口に排出された遊技球を入賞口よりも上方に搬送する揚送機構400、D:遊技球が転入可能な入賞領域を複数有し通過した入賞領域に応じた遊技を実行する回転入賞機構500、およびこれら各機構の作動を制御する遊技制御装置700などからなり、このうちA〜Cの各機構がハウジング51に組み込まれて一体の前方機構部を形成し、D:回転入賞機構がリアフレーム55に組付けられて後方機構部を形成し、前後の機構部が遊技制御装置700の各制御手段により制御されて複合入賞装置20が形成される。   The composite winning device (combined goods (game parts)) 20 can be broadly classified into its combined functions. A: A storage passage for storing game balls and a discharge passage for discharging the game ball to the outside of the device are dropped into the winning opening. The ball storage mechanism 200 for switching the flow path of the game ball to flow down, B: a ball receiving portion capable of receiving the game ball including a first rotating body capable of rotating in both forward and reverse directions, and guided through the storage passage A distribution mechanism 300 that moves the game balls to the first outlet or the second outlet by the rotation of the first rotating body and discharges them. C: transports the game balls discharged to the first outlet to a position higher than the winning opening. Lifting mechanism 400, D: a plurality of winning areas into which game balls can be transferred, a rotary winning mechanism 500 that executes a game according to the winning area that has passed, a game control device 700 that controls the operation of each of these mechanisms, and the like Each of these mechanisms A to C It is incorporated in the housing 51 to form an integrated front mechanism part, D: a rotary winning mechanism is assembled to the rear frame 55 to form a rear mechanism part, and the front and rear mechanism parts are controlled by each control means of the game control device 700. The composite winning device 20 is formed by being controlled.

A:貯留機構200は、遊技盤面を転動落下する遊技球が落入可能な入賞口を有する入賞具210、入賞口に落入した遊技球を順次貯留し得る貯留通路220、入賞口に落入した遊技球を排出させる排出通路230、入賞口に落入した遊技球の流下経路を貯留通路または排出通路に切り替えて流下させる流路切り替え構造240、貯留通路が貯留された遊技球で充満されたことを検出する充満検出手段250、および遊技制御装置700に内蔵された役物(遊技部品)制御手段710などからなり、役物制御手段710が、充満検出手段250において貯留通路の充満状態が検出されていないときに遊技球の流下経路を貯留通路側に設定して入賞口に落入した遊技球を貯留通路220に導き、充満検出手段250において貯留通路の充満状態が検出されているときには遊技球の流下経路を排出通路側に切り替えて入賞口に落入した遊技球を排出通路230に導くように構成される。   A: The storage mechanism 200 has a winning tool 210 having a winning opening into which a game ball rolling and falling on the game board surface can be dropped, a storage passage 220 that can sequentially store the gaming balls dropped into the winning opening, and a drop into the winning opening. A discharge passage 230 that discharges the game ball that has entered, a flow path switching structure 240 that switches the flow path of the game ball that has fallen into the winning opening to the storage passage or the discharge passage, and the game passage in which the storage passage is stored is filled. A fullness detecting means 250 for detecting the fact that the game control device 700 is equipped, and an accessory (game part) control means 710 incorporated in the game control device 700. When the game ball has not been detected, the flow path of the game ball is set to the storage passage side, and the game ball dropped into the winning opening is guided to the storage passage 220, and the full state of the storage passage is filled in the filling detection means 250. It is configured to guide the game balls that 落入 the winning openings switch the falling path of the game ball to the discharge passage side to the discharge passage 230 while being detected.

入賞具210は、いわゆる電動チューリップ型の可動入賞具であり、左右に揺動可能なチューリップ羽根211,211を有し、その後方にチューリップ羽根211,211を開閉させて入賞口112を拡大・縮小変化させる入球部拡大装置駆動ソレノイド213が装着されるとともに、入賞口112の内部に遊技球の通過を検出する役物入球検出器214が設けられている。入賞具210は、上段ステージ412における特別流下通路145gと位置整合して直下に配設され、チューリップ羽根の上方には斜めに落下してくる遊技球の入球を規制する一方、特別流下通路145gから鉛直に落下してくる遊技球をガイドするガイド筒が設けられている。入球部拡大装置駆動ソレノイド213は役物制御手段710における入球部拡大装置駆動制御手段711によりON・OFFされて開閉作動が制御され、役物入球検出器214の信号は役物入球判定手段712に入力されて入賞判定が行われる。   The prize-winning tool 210 is a so-called electric tulip-type movable prize-winning tool. The prize-winning tool 210 has tulip blades 211 and 211 that can swing left and right. A changing ball entry device driving solenoid 213 to be changed is mounted, and an accessory entry detector 214 for detecting the passage of a game ball is provided inside the winning opening 112. The prize-winning tool 210 is arranged directly below the special downflow passage 145g in the upper stage 412, and regulates the entry of game balls falling obliquely above the tulip blades, while the special downflow passage 145g. A guide cylinder is provided for guiding the game ball falling vertically from the top. The entrance part enlarging device drive solenoid 213 is turned on / off by the entrance part enlarging device drive control means 711 in the accessory control means 710 to control the opening / closing operation. It is input to the determination means 712 and a winning determination is performed.

入賞口112の下側では、入賞具210に落入した遊技球をハウジング51の内部に導くとともに正面右側の貯留通路方向に案内する導入通路215が形成されている。一方、導入通路215の後方には、貯留機構200のフレームとなるシャッターベース201が組付けられ、このシャッターベース201に貯留通路220、排出通路230が形成されている。   Below the winning opening 112, an introduction passage 215 that guides the game ball dropped into the winning device 210 into the housing 51 and guides it toward the storage passage on the right side of the front is formed. On the other hand, a shutter base 201 serving as a frame of the storage mechanism 200 is assembled behind the introduction passage 215, and a storage passage 220 and a discharge passage 230 are formed in the shutter base 201.

貯留通路220は、シャッターベース201の本体部から右斜め下方に突出して設けられている。貯留通路220の通路幅および高さは遊技球の球形よりも幾分大きめに設定され、通路長さはこの通路内に貯留すべき遊技球の数量(ゲーム構成に応じて設定された最大貯留球数)に合わせて形成される。貯留通路220の下流端部には後方に傾斜する通路面が形成されており、次述する振り分け機構300の導入口340に繋がっている。これにより貯留通路に流入した遊技球を振り分け機構300に向けて滑らかに流下させるとともに、所定数量の遊技球を流入した順に通路内に貯留し得るようになっている。   The storage passage 220 is provided so as to protrude obliquely downward to the right from the main body of the shutter base 201. The passage width and height of the storage passage 220 are set somewhat larger than the spherical shape of the game ball, and the passage length is the number of game balls to be stored in this passage (the maximum storage ball set according to the game configuration). Number). A passage surface inclined rearward is formed at the downstream end portion of the storage passage 220 and is connected to an introduction port 340 of the distribution mechanism 300 described below. As a result, the game balls that have flowed into the storage passage can smoothly flow down toward the sorting mechanism 300, and a predetermined number of game balls can be stored in the passage in the order of flow.

本実施形態では、基準位置にある第1回転体の球受け部322に受容された遊技球を含めて5個の遊技球を貯留可能に構成した例を示す。なお貯留通路220の前方の通路壁は、ハウジング51の前面を覆って取り付けられるカバー部材52によって形成される。カバー部材52は透視可能な樹脂材料(有色透明や半透明の樹脂材料等)を用いて成形されており、貯留通路220を流下する遊技球および通路内に貯留された遊技球がパチンコ機の前面側から視認できる構成になっている。   In the present embodiment, an example is shown in which five game balls including a game ball received by the ball receiver 322 of the first rotating body at the reference position can be stored. A passage wall in front of the storage passage 220 is formed by a cover member 52 attached to cover the front surface of the housing 51. The cover member 52 is formed using a transparent resin material (colored transparent or translucent resin material or the like), and the game balls flowing down the storage passage 220 and the game balls stored in the passage are in front of the pachinko machine. The structure is visible from the side.

排出通路230は、貯留通路220と隣接してシャッターベース201の本体部に形成されており、上下に延びる球通路の上端部において貯留通路220の上流部と合流している。排出通路230の下流側は後方に屈曲されたうえ化粧板2の裏面側で下向きに開口されており、アウト口8を通って化粧板の裏面側に導かれた遊技済み球とともに遊技済み球排出通路を介して遊技島の回収装置に排出されるようになっている。   The discharge passage 230 is formed in the main body portion of the shutter base 201 adjacent to the storage passage 220 and merges with the upstream portion of the storage passage 220 at the upper end portion of the spherical passage extending vertically. The downstream side of the discharge passage 230 is bent rearward and opened downward on the back side of the decorative board 2, and the game-completed ball is discharged together with the played balls guided to the back side of the decorative board through the out port 8. It is discharged to a collection device on the amusement island through a passage.

流路切り替え構造240は、シャッターベース201にスライド変位可能に支持されて排出通路230の上端開口部を開閉するシャッター242、シャッター242を開閉駆動するシャッター駆動ソレノイド243、シャッター駆動ソレノイドのプランジャに嵌着されたスライドアングル244、一端がシャッターベース201にピン係合され他端がシャッター242にピン結合されるとともにアーム中間部でスライドアングル244に係合されたスウィングアーム245、およびシャッター駆動ソレノイド243の作動を制御するシャッター駆動制御手段714などから構成される。   The flow path switching structure 240 is slidably supported by the shutter base 201 and is fitted to a shutter 242 that opens and closes the upper end opening of the discharge passage 230, a shutter drive solenoid 243 that opens and closes the shutter 242, and a plunger of the shutter drive solenoid. The sliding angle 244, one end of which is pin-engaged with the shutter base 201 and the other end of which is pin-coupled to the shutter 242, and the middle of the arm is engaged with the sliding angle 244, and the operation of the shutter drive solenoid 243 For example, a shutter drive control means 714 for controlling.

シャッターベース201には、シャッター242を左右方向にスライド変位可能に支持するガイドレール202、シャッター駆動ソレノイド243を支持するソレノイド装着部203、ソレノイド装着部を上下に貫通して形成されたスライドアングル挿通孔、およびソレノイド装着部203の下面側に突出成型された支ピン205などが形成されている。   The shutter base 201 has a guide rail 202 that supports the shutter 242 so as to be slidable in the left-right direction, a solenoid mounting portion 203 that supports the shutter drive solenoid 243, and a slide angle insertion hole formed through the solenoid mounting portion vertically. In addition, a support pin 205 and the like are formed on the lower surface side of the solenoid mounting portion 203.

シャッター242は、下向き凸の断面形状を有してシャッターベースのガイドレール部202にスライド変位可能に支持され、下面にはスウィングアーム245のピン受容孔と嵌合する連結ピン242pが形成されている。シャッター駆動ソレノイド243は、プランジャの外周部にリターンスプリングが装着されたスプリングリターンタイプの直動型ソレノイドであり、駆動信号がONされた時にプランジャが引き込まれて縮長し、駆動信号をOFFしたときにリターンスプリングのバネ力でプランジャが押し出されて元の伸長状態に復帰する。   The shutter 242 has a downward convex cross-sectional shape and is supported by the guide rail portion 202 of the shutter base so as to be slidable. A connecting pin 242p that fits into a pin receiving hole of the swing arm 245 is formed on the lower surface. . The shutter drive solenoid 243 is a spring return type direct acting solenoid in which a return spring is mounted on the outer peripheral portion of the plunger. When the drive signal is turned ON, the plunger is drawn and contracted, and the drive signal is turned OFF. The plunger is pushed out by the spring force of the return spring to return to the original extended state.

スライドアングル244は、上下に延びる立設辺と左右に延びる底辺とを有して背面視L字状のアングル形態をなし、立設辺に形成された受容スリットでシャッター駆動ソレノイド243のプランジャ先端部に嵌着され、底辺がスライドアングル挿通孔を通してシャッター駆動ソレノイド243の下側で左右方向に変位可能に配設される。スライドアングル244の底辺にはスウィングアーム245のアーム中間部を左右から挟み込むように係合して駆動力を伝達する駆動伝達突起244a,244bが形成されている。   The slide angle 244 has an upright side extending in the vertical direction and a bottom side extending in the left-right direction, and has an L-shaped angle when viewed from the back, and is a receiving slit formed on the vertical side and a plunger tip of the shutter drive solenoid 243. The bottom side is arranged to be displaceable in the left-right direction below the shutter drive solenoid 243 through the slide angle insertion hole. Drive transmission protrusions 244a and 244b are formed on the bottom side of the slide angle 244 so as to engage the middle part of the swing arm 245 from the left and right to transmit the driving force.

スウィングアーム245は、平板状のアーム部の両端に円筒状のボス部を有し、一端のボスにはシャッターベース201に形成された支ピン205に枢結される支ピン孔が形成され、他端のボス部にはシャッター242の下面に突出成型された連結ピン242pを受容して係合する連結ピン受容穴が形成されている。このうち連結ピン受容孔は、溝幅が連結ピン242pの外径よりもわずかに大きめで、溝の長さがアームの延びる方向に長い長孔状に形成されている。   The swing arm 245 has cylindrical boss portions at both ends of a flat arm portion, and a support pin hole pivotally connected to a support pin 205 formed on the shutter base 201 is formed at one end of the boss. A connecting pin receiving hole that receives and engages a connecting pin 242p that is projected and formed on the lower surface of the shutter 242 is formed in the end boss portion. Among these, the connecting pin receiving hole is formed in a long hole shape having a groove width slightly larger than the outer diameter of the connecting pin 242p and a groove length extending in the direction in which the arm extends.

このため支ピン孔を支ピン205に嵌挿してピン先端に固定カラーを圧入または接着等により固定することで、スウィングアーム245が支ピン205を中心として揺動可能に枢結され、連結ピン受容穴に連結ピン242pを係合させてガイドレール202にシャッター242を支持させることで、スウィングアーム245の揺動に応じてシャッター242が左右にスライド変位される。このときスウィングアームの中間部がスライドアングル下面の駆動伝達突起244a,244bの間を通り左右の突起と摺接するように取り付けることで、スライドアングル244の左右方向の変位がスウィングアーム245の揺動変位に変換され、スウィングアーム245を介してシャッター242が左右方向にスライド変位される。   For this reason, by inserting the support pin hole into the support pin 205 and fixing the fixed collar to the tip of the pin by press-fitting or bonding, the swing arm 245 is pivotably pivoted about the support pin 205 and receives the connection pin. By engaging the connecting pin 242p in the hole and supporting the shutter 242 on the guide rail 202, the shutter 242 is slid to the left and right according to the swing of the swing arm 245. At this time, by attaching the middle part of the swing arm so as to pass between the drive transmission protrusions 244a and 244b on the lower surface of the slide angle and slidably contact with the left and right protrusions, the lateral displacement of the slide angle 244 causes the swing displacement of the swing arm 245. The shutter 242 is slid in the left-right direction via the swing arm 245.

