JP2005177109A - Ball tray of pinball game machine - Google Patents

Ball tray of pinball game machine Download PDF

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JP2005177109A
JP2005177109A JP2003422008A JP2003422008A JP2005177109A JP 2005177109 A JP2005177109 A JP 2005177109A JP 2003422008 A JP2003422008 A JP 2003422008A JP 2003422008 A JP2003422008 A JP 2003422008A JP 2005177109 A JP2005177109 A JP 2005177109A
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ball
support surface
game
tray
passage
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Tsunekichi Oyama
恒吉 大山
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Sammy Corp
Samy KK
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Sammy Corp
Samy KK
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Abstract

<P>PROBLEM TO BE SOLVED: To provide a ball tray in which stable ball flow when the number of stored balls is small and the suppression of a ball pressure when the number of the stored balls increases, are made compatible and balls are discharged without obstructing the ball flow to a ball feeder. <P>SOLUTION: In the ball tray of a pinball game machine for aligning game balls stored in a storage guide tray 56 and making them flow down to the ball feeder, a game ball support surface is constituted of a first inclined support surface 56a on the downstream side and a second inclined support surface 56b on the upstream side which are both lowered to the downstream, the inclination angle of the second inclined support surface 56b is formed smaller than the inclination angle of the first inclined support surface 56a, a level difference 56d is provided between both, and the second inclined support surface 56b is disposed so as to be higher. Also, a first ball discharge mechanism 60 capable of making the game balls flow down to a ball discharge path is provided on the downstream side of the first inclined support surface 56a, and a second ball discharge mechanism 70 capable of merging the game balls stored on the upstream side to the ball discharge path and making them flow down is provided on the downstream part of the second inclined support surface 56b. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

本発明は、多数の遊技球を貯留し得る貯留案内皿を有し、この貯留案内皿に貯留された遊技球を整列させて球送り装置に流下させる弾球遊技機の球皿に関する。   The present invention relates to a ball tray of a ball game machine that has a storage guide tray that can store a large number of game balls and that aligns the game balls stored in the storage guide tray and flows down to a ball feeder.

上記のような球皿を備えた弾球遊技機の代表例としてパチンコ機が広く知られている。パチンコ機では、遊技盤の下側に位置する前枠の中間領域に遊技球発射装置が取り付けられ、その前方に遊技球を遊技球発射装置に供給する球皿が設けられている。球皿には多数の遊技球を貯留可能な貯留案内皿が前方に突出して設けられており、球皿の背面側に設けられた球送り装置により、貯留案内皿に貯留された遊技球が1球ずつ遊技球発射装置に送り出され、遊技球発射装置のハンマに叩打されて遊技盤に打ち出されるように構成されている。   Pachinko machines are widely known as a representative example of a ball game machine equipped with the above-described ball tray. In the pachinko machine, a game ball launching device is attached to an intermediate region of the front frame located on the lower side of the game board, and a ball tray for supplying the game ball to the game ball launching device is provided in front of the game ball launching device. The ball tray is provided with a storage guide tray that can store a large number of game balls and projects forward. A ball feeding device provided on the back side of the ball tray allows the game balls stored in the storage guide tray to be 1 Each ball is sent out to the game ball launching device, hit by the hammer of the game ball launching device, and launched into the game board.

貯留案内皿は、遊技者が球貸し機から借り入れた遊技球を投入し、また貯留された遊技球が減少したときに遊技者が逐次球箱等から補給できるように、周囲が囲壁で囲まれた上面開放の皿形状になっている。この貯留案内皿の皿面、すなわち遊技球を支持する支持面は、貯留された遊技球が自重で滑らかに転動流下し囲壁に案内されて1列に整列するように、下流側の球送り出し機構に向けて下傾する傾斜姿勢とされ、上流側から下流側まで一定の傾斜角度(通常3.5〜4.5度程度の傾斜角)をもつ平坦な傾斜支持面になっている(例えば、特許文献1を参照)。
特許第2551888号公報(第3ページ、第6,7図)
The storage guide tray is surrounded by a surrounding wall so that the player can throw in the game balls borrowed from the ball lending machine, and when the stored game balls decrease, the player can replenish them from the ball box, etc. It has a dish shape with an open top surface. The storage surface of the storage guide plate, that is, the support surface that supports the game ball, is used to feed the downstream ball so that the stored game ball can roll smoothly under its own weight and be guided by the surrounding wall and aligned in a row. The inclined posture is inclined downward toward the mechanism, and is a flat inclined support surface having a constant inclination angle (normally an inclination angle of about 3.5 to 4.5 degrees) from the upstream side to the downstream side (for example, Patent Document 1). See).
Japanese Patent No. 2551888 (3rd page, FIGS. 6 and 7)

なお、現在遊技に供されているパチンコ機には、単一の球皿を有する構成形態のパチンコ機と上下2段の球皿を有する構成形態のパチンコ機とがあるが、上下2段の球皿構成の場合には、通常上段の上球皿が、上記のように遊技球の貯留機能と球送り装置に整列させて流下させる流下案内機能とを兼ね備えた貯留案内皿として構成されている。また上記いずれの構成形態のパチンコ機においても、例えば遊技終了時に貯留案内皿に貯留されていた遊技球を排出させる球抜き機構が設けられている。球抜き機構は、貯留案内皿から球送り装置に導く案内通路に停留された遊技球をも全量排出させるために、案内通路の終端部に設けられており、案内通路終端部の通路壁の一部を開閉操作して遊技球を球抜き通路に流下させるように構成されている。   Note that pachinko machines currently used in games include pachinko machines with a single ball tray and pachinko machines with two upper and lower ball trays. In the case of the dish configuration, the upper ball tray in the upper stage is normally configured as a storage guide tray that has both the storage function of game balls and the flow-down guide function of flowing down in alignment with the ball feeder. In any of the above-described pachinko machines, for example, a ball removal mechanism for discharging the game balls stored in the storage guide tray at the end of the game is provided. The ball removal mechanism is provided at the end portion of the guide passage to discharge all the game balls stopped in the guide passage leading from the storage guide tray to the ball feeding device. The game ball is caused to flow down into the ball passage by opening and closing the part.

しかしながら、上記のような従来の球皿では、貯留案内皿の支持面が一定傾斜角の斜面であったことから、設定された傾斜角度と貯留案内皿に貯留される遊技球の数量によって下流側の遊技球に作用する圧力が大きく変化し、その結果として遊技球の流下状態(球流れ)に大きな差異が生じていた。   However, in the conventional ball tray as described above, since the support surface of the storage guide tray is an inclined surface having a constant inclination angle, the downstream side depends on the set inclination angle and the number of game balls stored in the storage guide tray. The pressure acting on the game ball greatly changed, and as a result, there was a large difference in the flow-down state (ball flow) of the game ball.

すなわち、支持面の傾斜角度を小さく設定すると、貯留案内皿に貯留された遊技球(以下「貯留球」という)の数量変化に伴う下流側の遊技球の圧力変化は小さくなるが、貯留案内皿に載置した遊技球が滑らかに流下しなかったり、転動していた遊技球がわずかな抵抗で途中で停止してしまうことがあり、これを遊技者が逐一手で押し流さなければならないとすれば煩雑に耐えない。一方、支持面の傾斜角を大きく設定すれば、多少の抵抗があっても遊技球を確実に流下させることができるが、貯留球の数量変化に伴う下流側の遊技球の圧力変化が大きくなり、貯留球数が多いときに下流側の遊技球に作用する圧力が過大になって、球通路の屈曲部で球詰まりを起こしたり、球送り装置に作用する負荷が増大して作動不良を発生させたりするおそれが高くなる。   That is, when the inclination angle of the support surface is set to a small value, the pressure change of the downstream game ball due to the change in the number of game balls stored in the storage guide tray (hereinafter referred to as “storage balls”) decreases, but the storage guide tray The game ball placed on the board may not flow smoothly, or the rolling game ball may stop halfway with a slight resistance, and the player must push it down one by one. If it does not endure complexity. On the other hand, if the inclination angle of the support surface is set to be large, the game ball can flow down reliably even if there is some resistance, but the pressure change of the downstream game ball with the change in the number of stored balls increases. When the number of stored balls is large, the pressure acting on the downstream game ball becomes excessive, causing ball clogging at the bent part of the ball passage or increasing the load acting on the ball feeding device, resulting in malfunction There is a high risk that

このため、貯留案内皿の傾斜角の設定は極めて微妙な設計事項とされ、使用材料自身の材料特性や加工後の表面性状、遊技施設における使用環境等について永い経験を有する技術者が、多数の実験を繰り返して決定せざるを得ないという実情があり、貯留球数が少ない状態で安定した球流れを確保しつつ、貯留球数が増大したときにも下流側の遊技球に対する圧力が過大にならないような新たな設計手法が求められていた。   For this reason, the setting of the inclination angle of the storage guide tray is considered to be an extremely delicate design matter.Many engineers who have long experience in the material properties of the materials themselves, the surface properties after processing, the usage environment in amusement facilities, etc. There is a fact that it must be determined by repeating the experiment, and while maintaining a stable ball flow with a small number of stored balls, the pressure on the game ball on the downstream side is excessive when the number of stored balls increases There was a need for new design techniques that would not be possible.

また、従来球皿に設けられていた球抜き機構は、貯留案内皿に貯留された遊技球を球送り装置に導く案内通路の終端部に設けられていたため、遊技球の発射と球抜きとを両立させることが困難であり、例えば遊技中に大当たりが発生して球皿の遊技球を抜きたいときに、遊技を安定して打ち出しながら球抜きを行うことが難しいという問題があった。   Further, since the ball removing mechanism conventionally provided in the ball tray is provided at the end portion of the guide passage for guiding the game ball stored in the storage guide tray to the ball feeding device, the ball discharge and ball removal are performed. For example, when a big hit occurs during a game and it is desired to remove the game ball from the ball tray, it is difficult to remove the ball while stably launching the game.

本発明はこのような事情に鑑みてなされたものであり、貯留球数が少ない状態での安定した球流れと、貯留球数が増大した状態での下流側の遊技球に対する圧力の抑制とを両立させた球皿を提供するとともに、球送り装置への球流れを妨げることなく球抜き可能な球皿を提供することを目的とする。   The present invention has been made in view of such circumstances, and includes stable ball flow in a state where the number of stored balls is small, and suppression of pressure on a downstream game ball in a state where the number of stored balls is increased. An object of the present invention is to provide a ball tray that can be removed without disturbing the flow of the ball to the ball feeding device.

上記目的達成のため、本発明は、多数の遊技球を貯留し得る貯留案内皿を有し、この貯留案内皿に貯留された遊技球を整列させて球送り装置に流下させる弾球遊技機の球皿において、貯留案内皿における遊技球の支持面を、ともに下流に向けて低くなる下流側の第1傾斜支持面(例えば、実施形態における流下案内部56aの流下支持面)と上流側の第2傾斜支持面(例えば、実施形態における球貯留部56bの貯留支持面)とから構成する。そしてこれら二つの傾斜支持面における第2傾斜支持面の傾斜角を第1傾斜支持面の傾斜角よりも小さく形成するとともに、第1傾斜支持面と第2傾斜支持面との接続部に段差を設け、当該接続部において第2傾斜支持面が第1傾斜支持面よりも高くなるように配設する。また、第1傾斜支持面の下流側に、球送り装置に遊技球を導く通路壁の一部を開閉操作して貯留案内皿に貯留された遊技球を球抜き通路に流下可能な第1球抜き機構を設けるとともに、第2傾斜支持面における下流部に、当該第2傾斜支持面の一部を開閉操作して貯留案内皿の上流側に貯留された遊技球を球抜き通路に合流させて流下可能な第2球抜き機構を設けて弾球遊技機の球皿を構成する。   In order to achieve the above-mentioned object, the present invention has a storage guide tray that can store a large number of game balls. In the ball tray, the support surface of the game ball in the storage guide tray is lowered toward the downstream side with the first inclined support surface on the downstream side (for example, the flow-down support surface of the flow-down guide portion 56a in the embodiment) and the upstream-side first. 2 inclined support surfaces (for example, the storage support surface of the sphere storage unit 56b in the embodiment). The inclination angle of the second inclined support surface between these two inclined support surfaces is made smaller than the inclination angle of the first inclined support surface, and a step is formed at the connecting portion between the first inclined support surface and the second inclined support surface. And the second inclined support surface is arranged to be higher than the first inclined support surface in the connection portion. In addition, a first sphere capable of flowing down the game ball stored in the storage guide tray to the ball removal passage by opening and closing a part of the passage wall that guides the game ball to the ball feeder on the downstream side of the first inclined support surface. A punching mechanism is provided, and at the downstream portion of the second inclined support surface, a part of the second inclined support surface is opened and closed so that the game balls stored on the upstream side of the storage guide plate are joined to the ball discharge passage. A second ball removal mechanism that can flow down is provided to constitute a ball tray of a ball game machine.