シャッター242は、駆動信号がOFFの状態において、図10に示すように排出通路230の上端部を覆う閉鎖位置に配設され、入賞口212から導入通路215を通って入球した遊技球は、閉鎖位置にあるシャッター242の上面を転動して貯留通路220に導かれる。一方シャッター駆動制御手段714から駆動信号が出力されシャッター駆動ソレノイド243がONされると、ケース内に引き込み作動されるプランジャとともにスライドアングル244が左動され、右側の駆動伝達突起244bに押圧されて揺動されるスウィングアーム245を介してシャッター242が左方にスライド変位されて、排出通路230の上端部が開口される。このため入賞口212から導入通路215を通って入球した遊技球は、開放された開口部から排出通路230に転落し、遊技済み球排出通路を介して遊技島の回収装置に排出される。   When the drive signal is OFF, the shutter 242 is disposed at a closed position that covers the upper end portion of the discharge passage 230 as shown in FIG. 10, and the game ball that has entered the winning passage 212 through the introduction passage 215 is: The upper surface of the shutter 242 in the closed position rolls and is guided to the storage passage 220. On the other hand, when a drive signal is output from the shutter drive control means 714 and the shutter drive solenoid 243 is turned on, the slide angle 244 is moved to the left together with the plunger that is pulled into the case, and is pressed by the right drive transmission protrusion 244b to swing. The shutter 242 is slid to the left via the moved swing arm 245, and the upper end of the discharge passage 230 is opened. For this reason, the game ball that has entered the winning passage 212 through the introduction passage 215 falls from the opened opening to the discharge passage 230 and is discharged to the game island collection device through the game-completed ball discharge passage.

ここで、本構成の流路切り替え機構では、駆動伝達突起をスウィングアーム245の中間部(支点となる支ピン孔と作用点となる連結ピン受容孔との中間部)に係合させてアームを揺動させる構成にしている。このため、排出通路230を開閉するのに必要なシャッター242のスライド変位量に対して、このシャッターを駆動するシャッター駆動ソレノイド243の伸縮ストロークを約1/2倍に抑制することができ、比較的小型のソレノイドを用いた小型低廉な装置構成で流路切り替え機構240を構成することができる。   Here, in the flow path switching mechanism of this configuration, the drive transmission protrusion is engaged with the intermediate portion of the swing arm 245 (intermediate portion between the support pin hole serving as the fulcrum and the connection pin receiving hole serving as the action point) to move the arm. It is configured to swing. For this reason, the expansion / contraction stroke of the shutter drive solenoid 243 for driving the shutter can be suppressed to about ½ times the slide displacement amount of the shutter 242 necessary for opening and closing the discharge passage 230. The flow path switching mechanism 240 can be configured with a small and inexpensive apparatus configuration using a small solenoid.

なおスウィングアーム245を左右から挟み込んで摺接する駆動伝達突起244a,244bに代えて、ピンと長孔との係合形態を用いて同様に構成することができるほか、シャッター242を水平面内あるいは鉛直面内で揺動させて排出通路230の上端開口部を開閉するように構成しても良く、また導入通路215に左右揺動可能な弁部材を配設してこの弁部材を揺動させて流下経路を切り替えるように構成しても良い。   In addition, instead of the drive transmission protrusions 244a and 244b that slidably come into contact with the swing arm 245 sandwiched from the left and right, it can be similarly configured by using an engagement form of a pin and a long hole, and the shutter 242 is in a horizontal plane or a vertical plane. The upper end opening of the discharge passage 230 may be opened and closed by swinging the valve, and a valve member capable of swinging left and right is provided in the introduction passage 215, and the valve member is swung to flow down the flow path. You may comprise so that it may switch.

充満検出手段250は、貯留通路220の上端部に設けられた貯留部満杯検出器251と、役物制御手段710に設けられた貯留部満杯判定手段713とを主体として構成される。貯留部満杯検出器251は、入賞検出器や役物入球検出器などと同様の通過型の検出器(貫通型近接スイッチ)であり、この検出器を貫通して形成された検出孔内を遊技球が通過したときにパルス状の遊技球検出信号を出力し、図11に示すように検出孔内に遊技球が停留しているときに連続した遊技球検出信号を出力する。貯留部満杯判定手段713は貯留部満杯検出器251から入力される信号に基づいて貯留通路220が満杯状態であるか否かを判断する。具体的には入力された検出信号が所定時間以上連続した遊技球検出信号であるときに貯留通路220が満杯であると判定する。役物制御手段710は、貯留部満杯判定手段713により貯留通路が満杯状態であると判定されたときに、シャッター駆動制御手段714からシャッター駆動ソレノイド243に駆動信号を出力し、シャッター242を開放状態に切り替えさせる。   The fullness detection unit 250 is mainly configured by a storage unit fullness detector 251 provided at the upper end portion of the storage passage 220 and a storage unit fullness determination unit 713 provided in the accessory control unit 710. The storage unit full detector 251 is a passage-type detector (penetration type proximity switch) similar to a prize detector or an accessory ball detector, and the inside of a detection hole formed through this detector. When the game ball passes, a pulse-like game ball detection signal is output, and when the game ball is stopped in the detection hole as shown in FIG. 11, a continuous game ball detection signal is output. The storage unit full determination means 713 determines whether or not the storage passage 220 is full based on a signal input from the storage unit full detector 251. Specifically, it is determined that the storage passage 220 is full when the input detection signal is a game ball detection signal that continues for a predetermined time or more. The accessory control means 710 outputs a drive signal from the shutter drive control means 714 to the shutter drive solenoid 243 and opens the shutter 242 when the storage section full determination means 713 determines that the storage passage is full. Switch to.

このため、貯留機構200では、貯留通路220が遊技球で充満される以前においては、入賞口212に落入した遊技球が導入通路215、シャッター242の上面を通って貯留通路220に導かれ、この貯留通路220に導入された順に整列状態で貯留される。一方貯留通路220が満杯状態になり貯留部満杯判定手段713により貯留通路が満杯状態であると判定されると、役物制御手段710はシャッター駆動制御手段714からシャッター駆動ソレノイド243に駆動信号を出力させてシャッター242を開放状態に切り替えさせる。このため、入賞口212に落入し導入通路215を通って導かれた遊技球が、開放された開口部から排出通路230に転落し、遊技済み球排出通路を介して遊技島の回収装置に排出される。このように構成される貯留機構200の下流側に、B:振り分け機構300が設けられている。   For this reason, in the storage mechanism 200, before the storage passage 220 is filled with game balls, the game balls dropped into the winning opening 212 are guided to the storage passage 220 through the upper surfaces of the introduction passage 215 and the shutter 242, They are stored in an aligned state in the order of introduction into the storage passage 220. On the other hand, when the storage passage 220 becomes full and the storage portion full determination means 713 determines that the storage passage is full, the accessory control means 710 outputs a drive signal from the shutter drive control means 714 to the shutter drive solenoid 243. Thus, the shutter 242 is switched to the open state. For this reason, the game ball that has fallen into the winning opening 212 and led through the introduction passage 215 falls from the opened opening to the discharge passage 230 and passes through the game ball discharge passage to the game island collection device. Discharged. The B: distribution mechanism 300 is provided on the downstream side of the storage mechanism 200 configured as described above.

B:振り分け機構300は、貯留通路220の下流側に設けられた回転盤収容部310、外周側に遊技球を受容可能な球受け部322を有して回転盤収容部310に回動可能に設けられた第1回転体320、第1回転体320を時計廻りおよび反時計廻りに回動させる第1回転体駆動モータ330、貯留通路220の下流端部に位置整合して設けられ入賞口212から導かれた遊技球を基準位置にある第1回転体の球受け部に導く導入口340、導入口を挟んで回転盤収容部に設けられ第1回転体の回動により移動された遊技球を導出する第1導出口350ならびに第2導出口360、および第1回転体駆動モータの作動を制御する役物制御手段710などからなり、役物制御手段710が入賞条件(例えば後述する図柄制御手段720により決定された停止図柄の組み合わせ)に基づいて第1回転体320を時計廻りまたは反時計廻りに回動させ、基準位置で球受け部322に受容された遊技球を第1導出口350または第2導出口360に排出させるように構成される。   B: The distribution mechanism 300 has a turntable accommodating portion 310 provided on the downstream side of the storage passage 220 and a ball receiving portion 322 capable of receiving a game ball on the outer peripheral side, and is rotatable to the turntable accommodating portion 310. The first rotary body 320 provided, the first rotary body drive motor 330 that rotates the first rotary body 320 clockwise and counterclockwise, and the downstream end of the storage passage 220 are provided in alignment with the prize-winning port 212. An introduction port 340 for guiding the game ball guided from the ball to the ball receiving portion of the first rotating body at the reference position, and a game ball provided by the rotation of the first rotating body provided in the rotating disk housing portion across the introduction port The first outlet 350 and the second outlet 360 for deriving the game, and the accessory control means 710 for controlling the operation of the first rotating body drive motor, etc., and the accessory control means 710 receives the winning condition (for example, symbol control described later) By means 720 The first rotating body 320 is rotated clockwise or counterclockwise on the basis of the determined combination of stop symbols), and the game ball received by the ball receiving portion 322 at the reference position is the first outlet 350 or the second The outlet 360 is configured to be discharged.

回転盤収容部310は、振り分け機構300のベースとなりハウジング51に固定された回転盤ベース311と、第1回転体320の前面および周縁を囲んで回転盤ベース311にねじ止めされた回転体ケース312により形成される。回転盤ベース311の仕切壁には、前後貫通して第1回転体320のボスを挿通させるボス挿通孔が形成され、その後方のモータ取付部に第1回転体駆動モータ330がネジ固定されている。なお第1回転体駆動モータ330の固定はネジ以外の固定手段、例えばモータフランジ部を回転盤ベース311に嵌着するなど他の固定手段を用いても良い。またボス挿通孔の右側方に仕切壁を貫通して第2導出口360が形成され、その後方に第2導出口360から導出された遊技球を遊技済み球排出通路に向けて排出する第2条件流路361が形成されるとともに、この第2条件流路を通て排出された遊技球を検出する第2条件流路通過検出器362が装着されている。第2条件流路通過検出器362は既述した貯留部満杯検出器251と同様の通過型の検出器であり、その信号が役物制御手段710における遊技球排出監視手段717に入力されて貯留球の処理状況が監視されている。   The turntable housing portion 310 is a turntable base 311 that is a base of the distribution mechanism 300 and is fixed to the housing 51, and a rotating body case 312 that is screwed to the turntable base 311 so as to surround the front and periphery of the first rotating body 320. It is formed by. A boss insertion hole is formed in the partition wall of the turntable base 311 so as to penetrate the boss of the first rotating body 320 through the front and rear, and the first rotating body drive motor 330 is screwed to the motor mounting portion at the rear thereof. Yes. The first rotating body drive motor 330 may be fixed by a fixing means other than a screw, for example, other fixing means such as fitting a motor flange portion to the rotating disk base 311. A second outlet 360 is formed through the partition wall on the right side of the boss insertion hole, and a second outlet for discharging the game ball led out from the second outlet 360 toward the game-completed ball discharge passage. A condition channel 361 is formed, and a second condition channel passage detector 362 for detecting a game ball discharged through the second condition channel is mounted. The second condition passage passage detector 362 is a passage type detector similar to the reservoir full detector 251 described above, and its signal is input to the game ball discharge monitoring means 717 in the accessory control means 710 and stored. The processing status of the sphere is monitored.

回転体ケース312は、第1回転体320の外径よりも幾分大きめの内径および厚さの収容凹部を有してキャップ状に形成され、その前面には第1回転体320の回転軸の鉛直下方に位置して導入口340、回転軸の左斜め上方(導入口340から時計廻りに約150度の角度位置)に第1導出口350が形成されている。第1導出口350の前方には第1導出口350から導出された遊技球を揚送機構400に導く第1条件流路351が設けられている。   The rotating body case 312 has a housing recess having an inner diameter and a thickness slightly larger than the outer diameter of the first rotating body 320, and is formed in a cap shape. The first outlet 350 is formed vertically below the inlet 340 and obliquely above and to the left of the rotation axis (at an angular position of about 150 degrees clockwise from the inlet 340). A first condition channel 351 that guides the game ball led out from the first lead-out port 350 to the lifting mechanism 400 is provided in front of the first lead-out port 350.

第1回転体320は、遊技球の球形よりも大きめの厚さを有して正面視円形の回転円盤形態をなし、その中心部には後方に突出して第1回転体駆動モータ330のスピンドルに連結されるボスが形成され、外周部には外径方向に開くU字溝状の球受け部322が第1回転体320の回転軸を中心として全周を2等分した180度の角度ピッチで2箇所形成されている。   The first rotator 320 has a thickness larger than the sphere of the game ball and has a circular disc shape when viewed from the front. The first rotator 320 protrudes rearward from the central portion of the first rotator 320 and serves as a spindle of the first rotator drive motor 330. A boss to be connected is formed, and a U-shaped groove-shaped ball receiving portion 322 that opens in the outer diameter direction on the outer peripheral portion is an angular pitch of 180 degrees that bisects the entire circumference around the rotation axis of the first rotating body 320 In two places.

各球受け部322,322は、正面視における全体的な投影形状が遊技球の球形よりも幾分大きめの幅および深さを有するU字溝状に形成される一方、U字溝を形成する左右の溝壁面はU字状底面の中央を境にして前後逆方向に開く傾斜面で形成される。すなわち、U字溝が上方に開く角度姿勢において左壁面が前方に開く傾斜面、右壁面が後方に開く傾斜面で構成されている。このため球受け部322に受容された遊技球は、球受け部322が中心よりも右半分の領域にあるときには右壁面の傾斜に従って後方に誘導され、球受け部322が中心よりも左半分の領域にあるときには左壁面の傾斜に従って前方に誘導されるようになっている。   Each of the ball receiving portions 322 and 322 is formed into a U-shaped groove whose overall projection shape in front view has a slightly larger width and depth than the spherical shape of the game ball, while forming a U-shaped groove. The left and right groove wall surfaces are formed with inclined surfaces that open in the reverse direction from the center of the U-shaped bottom surface. In other words, the left wall surface is an inclined surface that opens forward and the right wall surface is an inclined surface that opens backward in an angular posture in which the U-shaped groove opens upward. For this reason, the game ball received by the ball receiving portion 322 is guided backwards according to the inclination of the right wall surface when the ball receiving portion 322 is in the right half region from the center, and the ball receiving portion 322 is in the left half from the center. When in the area, it is guided forward according to the inclination of the left wall surface.

第1回転体駆動モータ330は、所定減速比の減速機構を内蔵したギヤモータであり、第1回転体駆動制御手段715からの駆動信号に応じてスピンドルを時計廻りまたは反時計廻りに所定角度回動させる。スピンドルの先端部は外周面の一部が平坦に面取りされて断面視D字状に形成されており、このスピンドル先端部に同一の穴形状を有する第1回転体320のボスを嵌入して連結することで、モータ側の基準角度位置と第1回転体側の球受け部の角度位置とを合致させるとともに、第1回転体駆動モータ330回転トルクを第1回転体320に確実に伝達可能になっている。   The first rotating body drive motor 330 is a gear motor with a built-in reduction mechanism with a predetermined reduction ratio, and the spindle rotates clockwise or counterclockwise by a predetermined angle according to a drive signal from the first rotating body drive control means 715. Let The tip of the spindle has a part of the outer peripheral surface which is chamfered flat and formed in a D-shape in cross section. The boss of the first rotating body 320 having the same hole shape is fitted into the tip of the spindle and connected. By doing so, the reference angular position on the motor side and the angular position of the ball receiving part on the first rotating body are matched, and the rotational torque of the first rotating body drive motor 330 can be reliably transmitted to the first rotating body 320. ing.

第1回転体駆動モータ330が組付けられた回転盤ベース311の背面側には、第1回転体320が基準位置(球受け部322,322が回転軸の鉛直上下に位置して導入口340と整合する回転角度位置)にあるか否かを検出する第1回転体モータセンサ(基準位置検出器)335が設けられ、その信号が役物制御手段710に入力されている。第1回転体モータセンサ335の検出信号は電源投入時における第1回転体320の角度位置の初期設定や、第1回転体による振り分け作動後に第1回転体320を基準位置に復帰させるときの基準とされ、この制御により第1回転体320は、球受け部322が導入口340と位置整合した基準位置に確実に停止されるようになっている。   On the back side of the turntable base 311 to which the first rotating body drive motor 330 is assembled, the first rotating body 320 is at the reference position (the ball receiving portions 322 and 322 are positioned vertically above and below the rotation axis, and the inlet 340 The first rotating body motor sensor (reference position detector) 335 is provided for detecting whether or not the rotation angle position matches the rotation angle position), and the signal is input to the accessory control means 710. The detection signal of the first rotating body motor sensor 335 is an initial setting of the angular position of the first rotating body 320 when the power is turned on or a reference for returning the first rotating body 320 to the reference position after the sorting operation by the first rotating body. By this control, the first rotating body 320 is surely stopped at the reference position where the ball receiving portion 322 is aligned with the introduction port 340.

振り分け機構300は、第1回転体駆動モータ330を回転盤ベース311のモータ取付部にネジ固定して、仕切壁の前方から第1回転体320のボスをスピンドルの前端部に嵌入し、その前方に回転体ケース312を装着して回転盤ベース311にネジ固定することで部分組立され、この部分組立体を後方からハウジング51に組付けることで、前述した流路切り替え機構200の貯留通路220、次述する揚送機構400に繋がる第1条件流路351と位置整合して配設される。   The distribution mechanism 300 screws the first rotating body drive motor 330 to the motor mounting portion of the rotating base 311 and inserts the boss of the first rotating body 320 into the front end of the spindle from the front of the partition wall. The rotating body case 312 is attached to the rotating disk base 311 and fixed to the rotating disk base 311, and the partial assembly is assembled to the housing 51 from the rear, whereby the storage passage 220 of the flow path switching mechanism 200 described above, The first condition flow path 351 connected to the lifting mechanism 400 described below is disposed in alignment.

役物制御手段710は、この制御手段内部の条件達成判定手段718によって判定された入賞条件に基づいて第1回転体駆動制御手段715から第1回転駆動モータ330に駆動信号を出力させ、第1回転体320を時計廻りまたは反時計廻りに回動させて、導入口340から球受け部322に導かれた遊技球を第1導出口350または第2導出口360に排出させるように制御する。なお条件達成判定手段718は、第1条件達成判定手段718aと第2条件達成判定手段718bとを有し、後述する図柄制御手段720によって抽選され決定された停止図柄の組み合わせが、第1条件(例えば、図1の図柄表示装置12の上段に付記したような(777)、いわゆるぞろ目の当たり条件)を達成しているか、あるいは第2条件(同様に、図柄表示装置12の下段に付記したような(378)、はずれの条件)を達成しているかを判定する判定手段である。   The accessory control means 710 outputs a drive signal from the first rotary body drive control means 715 to the first rotation drive motor 330 based on the winning condition determined by the condition achievement determination means 718 inside the control means, and the first The rotating body 320 is rotated clockwise or counterclockwise so that the game ball guided from the introduction port 340 to the ball receiving portion 322 is discharged to the first outlet port 350 or the second outlet port 360. The condition achievement determination means 718 includes a first condition achievement determination means 718a and a second condition achievement determination means 718b, and a combination of stop symbols determined by lottery and determination by the symbol control means 720 described later is the first condition ( For example, as shown in the upper part of the symbol display device 12 of FIG. 1 (777), the so-called hitting condition of the eyelet is achieved, or the second condition (similarly, the lower part of the symbol display device 12 is appended) (378) is a determination means for determining whether or not the condition of deviation is achieved.

そして例えば、条件達成判定手段718によって判定された入賞条件が第1条件(当たり)である場合には、第1回転体駆動制御手段715が第1回転駆動モータ330を時計廻りに約150度回動させる駆動信号を出力して第1回転体320を回動させ、遊技球を受容した球受け部322を第1導出口350に整合させた角度位置に一時停止させる。また条件達成判定手段718によって判定された入賞条件が第2条件(はずれ)である場合には、第1回転駆動モータ330を反時計廻りに約90度回動させる駆動信号を出力して第1回転体320を回動させ、遊技球が受容された球受け部322を第2導出口360に整合させた角度位置に一時停止させる。   For example, when the winning condition determined by the condition achievement determining means 718 is the first condition (winning), the first rotating body drive control means 715 rotates the first rotating drive motor 330 about 150 degrees clockwise. A driving signal to be moved is output to rotate the first rotating body 320, and the ball receiving portion 322 that has received the game ball is temporarily stopped at an angular position aligned with the first outlet 350. If the winning condition determined by the condition achievement determining means 718 is the second condition (displacement), a driving signal for rotating the first rotation driving motor 330 by about 90 degrees counterclockwise is output to the first condition. The rotating body 320 is rotated to temporarily stop the ball receiving portion 322 in which the game ball is received at an angular position aligned with the second outlet 360.

前述したように、球受け部322は、U字溝を形成する左右の溝壁面が底面中央を境に前後逆方向に開く傾斜面で形成されており、U字溝が上方に開く角度姿勢において左壁面が前方に開く傾斜面、右壁面が後方に開く傾斜面で構成されている。このため球受け部322に受容されて第1導出口350と整合する角度位置に配設された遊技球は、左壁面の傾斜に従って前方に誘導され、第1導出口350から第1条件流路351に排出されて揚送機構400に導かれる。一方球受け部322に受容されて第2導出口360と整合する角度位置に配設された遊技球は、右壁面の傾斜に従って後方に誘導され、第2導出口360から第2条件流路361に排出され、第2条件流路通過検出器362により通過が検出されたうえ遊技済み排出通路を介して遊技島の回収装置に排出される。   As described above, the ball receiving portion 322 is formed with an inclined surface in which the left and right groove wall surfaces forming the U-shaped groove open in the reverse direction from the center of the bottom surface, and the U-shaped groove opens in an angular posture in which the U-shaped groove opens upward. The left wall surface is an inclined surface that opens forward, and the right wall surface is an inclined surface that opens backward. For this reason, the game ball received at the ball receiving portion 322 and disposed at an angular position aligned with the first outlet port 350 is guided forward according to the inclination of the left wall surface, and the first condition channel from the first outlet port 350 is guided. It is discharged to 351 and guided to the lifting mechanism 400. On the other hand, the game ball received at the ball receiving portion 322 and disposed at an angular position aligned with the second outlet 360 is guided rearwardly according to the inclination of the right wall surface, and the second condition channel 361 from the second outlet 360. Then, the passage is detected by the second condition passage passage detector 362 and discharged to the game island collection device through the game-completed discharge passage.

役物制御手段710は、上記第1導出口350または第2導出口360への振り分け作動によって導出された遊技球の排出処理が確認されたのち、具体的には第2条件流路通過検出器362により遊技球が検出されこの検出器からの信号を監視する遊技球排出監視手段717により遊技球の排出が確認されたとき、あるいは後述する回転入賞機構500において遊技球が検出され遊技球排出監視手段717により遊技球の排出が確認されたときに、第1回転体駆動制御手段715から第1回転駆動モータ330に駆動信号を出力させ、第1回転体320を再び時計廻りまたは反時計廻りに回動させて、第1回転体320を基準位置に復帰させる。   The accessory control means 710, after confirming the discharge processing of the game ball derived by the sorting operation to the first outlet 350 or the second outlet 360, specifically, the second condition passage passage detector When the game ball is detected by 362 and the discharge of the game ball is confirmed by the game ball discharge monitoring means 717 that monitors the signal from this detector, or the game ball is detected by the rotary prize winning mechanism 500 described later and the game ball discharge is monitored. When the discharge of the game ball is confirmed by the means 717, a driving signal is output from the first rotating body drive control means 715 to the first rotating drive motor 330, and the first rotating body 320 is rotated clockwise or counterclockwise again. The first rotating body 320 is returned to the reference position by rotating.

例えば、球受け部322が第1導出口350と整合した角度位置で第1回転体320を一時停止させた状態のときは、第1回転駆動モータ330を再び時計廻りに約30度回動させる駆動信号を出力して第1回転体320を基準位置近傍まで回動させ、第1回転体モータセンサ335から入力される検出信号により第1回転体320が基準位置に到達したと判定されたときに第1回転駆動モータ330の回動を停止させる。同様に、球受け部322が第2導出口360と整合した角度位置で第1回転体320を一時停止させた状態のときは、第1回転駆動モータ330を再び反時計廻りに約90度回動させる駆動信号を出力して第1回転体320を基準位置近傍まで回動させ、第1回転体モータセンサ335から入力される検出信号により第1回転体320が基準位置に到達したと判定されたときに第1回転駆動モータ330の回動を停止させる。   For example, when the ball receiving portion 322 is in a state where the first rotating body 320 is temporarily stopped at an angular position aligned with the first outlet port 350, the first rotation driving motor 330 is again rotated about 30 degrees clockwise. When the drive signal is output to rotate the first rotating body 320 to the vicinity of the reference position, and it is determined by the detection signal input from the first rotating body motor sensor 335 that the first rotating body 320 has reached the reference position. The rotation of the first rotation drive motor 330 is stopped. Similarly, when the first rotary body 320 is temporarily stopped at the angular position where the ball receiving portion 322 is aligned with the second outlet 360, the first rotary drive motor 330 is rotated about 90 degrees counterclockwise again. A drive signal to be moved is output to rotate the first rotating body 320 to the vicinity of the reference position, and it is determined that the first rotating body 320 has reached the reference position by a detection signal input from the first rotating body motor sensor 335. The rotation of the first rotation drive motor 330 is stopped.

このため、条件達成判定手段718によって判定された入賞条件が第1条件である場合には、基準位置で球受け部322に受容された遊技球が第1導出口350から第1条件流路351に排出されて次段の揚送機構400に導かれ、入賞条件が第2条件である場合には、基準位置で球受け部322に受容された遊技球が第2導出口360から第2条件流路361および遊技済み球排出通路を介して遊技島の回収装置に排出され、その後第1回転体320が基準位置まで回動して新たな遊技球を球受け部322に受容可能な状態で待機される。なお条件達成判定手段718による入賞条件の判定を含む複合入賞装置の総合的な作動制御については、回転入賞機構500の構成についての説明の後に詳述する。   For this reason, when the winning condition determined by the condition achievement determining means 718 is the first condition, the game ball received by the ball receiving portion 322 at the reference position is transferred from the first outlet 350 to the first condition channel 351. When the winning condition is the second condition, the game ball received by the ball receiving portion 322 at the reference position is transferred from the second outlet 360 to the second condition. It is discharged to the game island collection device via the flow path 361 and the game-completed ball discharge passage, and then the first rotating body 320 is rotated to the reference position so that a new game ball can be received in the ball receiving portion 322. Wait. The overall operation control of the composite winning device including determination of winning conditions by the condition achievement determining means 718 will be described in detail after the description of the configuration of the rotary winning mechanism 500.

C:揚送機構400は、振り分け機構300の第1導出口350に排出され第1条件流路351を通って導かれた遊技球を入賞口212よりも上方に搬送するように構成される。   C: The lifting mechanism 400 is configured to convey the gaming ball discharged to the first outlet 350 of the distribution mechanism 300 and guided through the first condition channel 351 above the winning port 212.

揚送機構400は、回転軸の外周に螺旋状の球送りプレートを有する揚送スクリュー410、揚送スクリュー410を回転駆動する揚送装置駆動モータ420、揚送装置駆動モータ420の回転駆動力を揚送スクリュー410に伝達する駆動力伝達構造430、および揚送装置駆動モータの作動を制御する役物制御手段710などからなり、役物制御手段710が所定入賞条件のもとに揚送装置駆動モータ430を回転作動させて遊技球を入賞口212よりも上方に搬送する   The lifting mechanism 400 includes a lifting screw 410 having a spiral ball feeding plate on the outer periphery of the rotating shaft, a lifting device driving motor 420 that rotationally drives the lifting screw 410, and a rotational driving force of the lifting device driving motor 420. The driving force transmission structure 430 for transmitting to the lifting screw 410 and the accessory control means 710 for controlling the operation of the lifting apparatus drive motor. The accessory control means 710 drives the lifting apparatus under predetermined winning conditions. The motor 430 is rotated to convey the game ball above the winning prize opening 212.

揚送スクリュー410は、上下に延びる回転軸411と、この回転軸411から外周方向に突出し上下方向に螺旋状に延びる球送りプレート412とからなり、例えば所定線径の金属シャフトの外周に、薄板金属性の球送りプレートを遊技球の球形よりも幾分大きめのピッチて螺旋状に巻き付け、これを溶着等の固定手段により固定して一体に形成される。揚送スクリュー410の下部には、駆動力伝達構造430の従動ギヤが設けられており、例えば金属シャフトの下端部に樹脂製の従動ギヤを圧入固定することで一体的に結合される。   The lifting screw 410 is composed of a rotating shaft 411 extending vertically and a ball feeding plate 412 protruding from the rotating shaft 411 in the outer peripheral direction and extending spirally in the vertical direction. For example, a thin plate is formed on the outer periphery of a metal shaft having a predetermined wire diameter. A metallic ball feeding plate is wound spirally at a pitch slightly larger than the spherical shape of the game ball, and is fixed integrally by a fixing means such as welding. A driven gear of the driving force transmission structure 430 is provided at the lower portion of the lifting screw 410, and is integrally coupled by, for example, press fitting and fixing a resin driven gear to the lower end portion of the metal shaft.

揚送スクリュー410が収容されるガイドカバー401は、平面視において後方に開く矩形樋状をなし、前後方向の樋の深さが遊技球の直径よりも幾分大きめに形成されている。樋内側の下部には、上下を仕切る仕切壁が形成されており、遊技球が揚送される揚送部と従動ギヤが収容されるギヤ収容部とが区画形成される。仕切壁には、回転軸411を上下に挿通させる後端開放の長孔状の支持溝が形成され、ガイドカバー401の上部には回転軸411の上端部を枢支する軸受穴が形成されている。   The guide cover 401 in which the lifting screw 410 is accommodated has a rectangular hook shape that opens rearward in a plan view, and the depth of the hook in the front-rear direction is somewhat larger than the diameter of the game ball. A partition wall that divides the upper and lower sides is formed in the lower part of the inner side of the basket, and a lifting portion for lifting the game ball and a gear receiving portion for storing the driven gear are partitioned. The partition wall is formed with a long-hole-like support groove with an open rear end through which the rotary shaft 411 is inserted vertically, and a bearing hole that pivotally supports the upper end portion of the rotary shaft 411 is formed on the guide cover 401. Yes.