このような球皿では、貯留案内皿における遊技球の支持面がともに下流に向けて低くなる下流側の第1傾斜支持面と上流側の第2傾斜支持面とから構成され、これら二つの傾斜支持面における第2傾斜支持面の傾斜角が第1傾斜支持面の傾斜角よりも小さく形成される。このため、貯留案内皿に貯留された遊技球が少ない状態では、貯留球は傾斜角度が比較的急な下流側の第1傾斜支持面に配設されるため、この比較的急な傾斜角度によって確実に下流側(球送り装置側)に向けて転動流下する。一方、貯留案内皿に貯留された遊技球が増大すると、新たに貯留される貯留球は傾斜角度が比較的緩い上流側の第2傾斜支持面に貯留されるため、下流側の遊技球に作用する圧力が傾斜角度の減少分に応じて抑制される。従って、本構成によれば、貯留球数が少ない状態での安定した球流れと、貯留球数が増大した状態での下流側の遊技球に対する圧力の抑制とを両立させた球皿を提供することができる。   Such a ball tray is composed of a first inclined support surface on the downstream side and a second inclined support surface on the upstream side in which both the support surfaces of the game balls in the storage guide tray are lowered toward the downstream. The inclination angle of the second inclined support surface on the support surface is formed smaller than the inclination angle of the first inclined support surface. For this reason, in a state where the number of game balls stored in the storage guide tray is small, the stored balls are disposed on the first inclined support surface on the downstream side where the inclination angle is relatively steep. Rolling down reliably toward the downstream side (ball feeder side). On the other hand, when the number of game balls stored in the storage guide plate increases, the newly stored storage balls are stored on the second inclined support surface on the upstream side with a relatively gentle inclination angle, so that they act on the downstream game balls. The pressure to be suppressed is suppressed according to the decrease in the tilt angle. Therefore, according to the present configuration, a ball tray is provided that achieves both stable ball flow with a small number of stored balls and suppression of pressure on the downstream game ball with a large number of stored balls. be able to.

また、第1傾斜支持面と第2傾斜支持面との接続部に段差を設け、段差の前後(上下流方向における前後)において、上流側の第2傾斜支持面が下流側の第1傾斜支持面よりも高くなるように配設する。このような構成の球皿では、段差を挟む第1及び第2傾斜支持面に遊技球が貯留されている状態において、第2傾斜支持面側に貯留された遊技球は、段差により斜め下方に位置する第1傾斜支持面側の遊技球と、斜め上下の位置関係で球面接触する。一方、第2傾斜支持面に貯留された遊技球の圧力(流下方向のベクトルP)は、第2傾斜支持面に沿った方向に作用している。このため、第2傾斜支持面側の遊技球から第1傾斜支持面側の遊技球に作用する力は、第2傾斜支持面に沿った流下方向のベクトルPを、球心同士を結ぶ当接方向のベクトル成分Pと、これに直交する方向のベクトル成分Pとに分解したときの当接方向のベクトル成分Pとなり、段差を設けずに直接当接させた場合の圧力Pよりも明らかに小さくすることができる。従って、下流側の第1傾斜支持面と上流側の第2傾斜支持面との間にこのような段差を設ける構成により、貯留案内皿に貯留される遊技球が増大したときの下流側の遊技球に作用する圧力をさらに抑制して、安定した球流れと下流側の遊技球に対する圧力の抑制とを両立させた球皿を提供することができる。 Further, a step is provided at the connecting portion between the first inclined support surface and the second inclined support surface, and the upstream second inclined support surface is the downstream first inclined support before and after the step (front and rear in the upstream and downstream directions). It arrange | positions so that it may become higher than a surface. In the ball tray having such a configuration, in a state where the game balls are stored on the first and second inclined support surfaces sandwiching the step, the game balls stored on the second inclined support surface side are inclined downward by the step. Spherical contact is made with the game balls on the side of the first inclined support surface located in a diagonally up and down positional relationship. On the other hand, the pressure of the game ball stored on the second inclined support surface (vector P in the flow direction) acts in a direction along the second inclined support surface. For this reason, the force acting on the game ball on the first inclined support surface side from the game ball on the second inclined support surface side makes contact with the vector P in the flow direction along the second inclined support surface and connects the ball centers to each other. It becomes the vector component P 1 in the contact direction when the vector component P 1 in the direction and the vector component P 2 in the direction orthogonal to the direction are decomposed, and is higher than the pressure P in the case of direct contact without providing a step. Obviously it can be made smaller. Therefore, by providing such a step between the first inclined support surface on the downstream side and the second inclined support surface on the upstream side, the game on the downstream side when the number of game balls stored in the storage guide tray increases. It is possible to provide a ball tray that further suppresses the pressure acting on the sphere and achieves both a stable sphere flow and the suppression of the pressure on the downstream game ball.

さらに、第1傾斜支持面の下流側に、球送り装置に遊技球を導く通路壁の一部を開閉して遊技球を球抜き通路に流下させる第1球抜き機構、すなわち従来と同様の球抜き機構が設けられたうえ、第2傾斜支持面の下流部に、第2傾斜支持面の一部を開閉して貯留案内皿の上流側に貯留された遊技球を球抜き通路に合流させて流下させる第2球抜き機構が併せて設けられている。このため、第1傾斜支持面側から球送り装置に流下する遊技球の球流れを妨げることなく第2球抜き機構を利用して遊技球の球抜きを行うことができ、遊技球を安定して発射しながら球抜きを行うことができる。一方、遊技終了時には、第1球抜き機構と第2球抜き機構とを併用して球抜きを行うことにより、第1球抜き機構のみではとかく時間がかかるとされた球抜き作業を迅速に終了させることができる。また上述した第1傾斜支持面と第2傾斜支持面との間に設けられた段差の効果により、球抜き操作によって第2傾斜支持面側に貯留された遊技球の圧力が変化してもその影響を緩和させることができ、下流側の遊技球への圧力変化を抑制して安定した球流れを確保することができる。さらに、第2球抜き機構を第1球抜き機構の球抜き通路に合流させる構成により、遊技機本体側に変更を加えることなく、既存の遊技機については球皿を交換するだけで、上記種々の効果を有した弾球遊技機を得ることができる。   Further, on the downstream side of the first inclined support surface, a first ball removing mechanism that opens and closes a part of the passage wall that guides the game ball to the ball feeding device and flows down the game ball to the ball removal passage, that is, a ball similar to the conventional ball. A punching mechanism is provided, and a part of the second inclined support surface is opened and closed at the downstream portion of the second inclined support surface, and the game balls stored on the upstream side of the storage guide tray are joined to the ball discharge passage. A second ball removal mechanism for flowing down is also provided. Therefore, it is possible to remove the game ball using the second ball removal mechanism without interfering with the ball flow of the game ball flowing down from the first inclined support surface side to the ball feeder, thereby stabilizing the game ball. The ball can be removed while firing. On the other hand, at the end of the game, by using both the first ball removal mechanism and the second ball removal mechanism to perform ball removal, the ball removal operation, which would have taken time for the first ball removal mechanism alone, is quickly completed. Can be made. In addition, due to the effect of the step provided between the first inclined support surface and the second inclined support surface described above, even if the pressure of the game ball stored on the second inclined support surface side changes due to the ball removal operation, The influence can be mitigated, and a stable change of the ball flow can be secured by suppressing the pressure change to the game ball on the downstream side. Furthermore, the configuration in which the second ball removing mechanism is joined to the ball removing passage of the first ball removing mechanism allows the above-mentioned various types of game machines to be replaced by simply replacing the ball tray without changing the game machine body side. It is possible to obtain a ball game machine having the following effects.

以下、本発明を実施するための形態について、図面を参照しながら説明する。本発明に係る球皿を備えた弾球遊技機の代表例として、図1および図2にパチンコ機の正面図および背面図を、図3に図1中のIII〜矢視方向に見た平断面図を、図4に図1中のIV−IV矢視方向に見た側断面図を示しており、まずこれらの図面を参照してパチンコ機PMの全体概要について説明する。なお図1、図2では、上球皿全体の背面および正面を示すため、機体前面側のガラス扉および上球皿を擬似的に180度開放した状態で各図を示している。   Hereinafter, embodiments for carrying out the present invention will be described with reference to the drawings. As a representative example of a ball game machine equipped with a ball tray according to the present invention, FIG. 1 and FIG. 2 are a front view and a rear view of a pachinko machine, and FIG. 3 is a plan view as viewed in the direction of arrows III in FIG. FIG. 4 is a side sectional view of FIG. 4 as viewed in the direction of arrows IV-IV in FIG. 1. First, an overall outline of the pachinko machine PM will be described with reference to these drawings. In FIGS. 1 and 2, in order to show the back and front of the entire upper ball tray, each figure is shown with the glass door and the upper ball tray on the front side of the machine body opened in a pseudo manner by 180 degrees.

パチンコ機PMは、外郭方形枠サイズに構成されて縦向きの固定保持枠をなす外枠1の開口前面に、これに合わせた方形枠サイズに構成された開閉搭載用の前枠2が互いの正面左側上下に配設されたヒンジ機構により前方に横開き開閉および着脱が可能に取り付けられ、正面右側に設けられた施錠装置を利用して常には外枠1と係合連結された閉止状態に保持される。   In the pachinko machine PM, the front frame 2 for opening and closing mounted on the front surface of the outer frame 1 that is configured to have a rectangular frame size and forms a vertically fixed holding frame is arranged on the front surface of the opening and closing mounted to each other. A hinge mechanism disposed on the upper left and lower sides of the front side is attached to the front so that it can be opened / closed and attached / detached, and is always in a closed state engaged and connected to the outer frame 1 using a locking device provided on the right side of the front. Retained.

前枠2の表側(前面側)上部には、ガラス扉3が前方に横開き開閉および着脱可能に取り付けられ、正面右側に設けられた施錠装置を利用して常には前枠2の前面を覆う閉止状態に保持される。ガラス扉3の背後に位置する前枠上部には、遊技盤10を着脱可能に収容する収容枠が設けられており、この収容枠に立設姿勢で係止保持された遊技盤10がガラス扉3を通して視認されるようになっている。遊技盤10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11を基板とし、半円弧状の外レール12および内レール13に囲まれて略円形の遊技領域PAが形成される。遊技領域PAには多数本の遊技釘や風車とともに各種の入賞具14、遊技の展開状況に応じた図柄を表示させる画像表示装置15、サイドランプなどの遊技構成部品が取り付けられ、下端部にアウト口18が設けられて構成される。   A glass door 3 is attached to the front side (front side) upper part of the front frame 2 so that it can be opened / closed / removed sideways and covers the front side of the front frame 2 using a locking device provided on the right side of the front. It is kept closed. An upper part of the front frame located behind the glass door 3 is provided with an accommodation frame for detachably accommodating the game board 10, and the game board 10 latched and held in an upright posture on the accommodation frame is provided with the glass door. 3 is visible. The game board 10 uses a decorative board 11 in which cells are attached to the surface of a laminated plywood having a predetermined thickness as a substrate, and is surrounded by a semicircular arc outer rail 12 and an inner rail 13, and is a substantially circular game area PA. Is formed. In the game area PA, there are a large number of game nails and windmills as well as various prize-winning devices 14, an image display device 15 for displaying symbols according to the game development status, and game components such as side lamps. A mouth 18 is provided and configured.

前枠2の表側中間部には、遊技補助盤と称される補助機構部が設けられている。遊技補助盤20には、遊技球発射装置21のハンマーに叩打された遊技球をガイドし遊技盤の外レール12に向けて発射させる発射レール22、次述する上球皿の通出樋55と裏セット盤の上払出通路45との間を繋ぐ傾斜通路状に形成された上通出口25、遊技の展開状況に応じた効果音を発生させるスピーカを保持するとともにファール球回収通路等を形成するスピーカーカバー31などが設けられている。   An auxiliary mechanism portion called a game auxiliary board is provided in the front side intermediate portion of the front frame 2. The game auxiliary board 20 includes a launch rail 22 that guides the game ball hit by the hammer of the game ball launcher 21 and launches it toward the outer rail 12 of the game board, and an upper bowl tray outlet 55 described below. The upper outlet 25 formed in the shape of an inclined passage connecting the upper set-off passage 45 to the back set board, a speaker for generating sound effects according to the game development status, and a foul ball collection passage are formed. A speaker cover 31 and the like are provided.

遊技補助盤20の前方に、上球皿5がヒンジ機構4により横開き開閉および着脱可能に取り付けられ、正面右側に設けられた球皿施錠装置を利用して常には遊技補助盤の前面を覆う閉止状態に保持される。上球皿5には、前面側に遊技球を貯留する貯留案内皿56が設けられるとともに、背面側の左上部には上球皿5を閉止した状態で遊技補助盤側の上通出口25と連絡するダクト状の通出樋55が後方に突出して形成されており、上通出口25から流入する遊技球を貯留案内皿56に流下させるようになっている。また上球皿5の背面右側には上球皿5を閉止した状態で発射レール22と整合する位置に球送り装置59が設けられており、貯留案内皿56に貯留された遊技球を1球ずつ発射レール22に送り出すように構成されている。   The upper ball tray 5 is attached to the front of the game assisting board 20 by the hinge mechanism 4 so as to be opened / closed and detachable sideways, and always covers the front of the game assisting board using the ball dish locking device provided on the right side of the front. It is kept closed. The upper ball tray 5 is provided with a storage guide tray 56 for storing game balls on the front side, and the upper outlet 25 on the side of the game auxiliary board with the upper ball tray 5 closed in the upper left part on the back side. A communicating duct-shaped outlet 55 is formed to protrude rearward, so that the game ball flowing in from the upper outlet 25 flows down to the storage guide tray 56. Further, a ball feeding device 59 is provided on the right side of the back of the upper ball tray 5 at a position aligned with the firing rail 22 in a state where the upper ball tray 5 is closed, and one game ball stored in the storage guide tray 56 is received. It is comprised so that it may send out to the firing rail 22 one by one.

前枠2の表側下部には、上面開放形態の下球皿7が前方に突出して取り付けられ、前枠2の裏側下部には上面および前面に開口を有する箱状の下球皿連絡バケット37が取り付けられて、この下球皿7と下球皿連絡バケット37とが前枠2を前後に貫通する下通出口27で連絡されている。下球皿7の正面右側には遊技球の発射操作を行う発射ハンドル8が取り付けられている。   A lower ball tray 7 with an open top surface is attached to the front lower portion of the front frame 2 so as to protrude forward, and a box-shaped lower ball tray connecting bucket 37 having openings on the upper surface and the front surface is mounted on the lower side of the front frame 2. The lower ball tray 7 and the lower ball tray communication bucket 37 are connected to each other through a lower outlet 27 that penetrates the front frame 2 back and forth. On the right side of the front of the lower ball tray 7, a firing handle 8 for performing a game ball firing operation is attached.

前枠2の裏側(後面側)には、裏セット盤40が前枠2の後方に横開き開閉および着脱可能に取り付けられている。裏セット盤40には、払い出し用の遊技球を貯留する球貯留タンク41、球貯留タンク41に貯留された遊技球を整列させて流下させるタンクレール42、タンクレール42から導かれた遊技球を入賞状態に応じて払い出す球払出装置43、球払出装置43の直下に位置して設けられ球払出装置43から払い出された遊技球を上球皿5に導く上払出通路45、上払出通路45と隣接して形成され上払出通路から溢れ出た遊技球を下球皿7に導く下払出通路47、上払出通路45と下払出通路47とを仕切る仕切壁44の上方に設けられ両球通路を連絡する溢れ球通路46、入賞具14に落入して化粧板11の裏面側に導かれたセーフ球およびアウト口18を通って化粧板11の裏面側に導かれたアウト球を集合させて遊技島の回収装置に導く遊技済み球排出通路48などが設けられている。裏セット盤40の背面には、電源基板や主制御基板、払出制御基板などの各種回路基板が取り付けられ、各電装部品がコネクタケーブルで接続されてパチンコ機PMが構成される。   On the back side (rear side) of the front frame 2, a back set board 40 is attached to the rear side of the front frame 2 so as to be laterally openable and detachable. The back set board 40 has a ball storage tank 41 for storing game balls for payout, a tank rail 42 for aligning and flowing down the game balls stored in the ball storage tank 41, and game balls guided from the tank rail 42. A ball payout device 43 that pays out in accordance with the winning state, an upper payout passage 45 that is provided directly below the ball payout device 43 and guides the game balls paid out from the ball payout device 43 to the upper ball tray 5, and an upper payout passage 45, which is provided adjacent to the upper payout passage 47, which is formed adjacent to the upper payout passage 45 and leads to the lower ball tray 7, and above the partition wall 44 which partitions the upper payout passage 45 and the lower payout passage 47. An overflow ball passage 46 that communicates the passage, a safe ball that has fallen into the winning device 14 and led to the back side of the decorative plate 11 and an out ball that has been led to the back side of the decorative plate 11 through the out port 18 are gathered. Let's lead to the collection device on the amusement island It is provided such technique already ball discharge passage 48. Various circuit boards such as a power supply board, a main control board, and a payout control board are attached to the back of the back set board 40, and each electrical component is connected by a connector cable to constitute a pachinko machine PM.

パチンコ機PMは、上球皿5およびガラス扉3が閉止施錠された状態で遊技に供され、上球皿5に遊技球を貯留させて発射ハンドル8の操作レバーを回動操作することにより遊技が開始される。操作レバーが回動操作されると、上球皿5に貯留された遊技球が球送り装置59によって1球ずつ発射レール22に送り出され、遊技球発射装置21のハンマーに打ち出されて遊技領域PAに導かれる。   The pachinko machine PM is used in a game in which the upper ball tray 5 and the glass door 3 are closed and locked, and the game ball is stored in the upper ball tray 5 and the operation lever of the launch handle 8 is rotated. Is started. When the operation lever is turned, the game balls stored in the upper ball tray 5 are sent one by one to the launch rail 22 by the ball feeding device 59, and are launched by the hammer of the game ball launching device 21 to play the game area PA. Led to.

遊技領域PAに到達した遊技球は、遊技領域内の多数の遊技釘や風車に弾かれながら遊技領域PAを転動落下し、この落下過程で入賞具14に落入して化粧板11の裏面側に導かれ、あるいは入賞具14に落入することなく落下してアウト口18を通って化粧板11の裏面側に導かれ、ともに裏セット盤40の遊技済み球排出通路48を通って遊技島の回収装置に排出される。各入賞具には入賞した遊技球を検出する入賞球検出器が設けられてその検出信号が主制御基板に出力されており、主制御基板は入賞検出信号に基づいた払出信号を払出制御基板を介して球払出装置43に出力し、球払出装置43は払出信号に応じた所定数量の遊技球を払い出す。   The game ball that has reached the game area PA rolls and falls in the game area PA while being played by a large number of game nails and windmills in the game area. It is guided without being dropped into the winning device 14 and falls through the out port 18 and is led to the back side of the decorative board 11, and both play through the game ball discharge passage 48 of the back set board 40. It is discharged to the island collection device. Each winning tool is provided with a winning ball detector for detecting a winning game ball, and the detection signal is output to the main control board. The main control board outputs a payout signal based on the winning detection signal to the payout control board. The ball payout device 43 pays out a predetermined number of game balls according to the payout signal.

球払出装置43から払い出された遊技球は、通常では、払出通路内に形成された仕切壁44により上払出通路45に導かれ、前枠2を貫通する上通出口25および上球皿5に形成された通出樋55を通って貯留案内皿56に導かれる。そして、この貯留案内皿56を流下する過程で整列されて待機され、球送り装置59により順次発射レール22に送り出されて遊技領域PAに打ち出される。なお、貯留案内皿56が満杯になり上払出通路45が仕切壁44の上端まで充満された状態でさらに遊技球が払い出されたときには、払い出された遊技球が仕切壁44を越えて下払出通路47側に溢れ、あるいは溢れ球通路46を経由して下払出通路47に流入し、下払出通路47から下球皿連絡バケット37および下通出口27を通って下球皿7に導かれる。   The game balls paid out from the ball payout device 43 are normally guided to the upper payout passage 45 by a partition wall 44 formed in the payout passage, and the upper outlet 25 and the upper ball tray 5 penetrating the front frame 2. Is guided to the storage guide tray 56 through the outlet 55 formed in Then, in the process of flowing down the storage guide tray 56, they are aligned and waited, and are sequentially sent out to the launch rail 22 by the ball feeding device 59 and launched into the game area PA. In addition, when the game balls are paid out in a state where the storage guide tray 56 is full and the upper payout passage 45 is filled up to the upper end of the partition wall 44, the paid-out game balls pass over the partition wall 44. It overflows to the payout passage 47 side or flows into the lower payout passage 47 via the overflow ball passage 46 and is guided from the lower payout passage 47 to the lower ball tray 7 through the lower ball tray connecting bucket 37 and the lower outlet 27. .

一方、遊技補助盤20に取り付けられたスピーカーカバー31の背後では、発射レール22と外レール12との間が所定間隔隔てられて上方に開くファール球回収口32が形成され、その下側にファール球回収口32に落入したファール球を流下させるファール球回収通路33が形成されている。また上通出口25の下側では、カバー部が前方に張り出されて上方に開く球受け口35が形成され、その下側に球受け口35に落入したこぼれ球を流下させるこぼれ球回収通路36が形成されている。   On the other hand, behind the speaker cover 31 attached to the game assisting board 20, a foul ball collection port 32 is formed which is spaced apart from the firing rail 22 and the outer rail 12 and opens upward. A foul ball collection passage 33 is formed through which the foul ball dropped into the ball collection port 32 flows down. Further, a ball receiving port 35 is formed below the upper outlet 25 so that the cover portion extends forward and opens upward, and a spilled ball collection passage 36 that allows the spilled ball that has fallen into the ball receiving port 35 to flow downward. Is formed.

ファール球回収通路33は、遊技補助盤の左右略中央部でこぼれ球通路36に合流し、前枠2を上下に貫通して形成された集合回収口26を介して下球皿連絡バケット37に繋がっている。これにより、遊技領域PAに到達できずにファール球回収口32に落入したファール球、および上球皿開放時に球受け口35に流入したこぼれ球が、それぞれファール球通路33およびこぼれ球回収通路36を通って集合回収口26から下球皿連絡バケット37に流下し、下通出口27を通って下球皿7に導かれる。また集合開口26の直上部ではスピーカーカバー31の一部切り欠かれて抜き球受容口38が形成されており、この抜き球受容口38に流入した遊技球が集合回収口26〜下球皿連絡バケット37〜下通出口27を通って下球皿7に導かれるようになっている。   The foul ball collecting passage 33 joins the spilling ball passage 36 at the substantially right and left central portions of the game assisting board, and is connected to the lower ball tray connecting bucket 37 through the collective collecting port 26 formed through the front frame 2 vertically. It is connected. As a result, the foul ball that has fallen into the foul ball collection port 32 without reaching the game area PA, and the spilled ball that has flowed into the ball receiving port 35 when the upper ball tray is opened, respectively, are the foul ball passage 33 and the spilled ball collection passage 36. Then, it flows down from the collection / recovery port 26 to the lower ball tray connecting bucket 37 and is guided to the lower ball tray 7 through the lower outlet 27. Further, a part of the speaker cover 31 is cut out immediately above the collective opening 26 to form a ball receiving port 38, and the game balls flowing into the ball receiving port 38 are connected to the collective collecting port 26 to the lower ball tray. It is guided to the lower ball tray 7 through the bucket 37 to the lower outlet 27.

さて以上のように概要構成されるパチンコ機PMにあって、上球皿5に本発明に係る球皿構成が適用されており、以降では、図5〜図10の各図を併せて参照しながら、上球皿5について詳細に説明する。ここで、図5〜図10の各図について予め概要説明すると、図5は球送り装置59を取り外した状態で第1球抜き機構60を主として示す上球皿5の背面図、図6は第2球抜き機構70を主として示す上球皿5の背面図、図7は上球皿5を分解した状態で示す第2球抜き機構70の分解斜視図、図8は第2球抜き機構70の正面図(部分断面図)、図9は第2球抜き機構近傍の球通路を主として示す平断面図、図10は貯留案内皿56に形成された段差およびこの段差を挟む支持面の傾斜角度の関係を示す説明図(背面図)である。   Now, in the pachinko machine PM schematically configured as described above, the ball tray configuration according to the present invention is applied to the upper ball tray 5, and hereinafter, the drawings of FIGS. However, the upper ball tray 5 will be described in detail. 5 to 10 will be briefly described in advance. FIG. 5 is a rear view of the upper ball tray 5 mainly showing the first ball removing mechanism 60 with the ball feeding device 59 removed, and FIG. FIG. 7 is an exploded perspective view of the second ball removal mechanism 70 shown with the upper ball tray 5 disassembled, and FIG. 8 is a view of the second ball removal mechanism 70. FIG. 9 is a plan sectional view mainly showing a spherical passage in the vicinity of the second ball removal mechanism, and FIG. 10 is a step formed in the storage guide tray 56 and an inclination angle of a support surface sandwiching the step. It is explanatory drawing (rear view) which shows a relationship.

上球皿5は、前枠2の横幅寸法に合わせた横長方形状のあて板51と、このあて板51の前面側に取り付けられて前方に突出する椀状の外装体52と、あて板51と外装体52との間に挟持された皿本体53を主要構造体として構成され、第1球抜き機構60および第2球抜き機構70が組み付けられた皿本体53を外装体52に取り付け、これらをあて板51の前面側に嵌着してあて板51の背面側からねじ固定することにより一体に形成される。   The upper ball tray 5 includes a rectangular plate 51 that matches the width of the front frame 2, a bowl-shaped exterior body 52 that is attached to the front side of the plate 51 and protrudes forward, and a plate 51 The dish body 53 sandwiched between the outer body 52 and the exterior body 52 is configured as a main structure, and the dish body 53 assembled with the first ball removal mechanism 60 and the second ball removal mechanism 70 is attached to the exterior body 52. Is formed on the front surface side of the contact plate 51 and is fixed by screws from the rear surface side of the contact plate 51.

皿本体53は、大別的には遊技球を貯留する貯留案内皿56と、この貯留案内皿の下側に形成された通路形成部とからなり、例えばABS樹脂などの樹脂材料を用いて、射出成型等の成形手段により一体に形成される。貯留案内皿56は全体として右傾した平皿状をなし、図3に示すように、平面視における中央から左側の上流部に半円状の球貯留部56bが形成され、中央から右側の下流部に先細状の流下案内部56aが形成され、遊技球を1列の整列状態で待機させる発射球整列通路57に繋がっている。   The plate body 53 is roughly composed of a storage guide plate 56 for storing game balls and a passage forming part formed below the storage guide plate. For example, using a resin material such as ABS resin, It is integrally formed by molding means such as injection molding. As shown in FIG. 3, the storage guide tray 56 has a flat plate shape inclined rightward, and a semicircular sphere storage portion 56 b is formed from the center to the left upstream portion in plan view, and from the center to the right downstream portion. A tapered flow-down guide portion 56a is formed, and is connected to a launch ball alignment passage 57 for waiting for the game balls in an aligned state.

貯留案内皿56において遊技球を支持する支持面(皿上面)は、上流側の球貯留部56bおよび下流側の流下案内部56aとも下流に向けて低くなる傾斜面で構成されている。また、球貯留部56bの傾斜支持面と流下案内部56aの傾斜支持面との接続部には段差56dが形成され、球貯留部56bから流下案内部56aに向けて一段低くなるように形成されている。   The support surface (the upper surface of the dish) that supports the game ball in the storage guide tray 56 is configured by an inclined surface that becomes lower toward the downstream in both the upstream ball storage section 56b and the downstream flow guide section 56a. In addition, a step 56d is formed at the connecting portion between the inclined support surface of the sphere storage portion 56b and the inclined support surface of the flow down guide portion 56a, and is formed to be one step lower from the sphere storage portion 56b toward the flow down guide portion 56a. ing.