従動ギヤが結合された揚送スクリュー410は、ガイドカバー上部に形成された軸受孔に回転軸を挿入して軸上端部を枢支させるとともに、仕切壁に形成された支持溝に回転軸411を係合させて軸外周部を支持させることで、ガイドカバー401の内側に回転自在に取り付けられる。そして、これをハウジング51の前方から装着して固定することでハウジング51の前面側に取り付けられ、仕切壁直上の揚送部が第1条件流路251の下流側開口部と位置整合して配設される。   The lifting screw 410 coupled with the driven gear inserts a rotating shaft into a bearing hole formed in the upper portion of the guide cover to pivotally support the upper end portion of the shaft, and the rotating shaft 411 is inserted into a support groove formed in the partition wall. By engaging and supporting the outer periphery of the shaft, it is rotatably attached to the inside of the guide cover 401. Then, it is attached to the front side of the housing 51 by mounting and fixing it from the front of the housing 51, and the feeding part directly above the partition wall is aligned with the downstream side opening of the first condition channel 251. Established.

一方、揚送スクリュー410を回転駆動する揚送駆動モータ420は、所定減速比の減速機構を内蔵したギヤモータであり、スピンドルの先端部に駆動力伝達構造の駆動ギヤが圧入固定されている。また駆動伝達機構430は揚送駆動モータ420に固定された駆動ギヤと、揚送スクリュー410に固定された従動ギヤと、駆動ギヤおよび従動ギヤと相互に噛合して駆動ギヤの駆動力を従動ギヤに伝達する伝達ギヤとからなり、伝達ギヤが枢支されたモータベース402に揺動駆動モータ420をねじ止めすることで駆動ギヤと伝達ギヤとが噛合して回転駆動力を伝達可能な状態に配設される。そしてこのモータベース402をハウジング51の後方から装着することで、伝達ギヤと従動ギヤとが噛合して配設され、詳細図示省略する固定手段によりモータベースを固定することでハウジング51に取り付けられる。   On the other hand, a lifting drive motor 420 that rotationally drives the lifting screw 410 is a gear motor with a built-in reduction mechanism with a predetermined reduction ratio, and a driving gear having a driving force transmission structure is press-fitted and fixed to the tip of the spindle. In addition, the drive transmission mechanism 430 meshes with the drive gear fixed to the lift drive motor 420, the driven gear fixed to the lift screw 410, and the drive gear and the driven gear so that the drive force of the drive gear is driven gear. The swinging drive motor 420 is screwed to the motor base 402 on which the transmission gear is pivotally supported so that the drive gear and the transmission gear mesh with each other so that the rotational driving force can be transmitted. Arranged. The motor base 402 is mounted from the rear of the housing 51 so that the transmission gear and the driven gear are engaged with each other. The motor base is fixed to the housing 51 by fixing means not shown in detail.

これにより揚送駆動モータ420の回転駆動力が駆動ギヤ,伝達ギヤ,従動ギヤからなる駆動力伝達構造430を介して揚送スクリュー410に伝達され、揚送駆動モータ420を回転作動させることで、駆動力伝達機構430の減速比に応じた回転速度で揚送スクリュー410を同一方向に回転させることができる。駆動力伝達機構430の減速比は揚送駆動モータ420の定格回転速度と揚送スクリュー410により揚送しようとする遊技球の搬送速度とを基本に設定することができ、例えば、駆動ギヤと従動ギヤの歯数を同一にすることで、揚送駆動モータ420のスピンドル1回転に対して揚送スクリュー410が1回転する減速比に設定することができる。なお駆動力伝達機構として、ベルトとプーリ、チエーンとスプロケット等を利用することも可能である。   As a result, the rotational driving force of the lifting drive motor 420 is transmitted to the lifting screw 410 via the driving force transmission structure 430 including the driving gear, the transmission gear, and the driven gear, and the lifting drive motor 420 is rotated. The lifting screw 410 can be rotated in the same direction at a rotational speed corresponding to the reduction ratio of the driving force transmission mechanism 430. The reduction ratio of the driving force transmission mechanism 430 can be set based on the rated rotational speed of the lift drive motor 420 and the transport speed of the game ball to be lifted by the lift screw 410. For example, the drive gear and the driven gear By making the number of gear teeth the same, it is possible to set the reduction ratio so that the lifting screw 410 rotates once for one rotation of the spindle of the lifting drive motor 420. It is also possible to use a belt and pulley, a chain and sprocket, etc. as the driving force transmission mechanism.

揚送駆動モータ420の作動は役物制御手段710における揚送装置駆動制御手段716によって制御され、揚送装置駆動制御手段716は所定入賞条件のもと揚送駆動モータ420に駆動信号を出力してスピンドルを平面視における反時計廻りに回転させ、揚送スクリュー410を同一方向に回転させる。これにより、第1条件流路351から揚送部に導入された遊技球が、回転する球送りプレート412の螺旋傾斜面に持ち上げられ入賞口212よりも上方に搬送される。なお、揚送駆動モータ420を常時回転させる形態としても良い。   The operation of the lifting drive motor 420 is controlled by the lifting device drive control means 716 in the accessory control means 710, and the lifting device drive control means 716 outputs a drive signal to the lifting drive motor 420 under predetermined winning conditions. Thus, the spindle is rotated counterclockwise in plan view, and the lifting screw 410 is rotated in the same direction. As a result, the game ball introduced from the first condition channel 351 to the lifting unit is lifted to the spiral inclined surface of the rotating ball feeding plate 412 and conveyed above the winning port 212. The lifting drive motor 420 may be always rotated.

ここで、ガイドカバー401の前後方向の樋深さは、遊技球の直径よりも幾分大きい程度に設定されている。このため、第1条件流路351から揚送部に導入された遊技球がガイドカバーの前方内面に当接支持されて球送りプレート412の螺旋傾斜面を転動流下するようなことがなく、揚送スクリュー410の回転とともに鉛直上方に揚送される。ガイドカバー401は、透明な樹脂材料や半透明の樹脂材料を用いて成型されており、揚送スクリュー410により揚送される遊技球をパチンコ機の前面側から視認可能になっている。   Here, the depth of the guide cover 401 in the front-rear direction is set to be somewhat larger than the diameter of the game ball. For this reason, the game ball introduced from the first condition channel 351 to the lifting portion is not supported by the front inner surface of the guide cover and does not roll down the spiral inclined surface of the ball feeding plate 412. With the rotation of the lifting screw 410, it is lifted vertically upward. The guide cover 401 is molded using a transparent resin material or a translucent resin material, and a game ball lifted by the lifting screw 410 is visible from the front side of the pachinko machine.

揚送部の上端近傍では、揚送部の後方に位置する化粧板2が切り欠かれて後方に開く上端開口450が形成され、その後方に上端開口から排出された遊技球を回転入賞機構500に導く案内流路505が設けられる。揚送部の上端近傍では、揚送部の上壁面を構成するガイドカバーの下向き面が、後方に向けて斜めに開いて形成されており、揚送部の上端まで揚送された遊技球が、この傾斜面に当接して後方に押し出され、後方に下傾して形成された上端開口450から案内流路505に排出されるようになっている。   In the vicinity of the upper end of the lifting unit, the decorative board 2 positioned behind the lifting unit is cut out to form an upper end opening 450 that opens rearward, and the game ball discharged from the upper end opening is rotated behind the rotary winning mechanism 500. A guide channel 505 is provided that leads to In the vicinity of the upper end of the lifting part, the downward surface of the guide cover that constitutes the upper wall surface of the lifting part is formed to be inclined obliquely toward the rear, and the game ball lifted to the upper end of the lifting part is Then, it comes into contact with this inclined surface and is pushed backward, and is discharged to the guide channel 505 from an upper end opening 450 formed to be inclined downward.

従って、揚送機構400を設けることで入賞口212に落入した遊技球を入賞口212よりも上方に設けた回転入賞機構500に導くことができ、遊技盤1の限られた盤面サイズを有効に活用したレイアウト設定が可能になっている。なお、揚送スクリュー410は、回転軸の外周面に遊技球の球径に合わせた半円形の溝を螺旋状に一体的に形成して構成してもよい。また揚送スクリュー410に代えて、高分子材料製ないし金属製の無端ベルトの外周面に遊技球を持ち上げ支持可能なタブ状の支持片を所定間隔で複数形成した揚送ベルトを用いて、揚送部の上下に設けられたプーリ間に掛け渡して回転させ、あるいは同様の支持片を有するチェーンを上下のスプロケット間に掛け渡して回転させ、または遊技球を吸着して移送するマグネットを利用して遊技球を上方に搬送するような機構構成としても良い。   Accordingly, by providing the lifting mechanism 400, the game ball dropped into the winning opening 212 can be guided to the rotary winning mechanism 500 provided above the winning opening 212, and the limited board size of the game board 1 is effective. The layout setting utilized in In addition, the lifting screw 410 may be configured by integrally forming a semicircular groove in a spiral shape on the outer peripheral surface of the rotating shaft in accordance with the ball diameter of the game ball. Instead of the lifting screw 410, a lifting belt is used in which a plurality of tab-like support pieces capable of lifting and supporting a game ball are formed on the outer peripheral surface of a polymer material or metal endless belt at a predetermined interval. Use a magnet that rotates between pulleys installed on the top and bottom of the feeding unit, or rotates a chain with a similar support piece between the upper and lower sprockets, or attracts and transports game balls. The mechanism configuration may be such that the game ball is conveyed upward.

D:回転入賞機構500は、揚送機構400により上方に搬送され上端開口450から排出された遊技球を導入する案内流路505、入賞具210の後方に位置して設けられ皿面上を遊技球が転動可能なテーパーコーン状の転動皿510、この転動皿510の中心部に回転可能に設けられた第2回転体520、第2回転体520を回転駆動する第2回転体駆動モータ530、および回転入賞機構500における入賞状態に応じて遊技機の作動を制御する遊技制御装置700などから構成される。   D: Rotation winning mechanism 500 is provided behind guide path 505 for introducing game balls transported upward by lift mechanism 400 and discharged from upper end opening 450, winning tool 210, and is played on a plate surface. A tapered cone-shaped rolling dish 510 in which a ball can roll, a second rotating body 520 rotatably provided at the center of the rolling dish 510, and a second rotating body drive that rotationally drives the second rotating body 520. A motor 530 and a game control device 700 that controls the operation of the gaming machine according to the winning state in the rotary winning mechanism 500 are configured.

案内流路505は、上端開口450と転動皿510との間を結んで化粧板2の裏面側に設けられている。案内流路505は、上端開口450から転動皿510に向けて下傾する傾斜樋状に形成されるとともに、平面視において円環状をなす転動皿510の円環に接するように形成されており、案内流路450を流下した遊技球が転動皿510の外周に沿って転動するようになっている。   The guide channel 505 is provided on the back side of the decorative plate 2 connecting the upper end opening 450 and the rolling plate 510. The guide channel 505 is formed in the shape of an inclined bowl inclined downward from the upper end opening 450 toward the rolling dish 510, and is formed so as to be in contact with the annular ring of the rolling dish 510 that forms an annular shape in plan view. The game ball that has flowed down the guide channel 450 rolls along the outer periphery of the rolling plate 510.

一方、転動皿510の中心部に設けられ、第2回転体駆動モータ530により回転駆動される第2回転体520には、平面視においてU字状に開口する球受容孔525が4箇所形成されており、転動皿510の外周に沿って転動した遊技球が第2回転体520の回転角度位置との関係で、これら4箇所の球受容孔525の何れかに転入する。4箇所の球受容孔は、入賞領域を形成し、このうち1箇所が特別領域、他の3箇所が非特別領域とされる。第2回転体駆動モータ530の作動は遊技制御装置700における第2回転体駆動制御手段730によって制御される。   On the other hand, the second rotating body 520 provided at the center of the rolling dish 510 and rotated by the second rotating body drive motor 530 is formed with four ball receiving holes 525 that open in a U shape in plan view. Thus, the game ball that has rolled along the outer periphery of the rolling plate 510 is transferred into one of these four ball receiving holes 525 in relation to the rotation angle position of the second rotating body 520. The four ball receiving holes form a winning area, one of which is a special area and the other three are non-special areas. The operation of the second rotary body drive motor 530 is controlled by the second rotary body drive control means 730 in the game control device 700.

第2回転体520の下側には、特別領域および非特別領域に転入した遊技球を遊技済み球排出通路に導く遊技球排出通路が形成されるとともに、特別領域に転入した遊技球を検出する特別領域通過検出器521、および遊技領域排出通路を通って回転入賞機構500から排出される遊技球を検出する遊技球排出検出器522が設けられている。特別領域通過検出器521の信号は遊技制御装置700の特別遊技判定実行手段740に入力され、遊技球排出検出器522の信号は遊技球排出監視手段717に入力されている。   Below the second rotating body 520, a game ball discharge passage for guiding the game balls transferred into the special area and the non-special area to the game-completed ball discharge path is formed, and the game balls transferred into the special area are detected. A special area passage detector 521 and a game ball discharge detector 522 that detects a game ball discharged from the rotary winning mechanism 500 through the game area discharge passage are provided. The signal of the special area passage detector 521 is input to the special game determination execution means 740 of the game control device 700, and the signal of the game ball discharge detector 522 is input to the game ball discharge monitoring means 717.

特別遊技判定実行手段740には、特別領域通過判定手段741aを有する特別遊技移行判定手段741と、大入賞口開閉駆動制御手段742aを有する特別遊技実行手段742とが設けられており、上記信号から特別領域通過判定手段741aにより特別領域の通過判定がなされ、特別遊技移行判定手段741において特別遊技への移行判定がなされたときに、特別遊技実行手段742で特別遊技の実行プログラムが起動され、前述した開閉入賞機構60による特別遊技が実行される。   The special game determination execution means 740 is provided with a special game transition determination means 741 having a special area passage determination means 741a and a special game execution means 742 having a special prize opening / closing drive control means 742a. When the special region passage determination unit 741a determines passage of the special region, and when the special game transition determination unit 741 determines transition to the special game, the special game execution unit 742 activates the special game execution program. The special game by the open / close prize winning mechanism 60 is executed.

開閉入賞機構60の大入賞口開閉駆動ソレノイド631は、特別遊技実行手段の大入賞口開閉駆動制御手段742aによって作動が制御され、特別遊技実行手段742で起動した特別遊技の実行プログラムにおいて開閉扉620を開放する開放処理ステップになったときに、大入賞口開閉駆動制御手段742aから大入賞口開閉駆動ソレノイド631に開放指令信号(具体的には、大入賞口開閉駆動ソレノイド631をONする駆動信号)が出力される。   The operation of the special winning opening opening / closing drive solenoid 631 of the open / close winning mechanism 60 is controlled by the special winning opening opening / closing drive control means 742a of the special game executing means, and the open / close door 620 in the special game execution program started by the special game executing means 742. When the opening process step is to open, the opening command signal (specifically, the drive signal for turning on the winning port opening / closing drive solenoid 631) from the winning port opening / closing drive control means 742a to the winning port opening / closing drive solenoid 631. ) Is output.