ここで、下流側に位置する流下案内部56aの傾斜支持面と、上流側に位置する球貯留部56bの傾斜支持面との傾斜角度の関係については、図10に段差56dを挟む両傾斜支持面の角度関係を背面図で略示するように、流下案内部56aの傾斜支持面の傾き角をα、球貯留部56bの傾斜支持面の傾き角をβとしたときに、β<αなる関係、換言すれば、上流側の球貯留部56bの傾斜支持面(以下「貯留支持面」という)が、下流側の流下案内部56aの傾斜支持面(以下「流下支持面」という)よりも緩い傾斜に形成されている。   Here, regarding the relationship of the inclination angle between the inclined support surface of the downflow guide portion 56a located on the downstream side and the inclined support surface of the ball storage portion 56b located on the upstream side, both inclined supports sandwiching the step 56d in FIG. As shown schematically in the rear view, the angle relationship between the surfaces is represented by β <α, where α is the inclination angle of the inclined support surface of the flow guide portion 56a and β is the inclination angle of the inclined support surface of the ball storage portion 56b. In other words, in other words, the inclined support surface (hereinafter referred to as “storage support surface”) of the upstream sphere storage portion 56b is more than the inclined support surface (hereinafter referred to as “flow support surface”) of the downstream flow guide portion 56a. It is formed with a gentle slope.

流下支持面の傾斜角度αおよび貯留支持面の傾斜角度βの具体的な値については、皿本体53に使用する樹脂材料の種類や表面性状等により適宜設定することが可能であるが、例えば、本実施形態において例示する上球皿5では、流下支持面の傾斜角度αとして従来の球皿と同様の傾斜角度(α=3.5〜4.5度程度)、貯留支持面の傾斜角度βとして流下支持面の傾斜角度αよりも1.5度程度小さい傾斜角度(β=2〜3度程度)に設定している。   Specific values of the inclination angle α of the flow support surface and the inclination angle β of the storage support surface can be appropriately set depending on the type of resin material used for the dish body 53, the surface properties, etc. In the upper ball tray 5 illustrated in the present embodiment, the flow support surface is set as the inclination angle α of the flow support surface, which is the same as that of the conventional ball plate (α = about 3.5 to 4.5 degrees), and the storage support surface is set as the inclination angle β. Is set to an inclination angle (about β = 2 to 3 degrees) smaller than about 1.5 degrees.

このため、貯留案内皿56に貯留された遊技球が少ない状態では、貯留球は従来と同様の傾斜角度を有した比較的急傾斜の流下案内部56aに配設されるため、確実に下流の発射球整列通路57に向けて転動流下する。一方、貯留案内皿56に貯留された遊技球が増大すると、新たに貯留される遊技球は従来よりも小さい傾斜角度を有した比較的緩傾斜の球貯留部56bに貯留されるため、下流側の遊技球に作用する圧力Pは遊技球1個の重量をWとしたときに、上下1列あたりP=Wsinβとなり傾斜角度の減少分に応じて抑制することができる。例えば、上述した傾斜角度α=4度、β=2度とすれば、従来同様の一定の傾斜角度α=4度に設定した場合と比較して(Wsinα−Wsinβ)/Wsinα≒0.5となり、球圧を約半分に減少させることができる。   For this reason, in a state where the number of game balls stored in the storage guide tray 56 is small, the stored balls are disposed in the flow guide portion 56a having a relatively steep inclination having the same inclination angle as the conventional one, so Rolling down toward the firing ball alignment passage 57. On the other hand, when the number of game balls stored in the storage guide tray 56 increases, the newly stored game balls are stored in the ball storage section 56b having a relatively lower inclination angle than the conventional one, so that the downstream side When the weight of one game ball is W, the pressure P acting on the game ball becomes P = Wsinβ per one upper and lower row, and can be suppressed according to the decrease in the tilt angle. For example, if the inclination angle α = 4 degrees and β = 2 degrees described above, (Wsinα−Wsinβ) /Wsinα≈0.5 as compared with the conventional case where the constant inclination angle α = 4 degrees is set. The pressure can be reduced by about half.

また、流下支持面と貯留支持面との接続部に段差56dを設け、段差の前後(上下流方向における前後)において、上流側の貯留支持面が下流側の流下支持面よりも高さhだけ高くなるように形成している。このため段差を挟む球貯留部56bと流下案内部56aの両方に遊技球が貯留された状態において、球貯留部56b側に貯留された遊技球は、段差により斜め下方に位置する流下案内部56a側の遊技球と、斜め上下の位置関係で球面接触する(図11を参照)。一方、球貯留部56bに貯留された遊技球の圧力(流下方向のベクトルP=Wsinβ)は、貯留支持面56bに沿った方向に作用している。   Further, a step 56d is provided at the connecting portion between the flow-down support surface and the storage support surface, and the upstream storage support surface has a height h higher than the downstream flow-down support surface before and after the step (front and rear in the upstream and downstream directions). It is formed to be higher. For this reason, in a state where the game balls are stored in both the ball storage portion 56b and the flow-down guide portion 56a that sandwich the step, the game balls stored on the side of the ball storage portion 56b are flowed down the guide portion 56a that is positioned obliquely downward due to the step. A spherical contact is made with the game ball on the side in an oblique vertical relationship (see FIG. 11). On the other hand, the pressure of the game ball stored in the ball storage unit 56b (the vector P = Wsin β in the flow direction) acts in the direction along the storage support surface 56b.

このため、球貯留部56b側の遊技球から流下案内部56a側の遊技球に作用する力Fは、貯留支持面に沿った流下方向のベクトルP(P=Wsinβ)を、球心同士を結ぶ当接方向のベクトル成分Pと、これに直交する上向き方向のベクトル成分Pとに分解したときの当接方向のベクトル成分Pになり(F=P)、段差56dを設けずに直接当接させた場合(F=P=P+P)よりも小さくすることができる。例えば、貯留支持面の傾斜角度をβ=2度とし、段差56dの高さhを遊技球の直径Dに対してh=0.5Dとすれば球心同士を結ぶ当接方向の傾き角が約30度となり、圧力F=P=Pcos(30−β)=0.88P、またh=0.7Dとすれば球心同士を結ぶ当接方向の傾き角が約45度となり、圧力F=P=Pcos(45−β)=0.73Pになり、球貯留部56b側の遊技球から流下案内部56a側の遊技球に作用する力を段差56dの高さhに応じてさらに減少させることができる。 For this reason, the force F acting on the game ball on the flow down guide unit 56a side from the game ball on the ball storage unit 56b side connects the sphere centers with a vector P (P = Wsin β) in the flow direction along the storage support surface. The vector component P 1 in the contact direction when decomposed into the vector component P 1 in the contact direction and the vector component P 2 in the upward direction orthogonal thereto is obtained (F = P 1 ), and the step 56d is not provided. It can be made smaller than the case of direct contact (F = P = P 1 + P 2 ). For example, if the inclination angle of the storage support surface is β = 2 ° and the height h of the step 56d is h = 0.5D with respect to the diameter D of the game ball, the inclination angle of the contact direction connecting the spheres is about 30 degrees, pressure F = P 1 = Pcos (30−β) = 0.88P, and h = 0.7D, the inclination angle of the contact direction connecting the spheres is about 45 degrees, and pressure F = P 1 = Pcos (45−β) = 0.73P, and the force acting on the game ball on the flow down guide portion 56a side from the game ball on the ball storage portion 56b side can be further reduced according to the height h of the step 56d. .

従って、上記のように貯留支持面の傾斜角度を流下支持面の傾斜角度よりも小さく形成することにより、貯留球数が少ない状態での安定した球流れと、貯留球数が増大した状態での下流側の遊技球に対する圧力の抑制とを両立させることができ、例えば球送り装置59への安定した球流れを確保しながら、その前方の発射球整列通路57の終端偏向部で球詰まり等を生じない構成を容易に実現することができる。また球貯留部56bと流下案内部56後の間に段差56dを設けることで、下流側の遊技球に作用する圧力をさらに抑制して、安定した球流れと遊技球に対する圧力の抑制とを両立させた球皿を提供することができる。なお、各支持面の前後方向の傾斜については任意だが、ともに後方(あて板51側)に下傾する微少な傾斜角を設定することも好ましい構成形態である。   Therefore, by forming the inclination angle of the storage support surface smaller than the inclination angle of the falling support surface as described above, a stable sphere flow with a small number of stored spheres and a state in which the number of stored spheres has increased. It is possible to achieve both suppression of the pressure on the game ball on the downstream side. For example, while securing a stable ball flow to the ball feeding device 59, a ball clogging or the like is prevented at the terminal deflection portion of the launch ball alignment passage 57 in front of it. A configuration that does not occur can be easily realized. Further, by providing a step 56d between the ball storage portion 56b and the downstream guide portion 56, the pressure acting on the downstream game ball is further suppressed, and both stable ball flow and pressure suppression on the game ball are achieved. Can be provided. In addition, although it is arbitrary about the inclination of each support surface in the front-back direction, it is also a preferable configuration form to set a slight inclination angle that inclines downward (toward the facing plate 51).

そして、このような上球皿5の下流側に第1球抜き機構60が、上流側に第2球抜き機構70が設けられている。流下案内部56aと繋がる発射球整列通路57の下流側は、発射レール22の基端部と前後に対峙する整合位置で「く」の字状に折り返され、貯留案内皿56の下側中央に向けて下傾する第1球抜き通路67が連設されている。第1球抜き通路67の下流端部には、あて板51を前後に貫通する球排出口68が形成され、上球皿5の閉鎖姿勢において位置整合する遊技補助盤側の抜き球受容口38と連絡されている。発射球整列通路57と第1球抜き通路67とは、折り返し部に設けられた第1球抜き機構60の弁部材63により常には仕切られており、発射球整列通路57の終端部にあて板51を貫通して形成された球送り口58を介して球送り装置59に繋がっている。   And the 1st ball removal mechanism 60 is provided in the downstream of such an upper ball tray 5, and the 2nd ball removal mechanism 70 is provided in the upstream. The downstream side of the projecting ball alignment passage 57 connected to the flow guide part 56 a is folded back into a “<” shape at an alignment position facing the base end part of the launch rail 22 in the front-rear direction. A first ball extraction passage 67 that is inclined downward is continuously provided. At the downstream end portion of the first ball removal passage 67, a ball discharge port 68 penetrating the contact plate 51 in the front-rear direction is formed, and the ball insertion hole 38 on the game auxiliary board side that is aligned in the closed posture of the upper ball tray 5 is formed. Have been contacted. The firing ball alignment passage 57 and the first ball removal passage 67 are always partitioned by the valve member 63 of the first ball removal mechanism 60 provided in the turn-up portion, and the end plate of the firing ball alignment passage 57 is applied to the end plate. It is connected to a ball feeding device 59 through a ball feeding port 58 formed through 51.

第1球抜き機構60は、図5に示すように、上球皿5の上面に露出して上下に揺動可能に設けられた球抜きレバー61と、発射球整列通路57と第1球抜き通路67との間を開閉可能なシャッター部63sを有して左右にスライド変位可能に配設された弁部材63と、球抜きレバー61と弁部材63との間を連繋して揺動可能に設けられ球抜きレバー61への押圧力を弁部材63に伝達させるリンクアーム62と、弁部材63を常時閉止方向に付勢するコイルバネ64などからなり、常にはコイルバネ64のバネ力により弁部材63が左端位置に付勢配設されて、シャッター部63sが発射球整列通路57と第1球抜き通路67との間を仕切る閉鎖状態とされる。   As shown in FIG. 5, the first ball removal mechanism 60 includes a ball removal lever 61 that is exposed on the upper surface of the upper ball tray 5 and is swingable up and down, a firing ball alignment passage 57, and a first ball removal mechanism. A valve member 63 having a shutter portion 63 s that can be opened and closed between the passage 67 and arranged to be slidable to the left and right, and a ball removal lever 61 and the valve member 63 are connected to be swingable. A link arm 62 provided to transmit the pressing force to the ball release lever 61 to the valve member 63, a coil spring 64 that constantly biases the valve member 63 in the closing direction, and the like. Is urged and arranged at the left end position, and the shutter portion 63s is in a closed state in which the firing ball alignment passage 57 and the first ball removal passage 67 are partitioned.

このため、通常の遊技状態では、発射球整列通路57に整列待機された遊技球が球送り口58から球送り装置59に導かれ、遊技球発射装置21の作動と同期して揺動制御される球送り装置の球送りカム59cによって1球ずつ発射レール22に送り出されて、遊技球発射装置21により遊技盤に向けて打ち出される。   For this reason, in a normal gaming state, the gaming balls that are waiting to be aligned in the firing ball alignment passage 57 are guided from the ball feeding port 58 to the ball feeding device 59, and are controlled to swing in synchronization with the operation of the gaming ball launching device 21. The balls are fed one by one to the firing rail 22 by the ball feeding cam 59c of the ball feeding device, and are launched toward the game board by the game ball launching device 21.

球抜きレバー61が押圧操作されると、リンクアーム62が図5における反時計廻り揺動され、下端のリンクピンが弁部材63を押圧して弁部材63を右方にスライド変位させ、発射球整列通路57と第1球抜き通路67との間を仕切っていたシャッター部63sが待避して、発射球整列通路57と第1球抜き通路67とが連通した開放状態に変移される。このため、発射球整列通路57に整列待機されていた遊技球が第1球抜き通路67に流入してこの球通路を流下し、球排出口68を通って遊技補助盤側の抜き球受容口38に流入する。そして集合回収口26から下球皿連絡バケット37〜下通出口27を通って下球皿7に導かれる。   When the ball release lever 61 is pressed, the link arm 62 is swung counterclockwise in FIG. 5, and the link pin at the lower end presses the valve member 63 to slide and displace the valve member 63 to the right. The shutter portion 63 s that partitions the alignment passage 57 and the first ball extraction passage 67 is retracted, and the shot ball alignment passage 57 and the first ball extraction passage 67 are changed to an open state. For this reason, the game balls that have been waiting to be aligned in the launch ball alignment passage 57 flow into the first ball discharge passage 67 and flow down through the ball discharge passage 68, pass through the ball discharge port 68, and the extraction ball receiving port on the game auxiliary board side. 38. And it is led to the lower ball tray 7 from the collective recovery port 26 through the lower ball tray communication bucket 37 to the lower outlet 27.

一方、貯留案内皿の球貯留部56bに第2球抜き機構70が設けられている。第2球抜き機構70は、貯留支持面の下流部に横長方形状に開口された球抜き口71、球抜き口71の開口前縁に合わせて上下に延びて形成された前方壁面72に後方に突出成型された円筒状の支持ボス72a、支持ボス72aに揺動自在に枢支される開閉弁部材73、支持ボス72aに枢支された開閉弁部材73を正面視における反時計廻りに付勢する引っ張りバネ74、前方壁面72からあて板51に向けて立設された通路壁により形成される第2球抜き通路77などから構成される。   On the other hand, a second ball removal mechanism 70 is provided in the ball storage portion 56b of the storage guide tray. The second ball removal mechanism 70 has a ball discharge port 71 that is opened in a horizontal rectangular shape in the downstream portion of the storage support surface, and a front wall 72 that is formed to extend vertically according to the opening front edge of the ball discharge port 71. A cylindrical support boss 72a that is formed in a projecting manner, an on-off valve member 73 that is pivotally supported by the support boss 72a, and an on-off valve member 73 that is pivotally supported by the support boss 72a are attached counterclockwise in a front view. The tension spring 74 is energized, and a second ball-extracting passage 77 formed by a passage wall standing from the front wall surface 72 toward the receiving plate 51, and the like.

球抜き口71は、段差56dに隣接して皿本体53の後端側に形成されており、その前後方向の開口幅は遊技球の直径Dよりも幾分大きく1.1〜1.5D程度に、また左右方向の開口長さは同時に複数の遊技球を流下させ得るように球径Dの数倍(2〜4D程度)に設定され、例えば、図示する実施形態では、前後方向の開口幅を第1および第2球抜き通路の通路幅に合わせて1.1D程度に、左右方向の開口長さを3D程度に設定した例を示している。   The ball outlet 71 is formed on the rear end side of the dish body 53 adjacent to the step 56d, and the opening width in the front-rear direction is somewhat larger than the diameter D of the game ball, about 1.1 to 1.5D. The opening length in the left-right direction is set to several times the ball diameter D (about 2-4D) so that a plurality of game balls can flow down simultaneously. For example, in the illustrated embodiment, the opening width in the front-rear direction is the first And the example which set the opening length of the left-right direction to about 3D according to the channel | path width | variety of a 2nd ball extraction channel | path is shown to about 3D.

球抜き口71の下方には、前方壁面72からあて板51に向けて立設され、左右中央に延びる通路壁77a,77bが立設されており、これらの前方壁面72および通路壁77a,77bによって後方に開いた溝状の球通路が形成され、後方からあて板51をネジ固定することで周囲が壁面で囲まれた第2球抜き通路77が形成される。球通路77の上流側では、通路壁77aが上向きに屈曲形成されて次述する段差係合部の下面を受け止める受け座が形成され、その側部には引っ張りバネ74をねじ止めする円筒状のバネ固定ボスが形成されている。   Below the ball outlet 71, passage walls 77a and 77b are provided standing from the front wall surface 72 toward the destination plate 51 and extending in the center of the left and right. These front wall surface 72 and passage walls 77a and 77b are provided. Thus, a groove-shaped sphere passage opened rearward is formed, and a second sphere extraction passage 77 whose periphery is surrounded by a wall surface is formed by screwing the contact plate 51 from the rear. On the upstream side of the ball passage 77, the passage wall 77 a is bent upward to form a receiving seat for receiving the lower surface of the step engaging portion described below, and a cylindrical shape for screwing the tension spring 74 on its side portion. A spring fixing boss is formed.

通路壁77aは流下支持面と同程度の傾斜姿勢で背面視左方に延びるとともに、左右略中央部で下方に屈曲されて第1球抜き通路67の通路壁と繋がっており、第2球抜き通路77と第1球抜き通路67とが合流して球排出口68に連絡するようになっている。このように第2球抜き通路77を第1球抜き通路67に合流させて共通の球排出口68から排出させる構成により、球皿側の通路構成を簡明化できるとともに、抜き球受容口38以降の既存の流下経路をそのまま利用して第2の球抜き機構を構築することができ、例えば既存機種に対して上球皿5のみを交換することで、第2球抜き機構70を有したパチンコ機に変更することも可能になっている。   The passage wall 77a extends to the left in the rear view with an inclined posture similar to that of the flow-down support surface, and is bent downward at a substantially central portion on the left and right sides to be connected to the passage wall of the first ball removal passage 67. The passage 77 and the first ball removal passage 67 join to communicate with the ball discharge port 68. In this way, the configuration in which the second ball extraction passage 77 is joined to the first ball extraction passage 67 and discharged from the common ball discharge port 68 can simplify the passage configuration on the side of the ball tray, and after the ball extraction port 38 The second ball removal mechanism can be constructed using the existing flow path as it is. For example, by replacing only the upper ball tray 5 with the existing model, a pachinko machine having the second ball removal mechanism 70 can be obtained. It is also possible to change to a machine.

開閉弁部材73は、支持ボス72aの外径よりもわずかに大きめの内径を有して円筒状に形成された軸受部73a、軸受部73aの外周面と滑らかに繋がって接線方向に延びる帯板状の弁プレート部73b、軸受部73aの後端部(あて板51側の端部)から軸直交の斜め上方に延びるレバー部73c、軸受部73aの中間部から軸直交の斜め下方に延びるバネアーム部73dなどからなり、例えばガラス繊維や炭素繊維を添加して強化したABS樹脂やポリアセタール樹脂(POM)、ポリフェニレンオキサイド(PPO)などの樹脂材料を用い射出成型等の成形手段で形成される。   The on-off valve member 73 has a cylindrical portion having an inner diameter slightly larger than the outer diameter of the support boss 72a, and a strip extending smoothly in a tangential direction with the outer peripheral surface of the bearing portion 73a. -Shaped valve plate portion 73b, lever portion 73c extending obliquely upward perpendicular to the axis from the rear end portion (end portion on the side of the receiving plate 51a) of the bearing portion 73a, and spring arm extending obliquely downward perpendicular to the axis from the intermediate portion of the bearing portion 73a For example, it is formed by molding means such as injection molding using a resin material such as ABS resin, polyacetal resin (POM), polyphenylene oxide (PPO) reinforced by adding glass fiber or carbon fiber.

弁プレート部73bは、軸受部73aの円筒外周面と滑らかに繋がって接線方向に延びるプレート部分が、球抜き口71の開口面域に合わせた矩形平板状に形成されるとともに、その先端側に段差56dの下面側の形状寸法に合わせた段差係合部が屈曲成形されており、軸受部73aを支持ボス72aに枢支させて開閉弁部材73を背面視における時計廻りに揺動したときに、先端の段差係合部が段差56dの下面と滑らかに係合して支持され、プレート部が球抜き口71を閉鎖して周囲の貯留支持面と同一平面上に位置するように(一体の貯留支持面を形成するように)構成されている。   The valve plate portion 73b has a plate portion that is smoothly connected to the cylindrical outer peripheral surface of the bearing portion 73a and extends in the tangential direction, and is formed in a rectangular flat plate shape that matches the opening surface area of the ball outlet port 71. When the step engaging portion corresponding to the shape on the lower surface side of the step 56d is bent, the bearing 73a is pivotally supported by the support boss 72a, and the on-off valve member 73 is swung clockwise in the rear view. The step engaging portion at the tip is smoothly engaged with the lower surface of the step 56d and supported, and the plate portion closes the ball outlet 71 and is positioned on the same plane as the surrounding storage support surface (integral Configured to form a storage support surface).

レバー部73cは、軸受部73aの後端側から軸直交の斜め上方に延びるとともに、所定の高さ位置で前方にオフセットされたクランク状に屈曲形成されており、その先端部にはレバー部73cから前方に突出して操作摘み73fが、後方に突出してガイド突起73gが形成されている。操作摘みおよび73fガイド突起73gには、ガイド突起73gの後端側からネジを受容するネジ受け孔が形成されている。   The lever portion 73c extends obliquely upward perpendicular to the axis from the rear end side of the bearing portion 73a, and is bent into a crank shape that is offset forward at a predetermined height position. The lever portion 73c is formed at the tip of the lever portion 73c. The operation knob 73f protrudes forward from the front, and the guide protrusion 73g protrudes rearward. A screw receiving hole for receiving a screw from the rear end side of the guide protrusion 73g is formed in the operation knob and the 73f guide protrusion 73g.

バネアーム部73dは、軸受部73aの円筒外周面から軸直交の斜め下方に延びて形成され、その先端部に引っ張りバネ74の一端のフックを掛止可能な凹状のフック受けが切り欠き形成されている。   The spring arm portion 73d is formed to extend obliquely downward perpendicular to the axis from the cylindrical outer peripheral surface of the bearing portion 73a, and a concave hook receiver that can hook a hook at one end of the tension spring 74 is cut out at the tip portion. Yes.

開閉弁部材73は、前方壁面の支持ボス72aに軸受部73aを嵌挿して枢支させ、引っ張りバネ74の一端側のフックを前方壁面のバネ固定ボスにネジ固定し、引っ張りバネ74の他端側のフックをバネアーム73dのフック受けに掛止することで、皿本体53に揺動可能に取り付けられ、引っ張りバネ74のバネ力で背面視における時計廻りに付勢されて、弁プレート部先端の段差係合部が段差56dの下面と係合した状態に保持される。   The on-off valve member 73 is pivotally supported by inserting a bearing 73 a into a support boss 72 a on the front wall surface, screwing a hook on one end side of the tension spring 74 to a spring fixing boss on the front wall surface, and the other end of the tension spring 74. The hook on the side is hooked to the hook receiver of the spring arm 73d, so that the hook is swingably attached to the plate body 53. The spring force of the tension spring 74 is biased clockwise in the rear view, The step engaging portion is held in a state of being engaged with the lower surface of the step 56d.

一方、あて板51には、開閉弁部材73のレバー部73cの揺動軌跡に合わせてレバー収容部51cとガイド溝51gが形成されている。レバー収容部51cは、前後クランク状に屈曲形成されたレバー部73cのうち、基端側(すなわち後方に位置するの部分)の揺動軌跡に合わせた扇状に形成され、その前後方向の深さはレバー部73cの基端部の厚さよりも幾分大きめに形成されている。他方レバー部73cの先端部分の前方へのオフセット量はこのレバー収容部51cの深さよりも幾分大きめに形成されており、レバー部73cの先端部分がレバー収容部51cの上方のあて板前面に沿って位置するようになっている。   On the other hand, a lever receiving portion 51c and a guide groove 51g are formed on the counter plate 51 in accordance with the swing locus of the lever portion 73c of the on-off valve member 73. The lever accommodating portion 51c is formed in a fan shape in accordance with the swinging locus of the base end side (that is, the portion located rearward) among the lever portions 73c formed to be bent in the front-rear crank shape, and the depth in the front-rear direction thereof. Is formed somewhat larger than the thickness of the base end portion of the lever portion 73c. On the other hand, the forward offset amount of the distal end portion of the lever portion 73c is formed slightly larger than the depth of the lever accommodating portion 51c, and the distal end portion of the lever portion 73c is placed on the front surface of the upper plate of the lever accommodating portion 51c. It comes to be located along.

またあて板51の上部に形成されたガイド溝51gは、レバー部上端のガイド突起73gの外径よりも幾分大きめの溝幅を有し、ガイド突起73gの揺動軌跡および揺動角度範囲(より具体的には弁プレート部73bの揺動角度範囲)に合わせて形成されており、ガイド突起73gを溝内に受容してレバー部73cの揺動をガイドするとともに、レバー部73cや弁プレート部73bに無理な力が作用しないように保護する機能を有している。なお、あて板51の背面側にガイド溝51gの後方を覆う不正防止カバー51h(図6を参照)を設けることにより、ガイド溝51gにピアノ線等を押し入れて遊技盤10に悪戯するような不正行為を効果的に防止することができる。   The guide groove 51g formed in the upper part of the contact plate 51 has a groove width somewhat larger than the outer diameter of the guide protrusion 73g at the upper end of the lever portion, and the swing locus and swing angle range of the guide protrusion 73g ( More specifically, the guide plate 73g is received in the groove to guide the swing of the lever portion 73c and the lever portion 73c and the valve plate. It has a function of protecting the portion 73b from applying an excessive force. It is to be noted that by providing a fraud prevention cover 51h (see FIG. 6) that covers the rear side of the guide groove 51g on the back side of the contact plate 51, an illegal act such that a piano wire or the like is pushed into the guide groove 51g and the game board 10 is mischievous. Actions can be effectively prevented.