すると、大入賞口開閉駆動ソレノイド631のプランジャが吸引されて駆動伝達具634が上動し、リンクピン636を介して連結されたリンクアーム635が正面視反時計廻りに回動され、リンクアーム635と揺動軸625で連結された開閉扉620が略60度反時計廻りに傾倒されて、大入賞口612が開放される(図7を参照)。ここで、開閉扉620は上部がくの字上に屈曲して形成されるとともに、開放姿勢において開閉扉のリブ627がユニットベースの支持部617に当接して支持される。このため、上方から多数の遊技球が落下してきても、これらの遊技球を確実に受け止めて大入賞口612の内方に誘導することができる。   Then, the plunger of the prize winning opening / closing drive solenoid 631 is sucked and the drive transmission tool 634 moves upward, and the link arm 635 connected via the link pin 636 is rotated counterclockwise as viewed from the front, and the link arm 635 is moved. The open / close door 620 connected by the swing shaft 625 is tilted approximately 60 degrees counterclockwise, and the special winning opening 612 is opened (see FIG. 7). Here, the opening / closing door 620 is formed with the upper portion bent in a dogleg shape, and the rib 627 of the opening / closing door is in contact with and supported by the support portion 617 of the unit base in the open posture. For this reason, even if a large number of game balls fall from above, these game balls can be reliably received and guided to the inside of the big winning opening 612.

大入賞口612に入球した遊技球は、開閉入賞機構ユニット600の導出通路613を通って導出口614に導かれ、導出口614から装飾枠側の連絡流路164、球寄せカバー19に形成された排出流路19a、および裏セット盤に形成された遊技済み球排出通路を転動流下して遊技施設側の回収装置に排出される。導出通路613に設けられた大入賞口入賞検出器650の信号は遊技制御装置700に入力されており、遊技制御装置700は入力される信号から大入賞口612に落入した遊技球の数量をカウントして、所定数量に達したときにいる。大入賞口開閉駆動ソレノイド631に出力していた開放指令信号(駆動信号)をOFFにする。   The game ball that has entered the grand prize winning opening 612 is guided to the outlet opening 614 through the outlet passage 613 of the open / close winning prize mechanism unit 600, and is formed from the outlet opening 614 to the communication channel 164 on the decorative frame side and the ball gathering cover 19. The discharged flow passage 19a and the game-completed ball discharge passage formed in the back set board are tumbled down and discharged to the collection device on the game facility side. The signal of the big prize opening prize detector 650 provided in the lead-out passage 613 is inputted to the game control apparatus 700, and the game control apparatus 700 calculates the number of game balls dropped into the big prize opening 612 from the inputted signal. It is time to count and reach a certain quantity. The opening command signal (drive signal) output to the big prize opening / closing drive solenoid 631 is turned OFF.

すると、大入賞口開閉駆動ソレノイド631のプランジャがリターンスプリングのバネ力により押し出されて駆動伝達具634が下動し、リンクピン636を介して連結されたリンクアーム635が正面視時計廻りに回動され、揺動軸625で連結された開閉扉620が時計廻りに傾倒されて、大入賞口612が閉止される。   Then, the plunger of the special prize opening / closing drive solenoid 631 is pushed out by the spring force of the return spring, the drive transmission tool 634 is moved down, and the link arm 635 connected via the link pin 636 is rotated clockwise in front view. Then, the open / close door 620 connected by the swing shaft 625 is tilted clockwise, and the special winning opening 612 is closed.

従って、揚送機構400により搬送された遊技球を回転入賞機構500に導く構成により、振り分け機構300で振り分けられた遊技球をさらに振り分けて新たなゲームを展開する複雑な遊技構成にすることができ、遊技者を飽きさせない趣向に富んだ遊技機を提供することができる。なお遊技制御装置700には、図柄変動記憶手段721および停止図柄決定手段722を有する図柄制御手段720が設けられており、後述する所定条件のもと図柄表示装置12の作動が制御される。   Therefore, the configuration in which the game ball conveyed by the lifting mechanism 400 is guided to the rotary prize winning mechanism 500 can be a complicated game configuration in which the game balls distributed by the distribution mechanism 300 are further distributed to develop a new game. It is possible to provide a gaming machine rich in taste that does not bore the player. The game control device 700 is provided with a symbol control means 720 having a symbol variation storage means 721 and a stop symbol determination means 722, and the operation of the symbol display device 12 is controlled under a predetermined condition described later.

さて、以上のように構成される複合入賞装置20の作用について、図柄表示装置12の作動制御を含めて、図17を併せて参照しながら説明する。なお図17は複合入賞装置20の各部の作動タイミングを例示するタイミングチャートである。   Now, the operation of the composite winning device 20 configured as described above will be described with reference to FIG. 17 including the operation control of the symbol display device 12. FIG. 17 is a timing chart illustrating the operation timing of each part of the composite winning device 20.

図1に示した遊技盤1がパチンコ機に装着され、ガラス扉が閉鎖された遊技状態で遊技球発射装置から遊技領域PAに遊技球が発射されると、遊技球は多数本の遊技釘や風車等に弾かれながら下方に落下する。特別遊技が実行されていない通常の遊技状態にあっては中央飾り10に設けられた開閉入賞機構の開閉扉620が閉止状態にあり、中央飾り上部の上部一般入賞口13またはワープ入球口14に落入しなかった遊技球は、前方に張り出された装飾枠100の枠部側方を通って遊技領域PAを落下する。   When the game board 1 shown in FIG. 1 is mounted on the pachinko machine and the game ball is launched from the game ball launching device to the game area PA in a game state in which the glass door is closed, the game ball has a large number of game nails and It falls downward while being played by a windmill. In a normal game state in which no special game is being executed, the open / close door 620 of the open / close winning mechanism provided in the central ornament 10 is in a closed state, and the upper general winning opening 13 or the warp entrance 14 on the upper center ornament. The game ball that has not fallen into the game falls through the side of the frame portion of the decorative frame 100 projecting forward and falls in the game area PA.

そして順次落下する多数の遊技球のうち、一部の遊技球は下部一般入賞口3に落入して化粧板2の背面側に導かれ、また一部の遊技球はゲート5を通って遊技領域の下端に落下するほか、殆どの遊技球は遊技領域PAの下端まで落下してアウト口8から化粧板2の背面に導かれ、一般入賞口3,13に落入した遊技球とともに遊技済み球排出通路を介して遊技島の回収装置に回収される。   Of the many game balls that fall sequentially, some of the game balls fall into the lower general prize opening 3 and are guided to the back side of the decorative board 2, and some of the game balls pass through the gate 5 to play the game. In addition to falling to the lower end of the area, most of the game balls fall to the lower end of the game area PA and are led from the out port 8 to the back of the decorative board 2 and played with the game balls that have dropped into the general winning ports 3 and 13 It is collected by the collection device on the game island through the ball discharge passage.

遊技制御装置700は、遊技球が上部一般入賞口13や下部一般入賞口3に落入して各入賞具に設けられた入賞検出器から入賞検出信号が入力されたときに、球払出装置に払出指令信号を出力して払い出し作動させ、褒賞としての遊技球を機体前方の球皿に払い出させる。   The game control device 700 enters the ball payout device when a game ball enters the upper general winning opening 13 or the lower general winning opening 3 and a winning detection signal is input from a winning detector provided in each winning tool. A payout command signal is output and the payout operation is performed, so that a game ball as a reward is paid out to a ball tray in front of the aircraft.

また、ワープ入球口14に落入した遊技球は、装飾枠100に形成された上部案内通路121および側部案内通路122を通ってワープ出口124に導かれ、まず上段ステージ142を左右に転動する。そして、多くの遊技球は前傾する左右何れかの凹部から下段ステージ141に落下して下段ステージ141を左右に転動し、中央の誘導部141gから中央飾り10の下部領域に流下する。ここで下段ステージの誘導部141gは遊技球2球程度の幅を有して形成されているため、誘導部141gから落下する遊技球の落下経路は一定ではない。このため、入賞口212が拡大されていない状態では、多くの遊技球がチューリップ羽根上方のガイド筒に弾かれて入賞具の左右を落下し、誘導部141gの中心に収斂して鉛直落下する一部の遊技球のみがガイド筒を通って入賞口212に落入する。   The game ball dropped into the warp entrance 14 is guided to the warp outlet 124 through the upper guide passage 121 and the side guide passage 122 formed in the decorative frame 100, and the upper stage 142 is first turned right and left. Move. Many game balls fall from the left or right concave part tilted forward to the lower stage 141, roll the lower stage 141 to the left and right, and flow down from the central guiding part 141g to the lower region of the central ornament 10. Here, since the guide part 141g of the lower stage is formed to have a width of about two game balls, the fall path of the game ball falling from the guide part 141g is not constant. For this reason, in a state where the winning opening 212 is not enlarged, a lot of game balls are bounced by the guide tube above the tulip blades and fall to the left and right of the winning device, converge at the center of the guiding portion 141g and fall vertically. Only part of the game balls pass through the guide tube and drop into the winning opening 212.

一方、上段ステージ142を左右転動するうちに上段ステージの誘導溝142gに係合した遊技球は、前方開くV字状の係合誘導溝により溝に沿って前方に誘導され、付勢誘導溝に落ち込むことで付勢されて特別流下通路145gを転動し、特別流下通路145gの前端部から中央飾り10の下方に落下する。前述したように入賞具210は特別流下通路145gと位置整合して直下に配設されるとともに、チューリップ羽根の上方に設けられたガイド筒は特別流下通路145gから鉛直に落下してくる遊技球をガイドするように構成されている。このため、特別流下通路145gを通って前端部から落下する遊技球の多くは入賞口212に落入する。   On the other hand, the game ball that is engaged with the guide groove 142g of the upper stage while rolling left and right of the upper stage 142 is guided forward along the groove by the V-shaped engagement guide groove that opens forward, and the bias guide groove The special downflow passage 145g is urged by falling and falls to the lower side of the central ornament 10 from the front end of the special downflow passage 145g. As described above, the prize-winning tool 210 is positioned directly below the special flow-down passage 145g, and the guide tube provided above the tulip blades holds a game ball falling vertically from the special flow-down passage 145g. It is configured to guide. For this reason, most of the game balls that fall from the front end through the special flow passage 145g fall into the winning opening 212.

他方、中央飾り側方の遊技領域を落下した遊技球や下段ステージの誘導部から入賞具210の側方に転落した遊技球がゲート5を通過し、ゲート5に内蔵されたゲート通過検出器5sから遊技制御装置700にゲート通過検出信号が入力されると、遊技制御装置700はゲート通過検出信号に基づく制御フローを呼び出し、複合入賞装置20における入賞具210の作動を制御する。例えば役物制御手段710の入球部拡大装置駆動制御手段711から入賞具210の入球部拡大装置駆動ソレノイド213に駆動信号を出力させ、左右のチューリップ羽根を0.5秒〜1秒程度の所定時間開放させて入賞口212を拡大させる。入賞口212が拡大されると遊技球が入賞しやすくなり、入賞具210の周囲を落下する遊技球が左右のチューリップ羽根211,211に受け止められて連続的に入賞口212に落入する。   On the other hand, a game ball that has fallen in the game area on the side of the central decoration or a game ball that has fallen to the side of the winning device 210 from the guide part of the lower stage passes through the gate 5, and the gate passage detector 5 s built in the gate 5. When a gate passage detection signal is input to the game control device 700, the game control device 700 calls a control flow based on the gate passage detection signal and controls the operation of the winning tool 210 in the composite winning device 20. For example, a driving signal is output from the ball entrance unit expansion device drive control unit 711 of the accessory control unit 710 to the ball entrance unit enlargement device drive solenoid 213 of the winning tool 210, and the left and right tulip blades are set to a predetermined time of about 0.5 seconds to 1 second. The winning opening 212 is expanded by opening. When the winning opening 212 is enlarged, it becomes easier for the game ball to win, and the gaming balls falling around the winning tool 210 are received by the left and right tulip blades 211 and 211 and continuously drop into the winning opening 212.

そして、これらのようにして入賞口212に落入した遊技球は、役物入球検出器214により通過が検出されたのち導入通路215を流下し、図10に示すように常には閉止状態にあるシャッタ242の上面を転動して球貯留通路220に流入する。   Then, the game balls that have fallen into the winning opening 212 as described above flow down the introduction passage 215 after the passage is detected by the accessory entry detector 214, and are always closed as shown in FIG. The upper surface of a certain shutter 242 rolls and flows into the ball storage passage 220.

役物入球検出器214の信号は入球判定手段712に入力されており、入球判定手段712は入力される信号から遊技球が入球したか否かを判定する。そして遊技制御装置700では、入球判定手段712における判定が入球判定である場合には、貯留通路に貯留された遊技球の数量を一時記憶する貯留球メモリのメモリ値を参照し、この値が所定の最大貯留球数(例えば5個)未満であるときに、メモリ値を加算(カウントアップ)して貯留球メモリに一時記憶する。   The signal from the accessory entry detector 214 is input to the entrance determination means 712, and the entrance determination means 712 determines whether or not a game ball has entered from the input signal. Then, in the game control device 700, when the determination in the entrance determination unit 712 is the entrance determination, the memory control unit 700 refers to the memory value of the storage ball memory that temporarily stores the number of game balls stored in the storage passage. Is less than a predetermined maximum number of stored balls (for example, 5), the memory value is added (counted up) and temporarily stored in the stored ball memory.

また遊技制御装置700は、貯留球メモリのメモリ値が1以上であるときに、所定条件のもと図柄制御手段720に図柄変動制御の開始指令信号を出力して図柄の変動を開始させる。図柄制御手段720では、停止図柄決定手段722により停止図柄の組み合わせが抽選されて決定され、図柄変動記憶手段721が決定された停止図柄に基づいて停止図柄に至る図柄の変動パターンを呼び出して、図柄表示装置12の表示作動を制御する。   In addition, when the memory value of the stored ball memory is 1 or more, the game control device 700 outputs a symbol variation control start command signal to the symbol control means 720 under a predetermined condition to start symbol variation. In the symbol control means 720, a combination of stop symbols is determined by lottery by the stop symbol determination means 722, and the symbol variation storage means 721 calls a symbol variation pattern that reaches the stop symbol based on the determined stop symbol. The display operation of the display device 12 is controlled.

例えば、入賞口212に5個の遊技球が落入すると、図17における(a)に示すように、役物入球検出器214から5つのパルス状の入球検出信号が出力され、これを受けた役物入球判定手段712でそれぞれの入球判定が行われるとともに、貯留球メモリのメモリ値が入球判定ごとに1ずつ加算されて1,2…5まで増加する。そして図柄制御手段720により図柄の変動制御が開始されたときに、貯留球メモリのメモリ値が1つ減算され、残る図柄変動回数4が記憶され、その回数が例えば遊技盤に設けられた記憶表示LED(各種遊技効果ランプ)6に表示される。これにより遊技者は透明なカバー部材52を通して貯留通路220に整列待機された遊技球をパチンコ機前面側から直接視認できるとともに、残る図柄変動回数を記憶表示LEDにより確認することができる。   For example, when five game balls fall into the winning opening 212, as shown in FIG. 17 (a), five pulsed ball detection signals are output from the accessory ball detection detector 214. Each received ball determination is performed by the received accessory ball determining means 712, and the memory value of the stored ball memory is incremented by 1 for each ball determination and increased to 1, 2,... When the symbol variation control is started by the symbol control means 720, the memory value of the stored ball memory is decremented by one, the remaining symbol variation count 4 is stored, and the number of times is stored, for example, on the game board. It is displayed on LED (various game effect lamps) 6. As a result, the player can directly view the game balls aligned and waiting in the storage passage 220 through the transparent cover member 52 from the front side of the pachinko machine, and can check the remaining number of symbol fluctuations by the memory display LED.

また上記のように5個の遊技球が貯留通路220に流入すると、流入した遊技球は第1個目の遊技球が導入口340から最初に基準位置にある球受け部(以下、説明の便宜上「第1球受け部」という)322に受容され、第2〜第5個目の遊技球が貯留通路220に位置して停留され、入賞口212に落入した遊技球が流入した順に整列状態で貯留待機される。   Further, when five game balls flow into the storage passage 220 as described above, the first game ball that has flowed into the storage passage 220 is a ball receiving portion (hereinafter, for convenience of explanation) in which the first game ball is initially at the reference position. The second to fifth game balls are received and stopped in the storage passage 220 and are arranged in the order in which the game balls dropped into the winning port 212 flow in. It is stored and waited at.

このとき、第5個目の遊技球は貯留通路入り口の貯留部満杯検出器251の検出孔内に位置して停留される。このため貯留部満杯検出器251の検出信号は、図17(c)に示すように第5個目の遊技球の検出信号が連続した検出状態となり、これを受けた貯留部満杯判定手段713は、入力された検出信号が所定時間以上連続した遊技球検出信号であることから貯留通路220が満杯状態であると判定する。役物制御手段710は、貯留部満杯判定手段713により貯留通路220が満杯状態であると判定されたときに、シャッター駆動制御手段714からシャッター駆動ソレノイド243に駆動信号を出力し図11および図17(d)に示すようにシャッター242を開放状態に切り替えさせる。   At this time, the fifth game ball is stopped in the detection hole of the storage portion full detector 251 at the entrance of the storage passage. For this reason, the detection signal of the storage unit full detector 251 is in a detection state in which the detection signal of the fifth game ball is continuous as shown in FIG. Since the input detection signal is a game ball detection signal that is continuous for a predetermined time or more, it is determined that the storage passage 220 is full. The accessory control unit 710 outputs a drive signal from the shutter drive control unit 714 to the shutter drive solenoid 243 when the storage unit full determination unit 713 determines that the storage passage 220 is full. As shown in (d), the shutter 242 is switched to the open state.

このため、貯留通路220が満杯状態になると、満杯状態が解除されるまで貯留機構200のシャッター242が排出通路230の上部を開く開放状態になり、導入通路215を通って導かれた遊技球が排出通路230に転落して、遊技済み球排出通路を介して遊技島の回収装置に排出される。   For this reason, when the storage passage 220 is full, the shutter 242 of the storage mechanism 200 is opened to open the upper portion of the discharge passage 230 until the full state is released, and the game ball guided through the introduction passage 215 is released. It falls to the discharge passage 230 and is discharged to the game island collection device via the game-completed ball discharge passage.

このように、貯留機構200では、貯留通路220が遊技球で充満される以前の非充満状態において、入賞口212に落入した遊技球が確実に貯留通路220に導かれて入賞した順に整列状態で貯留されるとともに、貯留通路220が充満状態になって以降は、充満状態が解除されるまで排出通路230に導かれて排出される。このため、入賞口212最大貯留球数を超える数量の遊技球が落入しても、貯留通路220に既に整列貯留された遊技球に何ら影響を与えることがなく、また貯留通路220に貯留された第1〜第5の各遊技球に対応したゲームを次段の振り分け機構300で的確に実行することができる。   Thus, in the storage mechanism 200, in an unfilled state before the storage passage 220 is filled with game balls, the game balls dropped into the winning opening 212 are reliably guided to the storage passage 220 and arranged in order of winning. In addition, after the storage passage 220 becomes full, it is guided to the discharge passage 230 and discharged until the full state is released. For this reason, even if a number of game balls exceeding the maximum number of stored balls in the winning opening 212 are dropped, the game balls already aligned and stored in the storage passage 220 are not affected at all, and are stored in the storage passage 220. The game corresponding to each of the first to fifth game balls can be accurately executed by the distribution mechanism 300 at the next stage.

一方、図柄制御手段720において図柄変動が停止し、図柄表示装置12に停止図柄の組み合わせが表示されると、役物制御手段710は、条件達成判定手段718によって判定された入賞条件に基づいた駆動信号を第1回転体駆動制御手段715から第1回転駆動モータ330に出力させ、振り分け機構300の第1回転体320を時計廻りまたは反時計廻りに回動させる。例えば、条件達成判定手段718によって判定された入賞条件が第2条件(はずれ)である場合には、図17(e)に示すように第1回転駆動モータ330を反時計廻りに約90度回動させる駆動信号を出力して第1回転体320を左回転させ、図10および図12に示すように遊技球が受容された第1球受け部322を第2導出口360に整合させた角度位置、すなわち第2導出位置に一時停止させる。   On the other hand, when the symbol variation is stopped in the symbol control means 720 and the combination of the stopped symbols is displayed on the symbol display device 12, the accessory control means 710 drives based on the winning condition determined by the condition achievement determination means 718. A signal is output from the first rotary body drive control means 715 to the first rotary drive motor 330, and the first rotary body 320 of the distribution mechanism 300 is rotated clockwise or counterclockwise. For example, when the winning condition determined by the condition achievement determining means 718 is the second condition (displacement), as shown in FIG. 17 (e), the first rotary drive motor 330 is rotated about 90 degrees counterclockwise. An angle at which the first rotation body 320 is rotated counterclockwise by outputting a driving signal to be moved, and the first ball receiving portion 322 in which a game ball is received is aligned with the second outlet 360 as shown in FIGS. The position is temporarily stopped at the second lead-out position.

前述したように、球受け部322,322は、U字溝を形成する左右の溝壁面が底面中央を境に前後逆方向に開く傾斜面で形成されており、U字溝が上方に開く角度姿勢において左壁面が前方に開く傾斜面、右壁面が後方に開く傾斜面で構成されている。このため第1球受け部322に受容されて第2導出位置に配設された遊技球は、U字溝の右壁面の傾斜に従って後方に誘導され、第2導出口360から第2条件流路361に排出され、第2条件流路通過検出器362により通過が検出されたうえ遊技済み排出通路を介して遊技島の回収装置に排出される。   As described above, the left and right groove wall surfaces forming the U-shaped groove are formed with inclined surfaces that open in the reverse direction from the bottom center, and the angle at which the U-shaped groove opens upward as described above. In the posture, the left wall surface is an inclined surface that opens forward, and the right wall surface is an inclined surface that opens backward. For this reason, the game ball received by the first ball receiving portion 322 and disposed at the second lead-out position is guided rearward according to the inclination of the right wall surface of the U-shaped groove, and the second conditional flow path from the second lead-out port 360. It is discharged to 361, detected by the second condition passage passage detector 362, and discharged to the game island collection device through the game-completed discharge passage.

そして第2条件流路通過検出器362により遊技球が検出され、この信号を監視する遊技球排出監視手段717において遊技球の排出が確認されたとき、すなわち第2導出口360への振り分け作動によって導出された遊技球の排出処理が確認されたのち、第1回転駆動モータ330を再び反時計廻りに約90度回動させる駆動信号を出力し、第2導出位置で一時停止していた第1回転体320を基準位置近傍まで回動させ、第1回転体モータセンサ335から入力される検出信号により第1回転体320が基準位置に到達したと判定されたときに第1回転駆動モータ330の回動を停止させる。   When the game ball is detected by the second condition flow passage detector 362 and the game ball discharge monitoring means 717 for monitoring this signal confirms the discharge of the game ball, that is, by the distribution operation to the second outlet 360. After the discharged game ball is discharged, the first rotation drive motor 330 is again rotated by about 90 degrees counterclockwise, and a drive signal is output, and the first signal that has been temporarily stopped at the second release position is output. The rotating body 320 is rotated to the vicinity of the reference position, and when it is determined that the first rotating body 320 has reached the reference position based on the detection signal input from the first rotating body motor sensor 335, the first rotating drive motor 330 Stop turning.

これにより貯留通路220に貯留された第1球目の遊技球の振り分け処理が完了するとともに、基準位置に配設された第1回転体320の下側の球受け部(以下、「第2球受け部」という)322が導入口340と位置整合して配設され、第2球目の遊技球が第2球受け部322に受容されて、次の振り分け作動に向けて待機保持される。   As a result, the distribution process of the first game balls stored in the storage passage 220 is completed, and the lower ball receiving portion (hereinafter referred to as “second ball”) disposed at the reference position. 322) (referred to as a “receiving portion”) is disposed in alignment with the introduction port 340, and the second game ball is received by the second ball receiving portion 322 and is held on standby for the next sorting operation.

球貯留通路220では、第2球目の遊技球が第2球受け部322に導入されることで、通路内に貯留された遊技球がそれぞれ1個分づつ導入口側に移動し、貯留部満杯検出器251の信号が連続した検出状態から非検出状態に変位する。このため貯留部満杯判定手段713による判定が充満状態から非充満状態に変化し、シャッター駆動制御手段714からシャッター駆動ソレノイド243に出力されていた駆動信号がOFFになって、シャッター駆動ソレノイド243のリターンスプリングのバネ力によりシャッター242が閉止状態に復帰される。   In the ball storage passage 220, the second game ball is introduced into the second ball receiving portion 322, so that each of the game balls stored in the passage moves to the inlet side one by one, and the storage portion The signal of the full detector 251 shifts from the continuous detection state to the non-detection state. Therefore, the determination by the storage unit full determination unit 713 changes from the full state to the non-full state, the drive signal output from the shutter drive control unit 714 to the shutter drive solenoid 243 is turned OFF, and the return of the shutter drive solenoid 243 is performed. The shutter 242 is returned to the closed state by the spring force of the spring.

また第1球目の振り分け処理の完了とともに、図柄制御手段720により第2球目の遊技球に対する図柄の抽選および変動制御が開始され、貯留球メモリのメモリ値が4→3に減算されて記憶される一方、図17(a)(b)に示すように図柄の変動中に入賞口212に新たに遊技球が落入すると、貯留球メモリのメモリ値が3→4に加算されて記憶される。またこれにより貯留通路220が再び満杯状態となり、貯留部満杯判定手段713による満杯判定に基づいてシャッター242が開放される(図17(c)および(d))。   When the first ball distribution process is completed, the symbol control means 720 starts symbol lottery and variation control for the second game ball, and the memory value of the stored ball memory is subtracted from 4 to 3 and stored. On the other hand, as shown in FIGS. 17 (a) and 17 (b), when a new game ball falls into the winning opening 212 during the change of the symbol, the memory value of the stored ball memory is added to 3 → 4 and stored. The As a result, the storage passage 220 becomes full again, and the shutter 242 is opened based on the full determination by the storage unit full determination means 713 (FIGS. 17C and 17D).

図柄制御手段720において図柄変動が停止し、図柄表示装置12に図柄の組み合わせが表示されると、役物制御手段710は、条件達成判定手段718によって判定された入賞条件に基づいた駆動信号を第1回転体駆動制御手段715から第1回転駆動モータ330に出力させて、第1回転体320を時計廻りまたは反時計廻りに回動させる。図17ではこの第2球目の遊技球に対して条件達成判定手段718で判定された入賞条件が第1条件(当たり)である場合を示しており、第1回転体駆動制御手段715は第1回転駆動モータ330を時計廻りに約150度回動させる駆動信号を出力して図17(e)に示すように第1回転体320を右回転させ、図11に示すように遊技球が受容された第2球受け部322を第1導出口350に整合させた角度位置、すなわち第1導出位置に一時停止させる。   When the symbol variation is stopped in the symbol control means 720 and the symbol combination is displayed on the symbol display device 12, the accessory control means 710 outputs a drive signal based on the winning condition determined by the condition achievement determination means 718. The first rotary body drive control means 715 outputs the first rotary body motor 330 to rotate the first rotary body 320 clockwise or counterclockwise. FIG. 17 shows a case where the winning condition determined by the condition achievement determining means 718 for the second game ball is the first condition (winning), and the first rotating body drive control means 715 A driving signal for rotating the one-rotation driving motor 330 clockwise by about 150 degrees is output to rotate the first rotating body 320 clockwise as shown in FIG. 17 (e), and the game ball is received as shown in FIG. The second ball receiver 322 thus made is temporarily stopped at the angular position aligned with the first outlet 350, that is, the first outlet position.

この角度位置では、第2球受け部322に受容された遊技球はU字溝を形成する左右の溝壁面における左側の壁面に支持されており、第1導出口350と整合して前方が開放された遊技球がU字溝の左壁面の傾斜に従って前方に誘導され、第1導出口350から第1条件流路351に排出され、第1条件流路351を転動流下して次段の揚送機構400に導かれる。   At this angular position, the game ball received by the second ball receiving portion 322 is supported on the left wall surface of the left and right groove wall surfaces forming the U-shaped groove, and is aligned with the first outlet 350 and opened forward. The played game ball is guided forward according to the inclination of the left wall surface of the U-shaped groove, is discharged from the first outlet 350 to the first condition channel 351, and rolls down the first condition channel 351 to move to the next stage. Guided to the lift mechanism 400.

また条件達成判定手段718で判定された入賞条件が第1条件である場合には、遊技制御装置700は、役物制御手段710の揚送装置駆動制御手段716および第2回転体駆動制御手段730に指令信号を出力し、それぞれ揚送装置駆動モータ420および第2回転体駆動モータ530の駆動信号を出力させて、揚送機構400の揚送スクリュー410および回転入賞機構500の第2回転体520を回転駆動させる(図17(g)および(h))。   When the winning condition determined by the condition achievement determining means 718 is the first condition, the game control device 700 uses the lifting device drive control means 716 and the second rotating body drive control means 730 of the accessory control means 710. Command signals, and drive signals for the lifting device drive motor 420 and the second rotating body drive motor 530, respectively, so that the lifting screw 410 of the lifting mechanism 400 and the second rotating body 520 of the rotary prize winning mechanism 500 are output. Are driven to rotate (FIGS. 17 (g) and (h)).

これにより、第1条件流路351を転動流下して揚送機構400に導かれ、第1条件流路351から揚送部に導入された遊技球は、揚送装置駆動モータ420により回転駆動される揚送スクリュー410の螺旋状の球送りプレート412に持ち上げられ、ガイドカバーに案内されながら鉛直上方に揚送される。揚送部の上端部まで揚送された遊技球は、ガイドカバーの下向き面に形成された傾斜面に当接して後方に押し出され、上端開口450から案内流路505に排出される。そして転動皿510に向けて下傾する案内流路505を転動流下し、回転入賞機構500に導かれる。   As a result, the game balls introduced by rolling down the first condition channel 351 to the lifting mechanism 400 and introduced from the first condition channel 351 to the lifting unit are driven to rotate by the lifting device drive motor 420. The lifted screw 410 is lifted by the spiral ball feed plate 412 and is lifted vertically upward while being guided by the guide cover. The game ball lifted up to the upper end portion of the lift portion is pushed backward while coming into contact with the inclined surface formed on the downward surface of the guide cover, and is discharged from the upper end opening 450 to the guide channel 505. Then, it rolls down the guide channel 505 inclined downward toward the rolling dish 510 and is guided to the rotary prize winning mechanism 500.