そして、以上のような貯留案内皿56を有し、第1球抜き機構60および第2球抜き機構70の各構成部材が組み付けられた皿本体53を外装体52に取り付け、これらをあて板51の前面側に位置合わせして嵌め込むとともに、レバー部のガイド突起73gをガイド溝51gに緩挿して溝内に係合させ、あて板51の背面側から外装体52および皿本体53の各部をねじ固定することにより上球皿5が一体に形成される。またガイド溝51gの溝内に配設されたガイド突起73gにあて板51の背面側から座金組み込みネジ76を螺合締結することで、ガイド突起73gとガイド溝51gとの係合状態が確実に確保される。   And the plate body 53 which has the above storage guide trays 56 and to which the constituent members of the first ball removal mechanism 60 and the second ball removal mechanism 70 are assembled is attached to the exterior body 52, and these are applied to the plate 51. The guide projection 73g of the lever portion is loosely inserted into the guide groove 51g and engaged with the groove, and the respective parts of the exterior body 52 and the plate body 53 are moved from the back side of the cover plate 51. The upper ball tray 5 is integrally formed by screw fixing. In addition, by engaging and fastening the washer incorporating screw 76 from the back side of the plate 51 to the guide protrusion 73g disposed in the groove of the guide groove 51g, the engagement state between the guide protrusion 73g and the guide groove 51g is ensured. Secured.

これにより、開閉弁部材73は、弁プレート部73bが球抜き口71を塞ぐ閉鎖位置と球抜き口71を開放する開放位置との間の角度範囲で揺動可能に配設され、常には引っ張りバネ74のバネ力により弁プレート部73bにおける段差係合部の上面が段差56dの下面と係合して球抜き口71を塞ぐ閉鎖位置に保持される。また操作摘み73fに指を掛け引っ張りバネ74のバネ力に抗してレバー部73cを揺動させると、ガイド突起73gがガイド溝51g内を移動し、弁プレート部73bにおける段差係合部の下面が通路壁77aの受け座と係合する開放位置まで揺動される。   Thereby, the on-off valve member 73 is disposed so as to be swingable in an angular range between a closed position where the valve plate portion 73b closes the ball outlet 71 and an open position where the ball outlet 71 is opened, and is always pulled. The upper surface of the step engaging portion in the valve plate portion 73b is engaged with the lower surface of the step 56d by the spring force of the spring 74, and is held at the closed position where the ball outlet 71 is closed. When the lever 73c is swung against the spring force of the tension spring 74 by placing a finger on the operation knob 73f, the guide protrusion 73g moves in the guide groove 51g, and the lower surface of the step engaging portion in the valve plate portion 73b. Is swung to the open position where it engages with the receiving seat of the passage wall 77a.

ここで、開閉弁部材73の揺動角度範囲は、ガイド突起73gとガイド溝51gとの係合に基づく揺動角度規制により上記角度範囲を超えて移動することが規制され、レバー部73cや弁プレート部73bに無理な力が作用しないように保護されるとともに、座金組み込みネジ76の締結による確実な係合状態保持により、操作摘み73fが前方に引っ張られてレバー部73cが変形したり損傷を受けたりしないようになっている。また操作摘み73fは、図12等に示すように、レバー先端部がガラス扉3の前端面よりも前方に突出するように構成されており、容易に開閉操作し得るようになっている。   Here, the swing angle range of the on-off valve member 73 is restricted from moving beyond the angle range by the swing angle restriction based on the engagement between the guide protrusion 73g and the guide groove 51g, and the lever portion 73c and the valve The plate portion 73b is protected from excessive force, and by holding the washer built-in screw 76 securely, the operation knob 73f is pulled forward, and the lever portion 73c is deformed or damaged. It is not to receive. Further, as shown in FIG. 12 and the like, the operation knob 73f is configured such that the tip of the lever projects forward from the front end surface of the glass door 3, and can be easily opened and closed.

さて、こうして組み立てられた上球皿5がヒンジ機構4を介して前枠2に開閉可能に組み付けられ、遊技補助盤20の前方を覆って閉止された閉止状態で遊技に供される。遊技を行うに当たっては、例えば遊技者が球貸し機から借り受けた適宜数量(例えば50〜100球程度の数量)の遊技球を上球皿5の貯留案内皿56に投入し、発射ハンドル8を回動操作することにより開始される。   Now, the assembled upper ball tray 5 is assembled to the front frame 2 through the hinge mechanism 4 so as to be opened and closed, and is used in the game in a closed state in which the front of the game auxiliary board 20 is closed. In performing the game, for example, an appropriate amount (for example, about 50 to 100 balls) of game balls borrowed from the ball lending machine by the player is put into the storage guide tray 56 of the upper ball tray 5, and the launch handle 8 is turned. It is started by moving operation.

ここで、貯留案内皿56の支持面は、既述したように、上流側に位置する球貯留部56bの貯留支持面および下流側に位置する流下案内部56aの流下支持面がとも下流に向けて低くなる傾斜面で構成されるとともに、貯留支持面の傾斜角度は流下支持面の傾斜角度よりも小さく形成されている。また、貯留支持面と流下支持面との接続部には段差56dが形成され、球貯留部56bから流下案内部56aに向けて一段低くなるように形成されている。   Here, as described above, the support surface of the storage guide tray 56 is directed so that the storage support surface of the ball storage portion 56b positioned on the upstream side and the flow support surface of the flow guide portion 56a positioned on the downstream side are directed downstream. The inclination angle of the storage support surface is smaller than the inclination angle of the falling support surface. Further, a step 56d is formed at the connection portion between the storage support surface and the flow down support surface, and is formed so as to be lowered by one step from the ball storage portion 56b toward the flow down guide portion 56a.

このため、上記のように比較的少量の遊技球が貯留案内皿56に投入されると、投入された遊技球は比較的傾斜角が急な下流側の流下案内部56aに主として貯留されることになり、急傾斜の流下支持面と先細り状の側壁とに案内されて、安定した球流れのもとで確実に下流の発射球整列通路57に転動流下する。発射球整列通路57に転入した遊技球は、常には閉鎖状態とされる第1球抜き機構60の弁部材63により球送り口58から球送り装置59に導かれ、発射操作以前にあっては球送りカム59cにより送り出しが規制されて、発射球整列通路57に1列に整列された状態で待機保持される。そして発射ハンドル8において発射操作がなされると、遊技球発射装置21の作動と同期して揺動制御される球送り装置の球送りカム59cによって整列待機された遊技球が1球ずつ発射レール22に送り出され、遊技球発射装置21のハンマに叩打されて遊技盤10に向けて発射される。   For this reason, when a relatively small amount of game balls are thrown into the storage guide tray 56 as described above, the thrown game balls are mainly stored in the downstream flow guide portion 56a having a relatively steep inclination angle. Thus, it is guided by the steeply descending support surface and the tapered side wall, and reliably rolls down to the downstream launch ball alignment passage 57 under a stable sphere flow. The game balls transferred into the firing ball alignment passage 57 are guided to the ball feeding device 59 from the ball feeding port 58 by the valve member 63 of the first ball pulling mechanism 60 which is always in a closed state. The delivery is regulated by the ball feeding cam 59c, and is held on standby in a state of being aligned in one row in the firing ball alignment passage 57. When a launch operation is performed at the launch handle 8, the game balls that have been aligned and awaited by the ball feed cam 59 c of the ball feed device that is controlled to swing in synchronization with the operation of the game ball launch device 21 are launched one by one. The game ball launching device 21 is struck by a hammer and fired toward the game board 10.

遊技盤10に向けて発射され、遊技領域PAに到達した遊技球は、遊技領域内の遊技釘や風車に弾かれながら遊技領域PAを転動落下し、この落下過程で入賞具14に落入して化粧板11の裏面側に導かれ、あるいは入賞具14に落入することなく落下してアウト口18を通って化粧板11の裏面側に導かれ、ともに裏セット盤40の遊技済み球排出通路48を通って遊技島の回収装置に排出される。入賞具14に落入した遊技球は各入賞具に設けられた入賞球検出器に検出され、その検出信号に応じた数量の遊技球が球払出装置43から払い出される。   A game ball that is launched toward the game board 10 and reaches the game area PA rolls and falls in the game area PA while being hit by a game nail or a windmill in the game area, and falls into the winning device 14 in the fall process. Then, it is led to the back side of the decorative board 11 or falls without falling into the prize-winning tool 14 and is guided to the back side of the decorative board 11 through the out port 18, both of which have been played on the back set board 40. It is discharged through the discharge passage 48 to the amusement island collection device. The game balls dropped into the winning tool 14 are detected by a winning ball detector provided in each winning tool, and a number of game balls corresponding to the detection signal are paid out from the ball payout device 43.

球払出装置43から払い出された遊技球は、貯留案内皿56に貯留された遊技球が少ない状態(上払出通路45の上部まで遊技球が充満されていない状態)では、上払出通路45に導かれ、前枠2を貫通する上通出口25および上球皿5に形成された通出樋55を通って貯留案内皿56に導かれる。そして遊技の進展に伴い貯留案内皿56に貯留される遊技球が増加してくると、その増加に応じて、新たに払い出された遊技球が上流側の球貯留部56bに貯留されるようになり、さらには通出樋55〜上通出口25〜上払出通路45まで遡って貯留されるようになる。   The game balls paid out from the ball payout device 43 are placed in the upper payout passage 45 in a state where there are few game balls stored in the storage guide tray 56 (the game balls are not filled up to the upper portion of the upper payout passage 45). It is guided to the storage guide tray 56 through the upper outlet 25 penetrating the front frame 2 and the outlet bowl 55 formed in the upper ball tray 5. When the game balls stored in the storage guide tray 56 increase with the progress of the game, the newly paid game balls are stored in the upstream ball storage unit 56b according to the increase. In addition, it is stored retroactively from the outlet basin 55 to the upper outlet 25 to the upper payout passage 45.

ここで、貯留支持面の傾斜角度は流下支持面の傾斜角度よりも小さく形成され、さらに貯留支持面と流下支持面との接続部には段差56dが形成されている。このため、前述したように、一定の傾斜角で平坦に形成された支持面の場合と比較して下流側の遊技球に作用する圧力、例えば発射待機通路57に整列された遊技球の流下方向に作用する圧力や、球送り口58の前方で偏向され球送り装置59に作用する圧力などを抑制して、安定した球流れと確実な球送りを実現することができる。   Here, the inclination angle of the storage support surface is formed smaller than the inclination angle of the flow down support surface, and a step 56d is formed at the connecting portion between the storage support surface and the flow down support surface. For this reason, as described above, the pressure acting on the game ball on the downstream side as compared with the support surface formed flat with a constant inclination angle, for example, the flow direction of the game ball aligned in the launch standby passage 57 , A pressure deflected in front of the ball feed port 58 and acting on the ball feed device 59, and the like can be suppressed, and stable ball flow and reliable ball feed can be realized.

また図12に第2球抜き機構70の周辺部分の平断面図を示すように、レバー部73cにおける基端側の部分がレバー収容部51cに収容されて、あて板51の前面よりも前方に突出しないように構成されており、レバー部73cの前方を上流側から下流側に向けて流下する遊技球がレバー部73cの側縁に引っかかって停留することなく滑らかに流下する一方、その上方にクランク状に形成された上部構造により、上下複数段に積み重なって流下する遊技球が崩され1段に整流されるようになっている。   Further, as shown in a plan sectional view of the peripheral portion of the second ball removing mechanism 70 in FIG. 12, the base end side portion of the lever portion 73c is accommodated in the lever accommodating portion 51c, and is forward of the front surface of the cover plate 51. It is configured not to protrude, and the game ball flowing down from the upstream side toward the downstream side of the lever portion 73c flows smoothly without being caught by the side edge of the lever portion 73c and stopped there. Due to the upper structure formed in a crank shape, the game balls piled up and down in multiple stages and flowing down are crushed and rectified into one stage.

さて、こうして球貯留案内皿56に遊技球が貯留された状態では、第1球抜き機構60、第2球抜き機構70の何れか一方または両方を操作して貯留された遊技球の球抜き作業を行うことができる。   Now, in a state where the game balls are stored in the ball storage guide tray 56 in this way, either one or both of the first ball removal mechanism 60 and the second ball removal mechanism 70 is operated to remove the game balls. It can be performed.

例えば貯留案内皿56に貯留された遊技球が少ない場合には、第1球抜き機構60のみを利用して球抜き作業を行うことが好適である。第1球抜き機構60による球抜き作業は、球抜きレバー61を下方に押圧操作することにより行われる。球抜きレバー61が押圧操作されると、リンクアーム62が背面視における反時計廻り揺動され、下端のリンクピンが弁部材63を押圧して弁部材63を右方にスライド変位させ、発射球整列通路57と第1球抜き通路67との間を仕切っていたシャッター部63sが背面視右方に待避して、発射球整列通路57と第1球抜き通路67とが連通した開放状態に変移される。   For example, when the number of game balls stored in the storage guide tray 56 is small, it is preferable to perform the ball removal work using only the first ball removal mechanism 60. The ball removal operation by the first ball removal mechanism 60 is performed by pressing the ball removal lever 61 downward. When the ball release lever 61 is pressed, the link arm 62 is swung counterclockwise in the rear view, and the link pin at the lower end presses the valve member 63 to slide and displace the valve member 63 to the right. The shutter 63s that has partitioned between the alignment passage 57 and the first ball extraction passage 67 is retracted to the right in the rear view, and changes to an open state in which the firing ball alignment passage 57 and the first ball extraction passage 67 communicate with each other. Is done.

このため、発射球整列通路57に整列待機されていた遊技球および遊技球貯留案内皿56に貯留されていた遊技球が、発射球整列通路57から第1球抜き通路67に流入してこの球通路を流下し、球排出口68を通って遊技補助盤側の抜き球受容口38に流入する。そして集合回収口26から下球皿連絡バケット37に流下し、下通出口27を通って下球皿7に導かれる。これにより貯留案内皿56に貯留されていた遊技球を全量下球皿7に流下させて球抜き作業を行うことができる。   For this reason, the game balls that have been waiting to be aligned in the launch ball alignment passage 57 and the game balls that have been stored in the game ball storage guide tray 56 flow into the first ball removal passage 67 from the launch ball alignment passage 57 and this ball. It flows down the passage and passes through the ball discharge port 68 and flows into the ball receiving port 38 on the game assisting board side. Then, it flows down from the collective recovery port 26 to the lower ball tray communication bucket 37 and is guided to the lower ball tray 7 through the lower outlet 27. As a result, all the game balls stored in the storage guide tray 56 can be made to flow down to the lower ball tray 7 to perform the ball removal operation.

また、例えば球貯留案内皿56の上流部まで遊技球が貯留された遊技状況下でいわゆる大当たりが発生し、遊技球の発射状態を維持したまま貯留案内皿56に貯留された遊技球を下球皿7に流下させたい場合には、第2球抜き機構70のみを利用して球抜き作業を行うことが好適である。第2球抜き機構70による球抜き作業は、操作摘み73fに指を掛け引っ張りバネ74のバネ力に抗してレバー部73cを正面視における時計廻りに揺動操作することで行われる。レバー部73cを揺動させると、レバー部73cの揺動とともに弁プレート部73bが正面視時計廻りに傾動して球抜き口71が開口されるとともに、開口された球抜き口71の内部に弁プレート部73bが傾斜姿勢で配設され、球抜き口71〜第2球抜き通路77に繋がる傾斜通路が形成される。   For example, a so-called big hit occurs in a gaming situation in which game balls are stored up to the upstream portion of the ball storage guide tray 56, and the game balls stored in the storage guide tray 56 are maintained while the game ball is being released. When it is desired to flow down to the pan 7, it is preferable to perform the ball removing operation using only the second ball removing mechanism 70. The ball removal operation by the second ball removal mechanism 70 is performed by placing a finger on the operation knob 73f and swinging the lever portion 73c clockwise in front view against the spring force of the tension spring 74. When the lever portion 73c is swung, the valve plate portion 73b is tilted clockwise as the lever portion 73c is swung to open the ball outlet 71, and the valve outlet 71 is opened inside the ball outlet 71. The plate portion 73b is disposed in an inclined posture, and an inclined passage that is connected to the ball outlet 71 to the second ball outlet passage 77 is formed.

このため、図11に閉鎖位置にある弁プレート部73bおよび貯留球を実線で示し、開放位置にある弁プレート部73bおよび遊技球の流れを二点鎖線で示すように、貯留案内皿56における上流側の球貯留部56bに貯留されていた遊技球が、球抜き口71から傾斜姿勢にある弁プレート73bの上面を転動して第2球抜き通路77に流入し、第2球抜き通路77を転動流下し、通路下端の球排出口68を通って遊技補助盤側の抜き球受容口38に流入する。そして集合回収口26から下球皿連絡バケット37に流下し下通出口27を通って下球皿7に導かれる。   Therefore, as shown in FIG. 11, the valve plate portion 73b and the storage ball in the closed position are indicated by a solid line, and the flow of the valve plate portion 73b and the game ball in the open position is indicated by a two-dot chain line. The game balls stored in the ball storage section 56b on the side roll on the upper surface of the valve plate 73b in an inclined posture from the ball extraction port 71 and flow into the second ball extraction passage 77, and the second ball extraction passage 77 , And flows through the ball discharge port 68 at the lower end of the passage into the ball receiving port 38 on the game assisting board side. Then, it flows down from the collection port 26 to the lower ball tray connecting bucket 37 and is guided to the lower ball tray 7 through the lower outlet 27.

このとき、段差よりも下流側の流下案内部56aに位置する遊技球は、上記第2球抜き機構70による球抜き作業により影響を受けることがない。このため、第2球抜き機構70による球抜き中であっても、流下案内部56aに貯留された遊技球が発射球整列通路57に整列されて安定した球流れで球送り装置に導かれ、球送りカム59cにより1球ずつ発射レール22に送り出されて、安定した発射状体を維持することができる。これにより遊技者は、遊技球の発射状態を安定的に維持したまま、大当たりによる賞球の払出状況や貯留案内皿56における貯留球の増減状況等を見ながら、適宜下球皿7への球抜き作業を容易に行うことができる。   At this time, the game ball located in the downstream guide portion 56a on the downstream side of the step is not affected by the ball removing operation by the second ball removing mechanism 70. For this reason, even during ball removal by the second ball removal mechanism 70, the game balls stored in the flow guide 56a are aligned with the launch ball alignment passage 57 and guided to the ball feeder with a stable ball flow, Balls are fed one by one to the firing rail 22 by the ball feeding cam 59c, and a stable projectile body can be maintained. As a result, the player can appropriately keep the ball on the lower ball tray 7 while watching the payout state of the winning ball due to the jackpot, the increase / decrease state of the stored ball in the storage guide tray 56, etc., while stably maintaining the game ball firing state. The punching operation can be easily performed.

なお球抜きを終了するときには、開放位置に押圧保持していた操作摘み73fへの押圧力を解除すればよい。すると、引っ張りバネ74に蓄えられたバネ力により開閉弁部材73が正面視における反時計廻りに揺動され、弁プレート部73bが球抜き口71を塞ぐ閉鎖位置に復帰して保持される。引っ張りバネ74は、閉鎖位置において一定の引っ張り力を保持するように初期張力が与えられており、貯留案内皿56が遊技球で満杯状態になったときに弁プレート部73bの上部に停留された遊技球の重量程度で開閉弁部材73が開方向に揺動しないようになっている。   When the ball removal is finished, the pressing force to the operation knob 73f that has been pressed and held in the open position may be released. Then, the on-off valve member 73 is swung counterclockwise in a front view by the spring force stored in the tension spring 74, and the valve plate portion 73b is returned to and held at the closed position where the bulb outlet 71 is closed. The tension spring 74 is given an initial tension so as to maintain a constant tension force in the closed position, and is retained at the upper part of the valve plate portion 73b when the storage guide tray 56 is filled with game balls. The on-off valve member 73 is prevented from swinging in the opening direction by the weight of the game ball.

一方、上記同様に貯留案内皿56の上流部まで多数の遊技球が貯留された状態で遊技を終了し、貯留された遊技球を全量球抜きするような場合には、上述した第1球抜き機構60と第2球抜き機構70の両方を利用して球抜き作業を行うことが好適である。すなわち第1球抜き機構60および第2球抜き機構70をともに開放状態にすると、貯留案内皿56の下流側から発射球通路57および第1球抜き通路67を介して遊技球が下球皿7に流下されるとともに、貯留案内皿56の上流側から第2球抜き通路77を介して遊技球が下球皿7に流下される。これにより、第1または第2球抜き機構の何れか一方を用いるよりも迅速な球抜きが可能になり、球抜き作業を早期に終了することができる。   On the other hand, when the game is ended in a state where a large number of game balls are stored up to the upstream portion of the storage guide tray 56 in the same manner as described above, and when all the stored game balls are extracted, the first ball extraction described above is performed. It is preferable to perform the ball removing operation using both the mechanism 60 and the second ball removing mechanism 70. That is, when both the first ball removal mechanism 60 and the second ball removal mechanism 70 are in the open state, the game ball is placed from the downstream side of the storage guide tray 56 via the firing ball passage 57 and the first ball removal passage 67. And the game balls flow down from the upstream side of the storage guide tray 56 to the lower ball tray 7 through the second ball removal passage 77. As a result, the ball can be removed more quickly than using either the first or second ball removing mechanism, and the ball removing operation can be completed early.

従って、以上説明したような構成によれば、貯留球数が少ない状態での安定した球流れと、貯留球数が増大した状態での下流側の遊技球に対する圧力の抑制とを両立させた球皿を提供することができるとともに、球送り装置への球流れを妨げることなく球抜きを行うことができかつ迅速な球抜き作業も可能な球皿を提供することができる。   Therefore, according to the configuration as described above, a ball that achieves both a stable sphere flow in a state where the number of stored spheres is small and a suppression of pressure on the downstream game ball in a state where the number of stored spheres is increased. In addition to providing a dish, it is possible to provide a ball tray that can perform ball removal without hindering the flow of the ball to the ball feeding device and can also perform a quick ball removal operation.

なお、図8中に二点鎖線で付記し、次述する図13および図14に同様の球通路を例示するように、第2球抜き通路77の後方壁面を形成するあて板51に前後貫通する第2球排出口79を開口形成するとともに、上球皿5の閉止姿勢で第2球排出口79と位置整合する遊技補助盤側のスピーカーカバー31に第2抜き球受容口39を設け、球抜き操作により第2球抜き通路77に流入した遊技球を、第2球排出口79から第2抜き球受容口39に流入させ、既述したこぼれ球通路36および集合回収口26を介して下球皿7に流下させるように構成してもよい。このような構成によれば、第1および第2球抜き機構60,70を同時に球抜き操作したときの下球皿7への単位時間あたりの流下量を増大させることができ、これにより単一の球排出口68を設けた場合よりもさらに迅速な球抜き作業を行うことができる。   8 is indicated by a two-dot chain line, and as shown in the following FIG. 13 and FIG. A second ball outlet port 39 is formed in the speaker cover 31 on the side of the game assisting board which is aligned with the second ball outlet port 79 in the closed posture of the upper ball tray 5. The game ball that has flowed into the second ball discharge passage 77 by the ball removal operation is caused to flow from the second ball discharge port 79 to the second ball reception port 39 and through the spilled ball passage 36 and the collection port 26 described above. You may comprise so that it may flow down to the lower ball tray 7. FIG. According to such a configuration, it is possible to increase the amount of flow per unit time to the lower ball tray 7 when the first and second ball removing mechanisms 60 and 70 are simultaneously operated to remove the ball. The ball removal operation can be performed more quickly than the case where the ball discharge port 68 is provided.

次に、図13および図14に第2球抜き機構の他の構成例を示しており、以下これら両図を参照してこの第2球抜き機構170について簡潔に説明する。ここで図13は第2球抜き機構170を斜め前方から見た分解斜視図、図14は図9に対応して第2球抜き機構170周辺の球通路を主として示す平断面図である。なお、本構成の第2球抜き機構について要約すれば、前述同様の開閉弁部材をあて板51側に取着するとともに第2球抜き通路をこぼれ球通路36に連結させた形態であり、貯留案内皿56や球抜き口71、通路壁77aなどの構成は上述した第2球抜き機構70と同様である。そこで、同様部分に同一番号を付して重複説明を省略し、相違する部分を中心に説明する。   Next, FIG. 13 and FIG. 14 show other configuration examples of the second ball removal mechanism. Hereinafter, the second ball removal mechanism 170 will be briefly described with reference to these drawings. Here, FIG. 13 is an exploded perspective view of the second ball removal mechanism 170 as viewed obliquely from the front, and FIG. 14 is a plan sectional view mainly showing a ball passage around the second ball removal mechanism 170 corresponding to FIG. In summary, the second ball removal mechanism of the present configuration is a form in which the same on-off valve member as described above is attached to the contact plate 51 side, and the second ball removal passage is connected to the spilling ball passage 36. The configurations of the guide tray 56, the ball outlet 71, the passage wall 77a, and the like are the same as those of the second ball removal mechanism 70 described above. Therefore, the same parts are denoted by the same reference numerals and redundant description is omitted, and different parts will be mainly described.

この第2球抜き機構170における開閉弁部材173は、支持ボス172aの外径よりもわずかに大きめの内径を有して円筒状に形成された軸受部73a、軸受部73aの外周面と滑らかに繋がって接線方向に延びる帯板状の弁プレート部73b、軸受部73aの後端部から軸直交の斜め上方に延びるとともに前方にオフセットして屈曲成形されたレバー部73c、軸受部73aの中間部から軸直交の斜め下方に延びるガイドアーム部173dなどからなり、ガイドアーム部173dを除く各部は上述した開閉弁部材73と同様に構成されている。また軸受部73aと嵌合して開閉弁部材173を枢支する支持ボス172aは、前方壁面72と対峙するあて板51側の相当位置に形成されている。   The on-off valve member 173 in the second ball removal mechanism 170 has a cylindrical portion having a slightly larger inner diameter than the outer diameter of the support boss 172a and the outer peripheral surface of the bearing portion 73a. A belt-like valve plate portion 73b that extends in a tangential direction, a lever portion 73c that extends obliquely upward perpendicular to the axis from the rear end portion of the bearing portion 73a and is bent and offset forward, and an intermediate portion of the bearing portion 73a The guide arm portion 173d extends obliquely downward from the axis perpendicular to the axis, and the other portions except the guide arm portion 173d are configured in the same manner as the on-off valve member 73 described above. A support boss 172 a that fits with the bearing portion 73 a and pivotally supports the opening / closing valve member 173 is formed at a corresponding position on the side of the contact plate 51 that faces the front wall surface 72.