回転入賞機構500に導入された遊技球は、テーパーコーン状の転動皿510に受け止められて第2回転体520の周囲を転動し、第2回転体駆動モータ530により回転駆動されている第2回転体520の4箇所の球受容孔525の何れか、すなわち1箇所の特別領域または3箇所の非特別領域のうち何れかに転入する。そして特別領域に転入した遊技球は特別領域通過検出器521および遊技球排出検出器522に検出され、非特別領域に転入した遊技球は遊技球排出検出器522にのみ検出された後、遊技済み球排出通路を介して遊技島の回収装置に排出される。特別領域通過検出器521および遊技球排出検出器522の信号は遊技制御装置700に入力されている。   The game ball introduced into the rotation winning mechanism 500 is received by the tapered cone-shaped rolling tray 510 and rolls around the second rotating body 520, and is rotated by the second rotating body drive motor 530. It moves into any one of the four ball receiving holes 525 of the two-rotating body 520, that is, one of the special areas or three of the non-special areas. Then, the game ball transferred into the special area is detected by the special area passage detector 521 and the game ball discharge detector 522, and the game ball transferred into the non-special area is detected only by the game ball discharge detector 522 and then played. It is discharged to the collection device on the game island through the ball discharge passage. Signals from the special area passage detector 521 and the game ball discharge detector 522 are input to the game control device 700.

図17では回転入賞機構500に導入された遊技球が特別領域に転入した例を示しており、図17(i)(j)に示すように、特別領域に転入した遊技球が特別領域通過検出器521および遊技球排出検出器522に検出され、遊技済み球排出通路を介して遊技島の回収装置に排出される。遊技制御装置700における特別遊技判定実行手段740では、特別領域通過検出器521の検出信号から特別領域通過判定手段741aにおいて特別領域の通過判定がなされ、この通過判定および遊技機の作動状況に基づいて特別遊技移行判定手段741で特別遊技への移行判定がなされる。特別遊技実行手段742では特別遊技への移行判定を受けて特別遊技の実行プログラムが起動され、開閉入賞機構600による特別遊技が実行される(図17(k))。   FIG. 17 shows an example in which the game ball introduced into the rotation winning mechanism 500 is transferred into the special area, and as shown in FIGS. 17 (i) and 17 (j), the game ball transferred into the special area is detected as passing through the special area. Is detected by the game machine 521 and the game ball discharge detector 522 and discharged to the game island collection device via the game ball discharge passage. In the special game determination execution means 740 in the game control device 700, the special area passage determination means 741a makes a passage determination of the special area from the detection signal of the special area passage detector 521, and based on the passage determination and the operating state of the gaming machine. The special game transition judging means 741 judges whether to transition to a special game. The special game execution means 742 receives the determination to shift to the special game, starts the special game execution program, and executes the special game by the open / close prize winning mechanism 600 (FIG. 17 (k)).

具体的には、特別遊技実行手段742における大入賞口開閉駆動制御手段742aから大入賞口開閉駆動ソレノイド631に開放指令信号が出力され、開閉扉620のが所定期間(例えば30秒程度の所定時間、あるいは遊技球が10個入賞するまでの期間)左方に略60度傾倒されて大入賞口612が開放される。大入賞口612に落入した遊技球は大入賞口入賞検出器650に検出され、開閉入賞機構ユニット600の導出通路613を通って導出口614に導かれ、導出口614から装飾枠側の連絡流路164、球寄せカバー19に形成された排出流路19a、および裏セット盤に形成された遊技済み球排出通路を転動流下して遊技施設側の回収装置に排出される。大入賞口入賞検出器650から入賞検出信号を受けた遊技制御装置700は、入賞球数に応じた指令信号を球払出装置に出力して褒賞としての遊技球を球皿に払い出させる。   Specifically, an open command signal is output from the special prize opening / closing drive control means 742a in the special game execution means 742 to the special prize opening / closing drive solenoid 631, and the opening / closing door 620 is operated for a predetermined period (for example, a predetermined time of about 30 seconds). (Or a period until 10 game balls are won) and tilted approximately 60 degrees to the left to open the big winning opening 612. The game ball dropped into the grand prize winning opening 612 is detected by the big winning prize winning prize detector 650, guided to the outlet outlet 614 through the outlet passage 613 of the opening / closing prize winning mechanism unit 600, and communicated from the outlet outlet 614 to the decoration frame side. Rolling down the flow path 164, the discharge flow path 19 a formed in the ball gathering cover 19, and the game-completed ball discharge passage formed in the back set board, it is discharged to the collection device on the game facility side. The game control device 700 that has received the winning detection signal from the big winning mouth winning detector 650 outputs a command signal corresponding to the number of winning balls to the ball paying device to pay out the game ball as a reward to the ball tray.

また遊技制御装置700は、遊技球排出検出器522からの信号を監視する遊技球排出監視手段717において遊技球の排出が確認されたとき、すなわち第1導出口350への振り分け作動によって導出された遊技球の排出処理が確認されたのち、第1回転駆動モータ330を再び時計廻りに約30度回動させる駆動信号を出力し、第1導出位置で一時停止していた第1回転体320を基準位置近傍まで回動させ、第1回転体モータセンサ335から入力される検出信号により第1回転体320が基準位置に到達したと判定されたときに第1回転駆動モータ330の回動を停止させる。   Further, the game control device 700 is derived when the game ball discharge monitoring means 717 that monitors the signal from the game ball discharge detector 522 confirms the discharge of the game ball, that is, by the distribution operation to the first outlet 350. After the game ball discharge process is confirmed, a driving signal for rotating the first rotation driving motor 330 again by about 30 degrees clockwise is output, and the first rotating body 320 that has been temporarily stopped at the first lead-out position is output. Rotate to the vicinity of the reference position, and stop the rotation of the first rotation drive motor 330 when it is determined that the first rotator 320 has reached the reference position by the detection signal input from the first rotator motor sensor 335. Let

これにより貯留通路220に貯留された第2球目の遊技球の振り分け処理が完了するとともに、基準位置に配設された第1回転体320の第1球受け部322が導入口340と位置整合して配設され、第3球目の遊技球が第1球受け部322に受容されて、次の振り分け作動に向けて待機保持される。   Thereby, the distribution process of the second game ball stored in the storage passage 220 is completed, and the first ball receiving portion 322 of the first rotating body 320 disposed at the reference position is aligned with the introduction port 340. The third game ball is received by the first ball receiving portion 322 and is held on standby for the next sorting operation.

ここで、振り分け機構300では、球受け部322が第1回転体320の回転軸を中心として全周を2等分した角度ピッチθ=180度で2箇所形成され、導入口340に対する第1導出口350の角度位置θ1=150度、および導入口340に対する第2導出口360の角度位置θ2=90度が、いずれも球受け部322,322の形成角度ピッチθよりも小さく形成されている。このため、基準位置にある第1球受け部に受容した遊技球を第1導出口350(または第2導出口360)に向けて移動させている間に軸対称位置にある第2球受け部が導入口340に接近し、第1球受け部の遊技球を第1導出口350(第2導出口360)に排出したのち第1回転体320をわずか30度程度(90度程度)回動させることで、第2球受け部が導入口340に配設される。すなわち、振り分け機構300では第1球受け部を元の角度位置まで戻す必要がなく、第1球受け部の回動による振り分け作動とともに第2球受け部が導入口340に移動して基準位置に配設される。このため、従来振り分け時間と同程度の時間、あるいは振り分け作動以上の時間を要していた復帰作動の時間を大幅に削減することができ、基準位置への復帰を待って行われる次の遊技を、わずかなインターバルで開始することができる。 Here, in the distribution mechanism 300, the ball receiving portions 322 are formed at two positions with an angular pitch θ = 180 degrees that divides the entire circumference into two equal parts around the rotation axis of the first rotating body 320, and the first guide with respect to the introduction port 340 is formed. The angular position θ 1 = 150 degrees of the outlet 350 and the angular position θ 2 = 90 degrees of the second outlet 360 with respect to the inlet 340 are both formed smaller than the formation angle pitch θ of the ball receiving portions 322 and 322. Yes. For this reason, the second ball receiving portion in the axially symmetric position while the game ball received in the first ball receiving portion in the reference position is moved toward the first outlet port 350 (or the second outlet port 360). Approaches the inlet 340, and after the game ball in the first ball receiving portion is discharged to the first outlet 350 (second outlet 360), the first rotating body 320 is rotated only about 30 degrees (about 90 degrees). By doing so, the second ball receiving portion is disposed in the introduction port 340. That is, in the sorting mechanism 300, it is not necessary to return the first ball receiving portion to the original angular position, and the second ball receiving portion moves to the introduction port 340 and moves to the reference position along with the sorting operation by the rotation of the first ball receiving portion. Arranged. For this reason, it is possible to greatly reduce the time for the return operation, which has required the same time as the conventional distribution time, or the time required for the distribution operation, and the next game to be performed after returning to the reference position. , Can start in a few intervals.

また、球受け部が第1回転体320の全周を2等分した角度ピッチで形成されていることから、第1回転体320の回動方向が時計廻りまたは反時計廻りに連続する場合、あるいは時計廻り・反時計廻りに反転を繰り返す場合のいずれであっても、第1回転体320の回動開始〜第2球受け部が基準位置に配設されるまでの作動時間を、第1回転体320が1/2回転する一定時間にすることができる(図17(e)を参照)。   In addition, since the ball receiving portion is formed at an angular pitch obtained by dividing the entire circumference of the first rotating body 320 into two equal parts, when the rotation direction of the first rotating body 320 continues clockwise or counterclockwise, Alternatively, in any case where the reversal is repeated clockwise or counterclockwise, the operation time from the start of rotation of the first rotating body 320 until the second ball receiving portion is disposed at the reference position is set to the first time. It can be set to a certain time during which the rotator 320 makes 1/2 rotation (see FIG. 17E).

従って、以上説明した複合入賞装置20によれば、個々の入賞球に固有の意義を持たせて1:1対応のゲーム展開を実現できることに加えて、振り分け機構に導かれた遊技球を連続して振り分け案内する遊技形態であっても振り分け処理を迅速且つ均等に行うことができ、ゲーム展開の抑揚を明確化するとともに稼働の低下を防止した入賞装置を提供することができる。さらに、限られた遊技盤面を有効に活用した自由なレイアウト設計のもとで趣向に富んだ斬新なゲーム構成の遊技機を提供することができる。   Therefore, according to the composite winning device 20 described above, it is possible to realize a 1: 1 game development by giving each winning ball a unique meaning, and in addition, the game balls guided to the distribution mechanism are continuously displayed. Even in the game form in which the game is guided to be distributed, it is possible to perform the distribution process quickly and evenly, and it is possible to provide a winning device that clarifies the expansion of the game development and prevents the operation from being lowered. Furthermore, it is possible to provide a gaming machine having a novel game configuration that is rich in taste under a free layout design that effectively utilizes a limited gaming board surface.

パチンコ機の遊技盤に各種遊技部品を装着して複合入賞装置を構成した状態の遊技盤の正面図である。1 is a front view of a game board in a state in which various game parts are mounted on a game board of a pachinko machine to constitute a composite winning device. FIG. 上記遊技盤の背面図である。It is a rear view of the game board. 中央飾りおよび複合入賞装置の構成を説明するために分解状態で左斜め前方から見た斜視図である。It is the perspective view seen from the diagonally left front in a disassembled state in order to explain the configuration of the central ornament and the composite winning device. 中央飾りおよび複合入賞装置の構成を説明するために分解状態で左斜め後方から見た斜視図である。It is the perspective view seen from the diagonally left rear in a disassembled state in order to explain the configuration of the central ornament and the composite winning device. 中央飾りから開閉入賞機構ユニットを取り外した状態で、開閉入賞機構ユニットを主としてを示す正面図である。It is a front view which mainly shows an opening / closing prize winning mechanism unit in the state which removed the opening / closing prize winning mechanism unit from the center decoration. 中央飾りから開閉入賞機構ユニットを取り外した状態で、開閉入賞機構ユニットを主として示す背面図である。It is a rear view which mainly shows an opening-and-closing prize-winning mechanism unit in the state which removed the opening-and-closing prize-winning mechanism unit from the center decoration. 開閉入賞機構の動作変位を示す正面図(部分断面図)である。It is a front view (partial sectional view) showing the operation displacement of the open / close prize winning mechanism. 図7中のVIII−VIII矢視の平断面図である。It is a plane sectional view of the VIII-VIII arrow in FIG. 左枠部およびステージの球流れ状態を主として示す側断面図である。It is a sectional side view mainly showing a sphere flow state of the left frame part and the stage. 貯留通路が充満される以前の様子を主として示す複合入賞装置の前方機構部の正面図である。It is a front view of the front mechanism part of the compound prize-winning device mainly showing a state before the storage passage is filled. 貯留通路が充満されて以降の様子を主として示す複合入賞装置の前方機構部の正面図である。It is a front view of the front mechanism part of the compound prize-winning device mainly showing the state after the storage passage is filled. 複合入賞装置における前方機構部の背面図である。It is a rear view of the front mechanism part in a composite winning device. 複合入賞装置における前方機構部の平面図である。It is a top view of the front mechanism part in a compound prize-winning apparatus. 複合入賞装置における後方機構部の平面図である。It is a top view of the back mechanism part in a compound prize-winning apparatus. 化粧板の背面側の球流れを主として示す上記後方機構部の正面図(図14中のXV−XV矢視の正面図)である。It is a front view (front view of the XV-XV arrow in FIG. 14) of the said back mechanism part which mainly shows the ball | bowl flow of the back side of a decorative board. 複合入賞装置の制御形態を概要的に示すブロック図である。It is a block diagram which shows schematically the control form of a composite winning device. 複合入賞装置の各部の作動タイミングを例示するタイミングチャートである。It is a timing chart which illustrates the operation timing of each part of a compound prize-winning device.

符号の説明Explanation of symbols

PA 遊技領域
1 遊技盤
2 化粧板
3 下部一般入賞口
5 ゲート(5s ゲート通過検出器)
6 記憶表示LED
8 アウト口
10 中央飾り
11 窓口
12 図柄表示装置
13 上部一般入賞口(13s 入賞検出器)
14 ワープ入球口
19 球寄せカバー(19a 排出流路、19b 排出通路)
20 複合入賞装置
51 ハウジング
52 カバー部材
55 リアフレーム
60 開閉入賞機構
100 装飾枠
101 ベース枠
102 中間枠
103 後方枠
111 上枠部
112 左枠部
113 右枠部
114 下枠部
115 庇部
116 中央障壁部
120 ワープ案内通路
121 上部案内通路
122 側部案内通路
124 ワープ出口
130 入賞球排出通路
131 上部排出通路
132 側部排出通路
133 屈曲部
140 ステージ
141 下段ステージ(141g 誘導部、141w 転落防止壁)
142 上段ステージ(142g 誘導溝)
143 高段差領域
145 ガイド突片(145g 特別流下通路)
160 ユニット装着部(160a ベース支持部、160b 駆動構造収容部)
162 収容壁
163 後方壁
164 連絡流路
168 ネジボス
200 貯留機構
201 シャッターベース
202 ガイドレール
203 ソレノイド装着部
205 支ピン
210 入賞具
211 チューリップ羽根
212 入賞口
213 入球部拡大装置駆動ソレノイド
214 役物入球検出器
215 導入通路
220 貯留通路
230 排出通路
240 流路切り替え構造
242 シャッター(242p 連結ピン)
243 シャッター駆動ソレノイド
244 スライドアングル(244a,244b 駆動伝達突起)
245 スウィングアーム
250 充満検出手段
251 貯留部満杯検出器
300 振り分け機構
310 回転盤収容部
311 回転盤ベース
312 回転体ケース
320 第1回転体
322 球受け部
330 第1回転体駆動モータ
335 第1回転体モータセンサ
340 導入口
350 第1導出口
351 第1条件流路
360 第2導出口
361 第2条件流路
362 第2条件流路通過検出器
400 揚送機構
401 ガイドカバー
402 モータベース
410 揚送スクリュー
411 回転軸
412 球送りプレート
420 揚送装置駆動モータ
430 駆動力伝達構造
450 上端開口
461 後方案内流路部
462 中央案内流路部
500 回転入賞機構
505 案内流路
510 転動皿
520 第2回転体
521 特別領域通過検出器
522 遊技球排出検出器
525 球受容孔
530 第2回転体駆動モータ
600 開閉入賞機構ユニット
610 ユニットベース
611 ベース面
612 大入賞口
613 導出通路
614 導出口
615 軸受部
616 ガイド溝
617 支持部
618 ネジ挿通孔
620 開閉扉
624 軸装着部
625 揺動軸
627 リブ
630 開閉駆動構造
631 大入賞口開閉駆動ソレノイド
634 駆動伝達具
635 リンクアーム
636 リンクピン
650 大入賞口入賞検出器
660 化粧蓋
665 軸受部
700 遊技制御装置
710 役物制御手段
711 入球部拡大装置駆動制御手段
712 役物入球判定手段
713 貯留部満杯判定手段
714 シャッター駆動制御手段
715 第1回転体駆動制御手段
716 揚送装置駆動制御手段
717 遊技球排出監視手段
718 条件達成判定手段
(718a 第1条件達成判定手段、718b 第2条件達成判定手段)
720 図柄制御手段
721 図柄変動記憶手段
722 停止図柄決定手段
730 第2回転体駆動制御手段
740 特別遊技判定実行手段
741 特別遊技移行判定手段(741a 特別領域通過判定手段)
742 特別遊技実行手段(742a 大入賞口開閉駆動制御手段)
PA game area 1 game board 2 decorative panel 3 lower general prize opening 5 gate (5s gate passage detector)
6 Memory display LED
8 Out mouth 10 Central decoration 11 Window 12 Symbol display device 13 Upper general winning opening (13s winning detector)
14 Warp entrance 19 Ball cover (19a discharge channel, 19b discharge channel)
20 Composite winning device 51 Housing 52 Cover member 55 Rear frame 60 Opening / closing prize winning mechanism 100 Decoration frame 101 Base frame 102 Intermediate frame 103 Rear frame 111 Upper frame portion 112 Left frame portion 113 Right frame portion 114 Lower frame portion 115 Gutter portion 116 Central barrier Portion 120 Warp guide passage 121 Upper guide passage 122 Side guide passage 124 Warp outlet 130 Winning ball discharge passage 131 Upper discharge passage 132 Side discharge passage 133 Bending portion 140 Stage 141 Lower stage (141g guide portion, 141w fall prevention wall)
142 Upper stage (142g guide groove)
143 High step area 145 Guide protrusion (145g special downflow passage)
160 unit mounting part (160a base support part, 160b drive structure housing part)
162 Housing wall 163 Rear wall 164 Connection channel 168 Screw boss 200 Reserving mechanism 201 Shutter base 202 Guide rail 203 Solenoid mounting part 205 Support pin 210 Winning tool 211 Tulip blade 212 Winning port 213 Driving part enlarging device drive solenoid 214 Detector 215 Introduction passage 220 Storage passage 230 Discharge passage 240 Flow path switching structure 242 Shutter (242p connecting pin)
243 Shutter drive solenoid 244 Slide angle (244a, 244b drive transmission protrusion)
245 Swing arm 250 Full detection means 251 Reserving part full detector 300 Sorting mechanism 310 Rotating disk housing part 311 Rotating disk base 312 Rotating body case 320 First rotating body 322 Ball receiving part 330 First rotating body drive motor 335 First rotating body Motor sensor 340 Inlet 350 First outlet 351 First condition passage 360 Second outlet 361 Second condition passage 362 Second condition passage detector 400 Lifting mechanism 401 Guide cover 402 Motor base 410 Lifting screw 411 Rotating shaft 412 Ball feed plate 420 Lifting device drive motor 430 Driving force transmission structure 450 Upper end opening 461 Rear guide flow channel portion 462 Central guide flow channel portion 500 Rotation winning mechanism 505 Guide flow channel 510 Rolling dish 520 Second rotating body 521 Special area passage detector 522 Game ball discharge detector 525 Hole 530 Second rotator drive motor 600 Opening / closing winning mechanism unit 610 Unit base 611 Base surface 612 Large winning port 613 Deriving passage 614 Deriving port 615 Bearing portion 616 Guide groove 617 Support portion 618 Screw insertion hole 620 Opening / closing door 624 Shaft mounting portion 625 Oscillating shaft 627 Rib 630 Opening / closing drive structure 631 Large winning opening opening / closing driving solenoid 634 Drive transmission tool 635 Link arm 636 Link winning pin winning detector 660 Cosmetic cover 665 Bearing unit 700 Game control device 710 Accessory control means 711 Input Sphere expansion device drive control means 712 Included ball determination means 713 Reservoir full determination means 714 Shutter drive control means 715 First rotating body drive control means 716 Lifting device drive control means 717 Game ball discharge monitoring means 718 Condition achievement determination Means (718a First condition achieved Constant means, 718b second condition achieved determination means)
720 Symbol control means 721 Symbol variation storage means 722 Stop symbol determination means 730 Second rotating body drive control means 740 Special game determination execution means 741 Special game transition determination means (741a Special area passage determination means)
742 Special game execution means (742a big prize opening opening / closing drive control means)

Claims (1)

遊技球が落入可能な入賞口、前記入賞口に落入した遊技球を順次貯留し得る貯留通路、前記入賞口に落入した遊技球を排出させる排出通路、前記入賞口に落入した遊技球の流下経路を前記貯留通路または前記排出通路に切り替えて流下させる流路切り替え構造、前記貯留通路が貯留された遊技球で充満されたことを検出する充満検出手段、および前記流路切り替え構造の作動を制御する流路制御手段を有し、前記流路制御手段は、前記充満検出手段において前記貯留通路の充満状態が検出されていないときには前記遊技球の流下経路を前記貯留通路側に設定して前記入賞口に落入した遊技球を前記貯留通路に導き、前記充満検出手段において前記貯留通路の充満状態が検出されているときには前記遊技球の流下経路を前記排出通路側に切り替えて前記入賞口に落入した遊技球を前記排出通路に導くように構成された球貯留機構と、
前記貯留通路の下流側に設けられた回転盤収容部、外周側に遊技球を受容可能な球受け部を有して前記回転盤収容部に回動可能に設けられた球受け回転盤、前記球受け回転盤を時計廻りおよび反時計廻りに回動させる回転盤駆動構造、前記貯留通路の下流部に設けられ前記入賞口から導かれた遊技球を基準位置にある前記球受け回転盤の前記球受け部に導く導入口、前記導入口を挟んで設けられ前記球受け回転盤の回動により前記球受け部に受容されて移動された遊技球を導出する第1導出口ならびに第2導出口、および前記回転盤駆動構造の作動を制御する回転盤制御手段を有し、前記回転盤制御手段が入賞条件に基づいて前記球受け回転盤を時計廻りまたは反時計廻りに回動させ、前記基準位置において前記球受け部に受容された遊技球を前記第1導出口または第2導出口に排出させるように構成された振り分け機構と、
前記第1導出口および第2導出口の何れか一方に排出された遊技球を前記入賞口よりも上方に搬送する揚送機構と、
前記入賞口の後方に位置して設けられ遊技球が転動可能な転動皿、前記揚送機構により搬送された遊技球を前記転動皿に導く案内通路、前記転動皿に導かれて皿面上を転動した遊技球が転入可能な複数の入賞領域、前記複数の入賞領域の何れを通過したかを検出する領域通過検出手段と、前記領域通過検出手段からの信号により入賞状態を判定して遊技を実行する遊技判定実行手段とを有し、遊技判定実行手段が入賞状態に応じた遊技を実行するように構成された入賞選別機構と
を備えたことを特徴とする弾球遊技機の入賞装置。

A winning opening through which game balls can be dropped, a storage passage for sequentially storing gaming balls dropped into the winning opening, a discharge passage for discharging gaming balls dropped into the winning opening, and a game dropped into the winning opening A flow path switching structure for switching a flow path of a sphere down to the storage path or the discharge path, a fullness detecting means for detecting that the storage path is filled with a stored game ball, and a flow path switching structure Flow path control means for controlling operation, and the flow path control means sets the flow path of the game ball to the storage path side when the full state of the storage path is not detected by the fullness detection means. The game ball dropped into the winning opening is guided to the storage passage, and when the full state of the storage passage is detected by the fullness detection means, the flow path of the game ball is switched to the discharge passage side. And the ball retention mechanism game balls that 落入 the winning opening configured to direct the discharge passage Te,
A turntable housing provided on the downstream side of the storage passage, a ball receiving turntable provided rotatably on the turntable housing having a ball receiver capable of receiving a game ball on the outer peripheral side, A rotating disk drive structure for rotating the ball receiving rotating disk clockwise and counterclockwise, and the game ball provided at the downstream portion of the storage passage and guided from the winning port is in the reference position of the ball receiving rotating disk An introduction port that leads to the ball receiving portion, a first outlet port and a second outlet port that are provided across the introduction port and lead out the game balls that are received and moved by the rotation of the ball receiving rotary plate And a rotating disk control means for controlling the operation of the rotating disk drive structure, the rotating disk control means rotating the ball receiving rotating disk clockwise or counterclockwise based on a winning condition, A game ball received by the ball receiver in position A sorting mechanism configured to be discharged to the first outlet or the second outlet,
A feeding mechanism for transporting the game balls discharged to either one of the first outlet and the second outlet to a position higher than the winning opening;
A rolling dish that is provided behind the winning opening and on which a game ball can roll, a guide passage that guides the game ball conveyed by the lifting mechanism to the rolling dish, and is guided to the rolling dish A plurality of winning areas into which game balls that have rolled on the dish surface can be transferred, area passing detecting means for detecting which of the plurality of winning areas has passed, and a winning state based on a signal from the area passing detecting means A ball ball game comprising: a game determination executing means for determining and executing a game, wherein the game determination executing means includes a winning selection mechanism configured to execute a game according to a winning state Machine for winning prizes.

JP2004198567A 2004-07-05 2004-07-05 Prize-winning device for bullet ball machines Expired - Fee Related JP4539825B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP2004198567A JP4539825B2 (en) 2004-07-05 2004-07-05 Prize-winning device for bullet ball machines

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP2004198567A JP4539825B2 (en) 2004-07-05 2004-07-05 Prize-winning device for bullet ball machines

Publications (2)

Publication Number Publication Date
JP2006015081A JP2006015081A (en) 2006-01-19
JP4539825B2 true JP4539825B2 (en) 2010-09-08

Family

ID=35789825

Family Applications (1)

Application Number Title Priority Date Filing Date
JP2004198567A Expired - Fee Related JP4539825B2 (en) 2004-07-05 2004-07-05 Prize-winning device for bullet ball machines

Country Status (1)

Country Link
JP (1) JP4539825B2 (en)

Families Citing this family (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP5138302B2 (en) * 2007-07-25 2013-02-06 株式会社平和 Bullet ball machine
JP4759768B2 (en) * 2008-12-15 2011-08-31 株式会社ソフイア Game machine
JP5975670B2 (en) * 2012-02-20 2016-08-23 株式会社平和 Game machine

Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2001087481A (en) * 1999-09-27 2001-04-03 Okumura Yu-Ki Co Ltd Prize ball payout/non-payout selector and pachinko machine provided with the same
JP2003260200A (en) * 2002-03-12 2003-09-16 Aruze Corp Game machine, method for controlling the same, server, and computer program

Family Cites Families (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2640244B2 (en) * 1988-07-20 1997-08-13 株式会社平和 Pachinko machine sorting device
JP3526597B2 (en) * 1993-10-25 2004-05-17 株式会社平和 Pachinko machine sorting prize winning device
JPH0838699A (en) * 1994-07-29 1996-02-13 Masatoshi Imura Central winning device for pachinko machine
JP2771143B2 (en) * 1995-12-27 1998-07-02 株式会社高尾 Game ball sorting device

Patent Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2001087481A (en) * 1999-09-27 2001-04-03 Okumura Yu-Ki Co Ltd Prize ball payout/non-payout selector and pachinko machine provided with the same
JP2003260200A (en) * 2002-03-12 2003-09-16 Aruze Corp Game machine, method for controlling the same, server, and computer program

Also Published As

Publication number Publication date
JP2006015081A (en) 2006-01-19

Similar Documents

Publication Publication Date Title
JP4987436B2 (en) Game machine
JP2005270537A5 (en)
JP2005270537A (en) Game machine
JP3968658B2 (en) Sphere distribution member and decorative member provided with the sphere distribution member
JP4831743B2 (en) Game machine
JP2009000296A (en) Game machine
JP2006081734A (en) Game machine
JP4662329B2 (en) Game parts for ball game machines
JP4539825B2 (en) Prize-winning device for bullet ball machines
JP4231819B2 (en) Prize-winning device for bullet ball machines
JP2005185443A (en) Game machine
JP2005185443A5 (en)
JP4540099B2 (en) Game parts for ball game machines
JP2005131121A (en) Game machine
JP2006015080A (en) Game component for pachinko game machine
JP2006187339A (en) Game machine
JP4396990B2 (en) Game machine
JP4557138B2 (en) Prize-winning device for bullet ball machines
JP2007307144A (en) Game machine
JP2005342348A (en) Winning device of pinball game machine
JP2010227644A (en) Pinball game machine
JP2008237405A (en) Pachinko machine
JP4390215B2 (en) Game machine
JP4884116B2 (en) Game machine
JP4513091B2 (en) Game machine

Legal Events

Date Code Title Description
A621 Written request for application examination

Free format text: JAPANESE INTERMEDIATE CODE: A621

Effective date: 20070702

TRDD Decision of grant or rejection written
A01 Written decision to grant a patent or to grant a registration (utility model)

Free format text: JAPANESE INTERMEDIATE CODE: A01

Effective date: 20100521

A977 Report on retrieval

Free format text: JAPANESE INTERMEDIATE CODE: A971007

Effective date: 20100520

A01 Written decision to grant a patent or to grant a registration (utility model)

Free format text: JAPANESE INTERMEDIATE CODE: A01

A61 First payment of annual fees (during grant procedure)

Free format text: JAPANESE INTERMEDIATE CODE: A61

Effective date: 20100615

R150 Certificate of patent or registration of utility model

Free format text: JAPANESE INTERMEDIATE CODE: R150

FPAY Renewal fee payment (event date is renewal date of database)

Free format text: PAYMENT UNTIL: 20130702

Year of fee payment: 3

FPAY Renewal fee payment (event date is renewal date of database)

Free format text: PAYMENT UNTIL: 20130702

Year of fee payment: 3

FPAY Renewal fee payment (event date is renewal date of database)

Free format text: PAYMENT UNTIL: 20130702

Year of fee payment: 3

FPAY Renewal fee payment (event date is renewal date of database)

Free format text: PAYMENT UNTIL: 20130702

Year of fee payment: 3

R250 Receipt of annual fees

Free format text: JAPANESE INTERMEDIATE CODE: R250

LAPS Cancellation because of no payment of annual fees