開閉弁部材173におけるガイドアーム部173dは、前述したバネアーム73dとガイド突起73gの両方の機能を併せ持っており、ガイドアーム部173dの先端に後方に突出してガイド突起73gに相当するガイド軸173gが形成され、このガイド軸173gの後端部にネジを受容するネジ受容穴が形成されている。一方、あて板51には、開閉弁部材173を支持ボス172に枢支させた状態におけるガイド軸173gの揺動軌跡および揺動角度範囲に合わせてガイド溝51gに相当するガイド溝が形成され、このガイド溝と隣接するあて板の背面側に引っ張りバネ74のフックをネジ固定するバネ固定ボスが形成されている。   The guide arm portion 173d in the on-off valve member 173 has both the functions of the spring arm 73d and the guide projection 73g described above, and a guide shaft 173g corresponding to the guide projection 73g is formed by projecting backward at the tip of the guide arm portion 173d. A screw receiving hole for receiving a screw is formed at the rear end of the guide shaft 173g. On the other hand, the guide plate 51 is provided with a guide groove corresponding to the guide groove 51g according to the swing locus and swing angle range of the guide shaft 173g in a state where the on-off valve member 173 is pivotally supported by the support boss 172. A spring fixing boss for fixing the hook of the tension spring 74 with a screw is formed on the back side of the address plate adjacent to the guide groove.

開閉弁部材173は、軸受部73aを支持ボス172aに嵌挿するとともにガイド軸173gをガイド溝に緩挿して溝内に係合させ、あて板背面側のバネ固定ボスに引っ張りバネ74の一端側のフックをネジ固定するとともに、引っ張りバネ74の他端側のフックをガイド軸173gの後端のネジ受容穴にネジ固定することであて板51に揺動可能に取り付けられる。そして、第1球抜き機構60が組み付けられた皿本体53を外装体52に取り付け、これをあて板51の前面側に位置合わせして嵌め込んで、あて板51の背面側から外装体52および皿本体53の各部をねじ固定することにより上球皿5が一体に形成される。   The on-off valve member 173 has the bearing portion 73a fitted into the support boss 172a and the guide shaft 173g is loosely inserted into the guide groove to be engaged with the groove. And the hook on the other end side of the tension spring 74 is fixed to the screw receiving hole at the rear end of the guide shaft 173g so as to be swingably attached to the plate 51. Then, the dish body 53 with the first ball removal mechanism 60 assembled thereto is attached to the exterior body 52, and this is aligned and fitted to the front surface side of the contact plate 51, and the exterior body 52 and The upper ball tray 5 is integrally formed by fixing each part of the dish body 53 with screws.

これにより、開閉弁部材173は、弁プレート部73bが球抜き口71を塞ぐ閉鎖位置と球抜き口71を開放する開放位置との間の角度範囲で揺動可能に配設され、常には引っ張りバネ74のバネ力により弁プレート部73bが球抜き口71を塞ぐ閉鎖位置に保持される。また操作摘み73fに指を掛け引っ張りバネ74のバネ力に抗してレバー部73cを揺動させると、ガイド軸173gがガイド溝内を移動し、弁プレート部73bが傾動して球抜き口71を開放する開放位置まで揺動される。このとき開閉弁部材173の揺動角度範囲が、ガイド軸173gとガイド溝との係合に基づく揺動角度規制により上記角度範囲を超えて移動することが規制され、弁プレート部73bに無理な力が作用しないように保護される。   Thereby, the on-off valve member 173 is disposed so as to be swingable in an angular range between a closed position where the valve plate portion 73b closes the ball outlet 71 and an open position where the ball outlet 71 is opened, and is always pulled. The spring force of the spring 74 holds the valve plate portion 73b in a closed position where the bulb outlet 71 is closed. When a finger is put on the operation knob 73f and the lever portion 73c is swung against the spring force of the tension spring 74, the guide shaft 173g moves in the guide groove, and the valve plate portion 73b tilts and the ball outlet port 71 is tilted. It is swung to the open position that opens. At this time, the swing angle range of the on-off valve member 173 is restricted from moving beyond the above angle range by the swing angle restriction based on the engagement between the guide shaft 173g and the guide groove, and the valve plate portion 73b is unreasonable. It is protected from force.

一方、第2球抜き通路77の後方壁面を形成するあて板51には、段差56dの前方に位置してあて板51を前後に貫通する第2球排出口79が開口形成され(図8を併せて参照)、遊技補助盤側のスピーカーカバー31には、上球皿5の閉止姿勢で第2球排出口79と整合する位置に第2排出口79と連絡する第2抜き球受容口39が設けられている。このため、第2球抜き機構170を利用した球抜き操作により第2球抜き通路77に流入した遊技球が、第2球排出口79から第2抜き球受容口39を通ってこぼれ球通路36に流入しこぼれ球通路36を転動流下して、集合回収口26から下球皿連絡バケット37および下通出口27を通って下球皿7に流下する。   On the other hand, a second ball discharge port 79 that is located in front of the step 56d and passes through the front and rear plates 51 is formed in the front plate 51 that forms the rear wall surface of the second ball extraction passage 77 (see FIG. 8). In addition, the speaker cover 31 on the side of the game assisting board has a second ball receiving port 39 that communicates with the second discharge port 79 at a position aligned with the second ball discharge port 79 when the upper ball tray 5 is closed. Is provided. For this reason, the game ball that has flowed into the second ball removal passage 77 by the ball removal operation using the second ball removal mechanism 170 passes through the second ball removal port 79 and the spilled ball passage 36. Spilled through the spilled ball passage 36 and flows down from the collection port 26 to the lower ball tray 7 through the lower ball tray connecting bucket 37 and the lower outlet 27.

従って、本構成の第2球抜き機構170を備えたパチンコ機においても、上述したパチンコ機PMと同様に第1球抜き機構60、第2球抜き機構70の何れか一方または両方を操作して貯留された遊技球の球抜き作業を行うことができ、同様の効果を得ることができる。また、第2球抜き通路77に流入する遊技球を、第2排出口79からこぼれ球通路に流下させる通路構成により、第1および第2球抜き機構60,170を同時に球抜き操作したときの下球皿7への単位時間あたりの流下量を増大させることができ、これにより単一の球排出口68を設けた場合よりもさらに迅速な球抜き作業を行うことができる。   Therefore, even in a pachinko machine equipped with the second ball removal mechanism 170 of this configuration, one or both of the first ball removal mechanism 60 and the second ball removal mechanism 70 are operated in the same manner as the pachinko machine PM described above. The stored game balls can be removed and the same effect can be obtained. In addition, when the first and second ball removal mechanisms 60 and 170 are operated to remove the ball simultaneously by the passage configuration in which the game ball flowing into the second ball removal passage 77 flows down from the second discharge port 79 to the spilling ball passage. It is possible to increase the amount of flow per unit time to the lower ball tray 7, and thereby it is possible to perform the ball removal operation more quickly than when a single ball discharge port 68 is provided.

なお、以上では、球抜き口71を開閉する開閉弁部材73,173の変移形態として、前後方向に延びる支持ボス(揺動軸)を中心として時計廻り・反時計廻りに揺動させる形態を例示したが、開閉弁部材の変移形態は球抜き口71を開閉し得るものであれば他の形態であってもよく、例えば弁プレート部を左右方向に延びる軸廻りに上下に揺動させ、あるいは弁プレート部を前後または左右方向にスライドさせて球抜き口71を開閉するように構成してもよい。   In the above description, as a transition form of the on-off valve members 73 and 173 that open and close the ball outlet 71, a form in which the support boss (swinging shaft) extending in the front-rear direction is swung clockwise or counterclockwise is illustrated. However, the change form of the on-off valve member may be other forms as long as it can open and close the ball outlet 71. For example, the valve plate portion is swung up and down around an axis extending in the left-right direction, or The ball outlet 71 may be opened and closed by sliding the valve plate part back and forth or left and right.

また構成例では、開閉弁部材73,173にレバー部73cを形成してあて板51の前面側に延出させるとともに先端に操作摘み73fを設け、この操作摘み73fを揺動させることで開閉弁部材73,173を直接開閉変移させる形態を例示したが、操作形態は球皿各部の構成や弁プレートの変移形態等に合わせて適宜変更することができ、例えば図13に二点鎖線で付記するように、開閉弁部材に連結された操作部173fを上球皿5の側方に導出して左右方向にスライド操作したり、操作部を上球皿5の前面側あるいは下面側に導出して導出方向にスライド操作し、または前後若しくは左右方向に延びる揺動軸廻りに揺動操作するような操作形態であってもよい。   In the configuration example, a lever portion 73c is formed on the opening / closing valve members 73 and 173 to extend to the front side of the contact plate 51, and an operation knob 73f is provided at the tip, and the operation knob 73f is swung to swing the opening / closing valve. Although the form which directly opens and closes the members 73 and 173 is illustrated, the operation form can be appropriately changed according to the configuration of each part of the ball tray, the change form of the valve plate, etc., for example, it is indicated by a two-dot chain line in FIG. As described above, the operation portion 173f connected to the on-off valve member is led out to the side of the upper ball tray 5 and slid in the left-right direction, or the operation portion is led to the front surface side or the lower surface side of the upper ball tray 5. An operation mode in which a slide operation is performed in the lead-out direction or a swing operation is performed around a swing shaft extending in the front-rear or left-right direction may be employed.

さらに、実施形態では、本発明に係る球皿の構成を、上下2段の球皿(上球皿5、下球皿7)を有するパチンコ機に適用した場合を例示したが、単段の球皿を有するパチンコ機やアーケードゲーム機、スマートボール機等についても、遊技球を貯留する球皿を有する弾球遊技機であれば同様に適用し同様の効果を得ることができる。   Furthermore, in the embodiment, the case where the configuration of the ball tray according to the present invention is applied to a pachinko machine having two upper and lower ball trays (upper ball tray 5 and lower ball tray 7) is exemplified. A pachinko machine having a dish, an arcade game machine, a smart ball machine, and the like can be similarly applied to a ball game machine having a ball tray for storing game balls, and the same effect can be obtained.

本発明に係る球皿を備えた遊技機の一例として示すパチンコ機の正面図である。It is a front view of the pachinko machine shown as an example of the game machine provided with the ball tray concerning the present invention. 上記パチンコ機の背面図である。It is a rear view of the pachinko machine. 図1中のIII〜矢視方向に見た平断面図である。It is the plane sectional view seen in the III-arrow direction in FIG. 図1中のIV−IV矢視方向に見た側断面図である。It is the sectional side view seen in the IV-IV arrow direction in FIG. 球送り装置を取り外した状態で第1球抜き機構を主として示す球皿の背面図である。It is a rear view of a ball pan mainly showing the 1st ball removal mechanism in the state where a ball feeder was removed. 第2球抜き機構を主として示す球皿の背面図である。It is a rear view of the ball tray which mainly shows the 2nd ball removal mechanism. 球皿を分解した状態で示す第2球抜き機構の分解斜視図である。It is a disassembled perspective view of the 2nd ball removal mechanism shown in the state which decomposed | disassembled the ball tray. 第2球抜き機構の正面図(部分断面図)である。It is a front view (partial sectional view) of the second ball removal mechanism. 第2球抜き機構近傍の球通路を主として示す平断面図である。It is a plane sectional view mainly showing a ball passage near the 2nd ball removal mechanism. 貯留案内皿に形成された段差およびこの段差を挟む支持面の傾斜角度の関係を示す説明図(背面図)である。It is explanatory drawing (rear view) which shows the relationship between the level | step difference formed in the storage guide plate, and the inclination-angle of the support surface which pinches | interposes this level | step difference. 第2球抜き機構の作用を示す説明図(背面図)である。It is explanatory drawing (back view) which shows the effect | action of a 2nd ball removal mechanism. 第2球抜き機構の周辺部分の球流れを示す平断面図である。It is a plane sectional view showing the sphere flow of the peripheral part of the 2nd ball extraction mechanism. 第2球抜き機構の他の構成例を示す分解斜視図である。It is a disassembled perspective view which shows the other structural example of a 2nd ball removal mechanism. 上記他の構成例における第2球抜き機構周辺の球通路を主として示す平断面図である。It is a plane sectional view which mainly shows the ball passage around the 2nd ball extraction mechanism in the above-mentioned other composition examples.

符号の説明Explanation of symbols

PM パチンコ機
PA 遊技領域
α 流下案内部の支持面の傾斜角度
β 球貯留部の支持面の傾斜角度
h 段差の大きさ
1 外枠
2 前枠
3 ガラス扉
4 ヒンジ機構
5 上球皿
7 下球皿
8 発射ハンドル
10 遊技盤
11 化粧板
12 外レール
13 内レール
14 入賞具
15 画像表示装置
18 アウト口
20 遊技補助盤
21 遊技球発射装置
22 発射レール
25 上通出口
26 集合回収口
27 下通出口
31 スピーカーカバー
32 ファール球回収口
33 ファール球回収通路
35 球受け口
36 こぼれ球回収通路
37 下球皿連絡バケット
38 抜き球受容口
39 第2抜き球受容口
40 裏セット盤
41 球貯留タンク
42 タンクレール
43 球払出装置
44 仕切壁
45 上払出通路
46 溢れ球通路
47 下払出通路
48 遊技済み球排出通路
51 あて板
(51c レバー収容部、51g ガイド溝、51h 不正防止カバー)
52 外装体
53 皿本体
55 通出樋
56 貯留案内皿
(56a 流下案内部、56b 球貯留部、56d 段差)
57 発射球整列通路
58 球送り口
59 球送り装置
(59c 球送りカム)
60 第1球抜き機構
61 球抜きレバー
62 リンクアーム
63 弁部材
(63s シャッター部)
64 コイルバネ
67 第1球抜き通路
68 球排出口
70 第2球抜き機構
71 球抜き口
72 前方壁面
(72a 支持ボス)
73 開閉弁部材
(73a 軸受部、73b 弁プレート部、73c レバー部、73d バネアーム部、 73f 操作摘み、73g ガイド突起)
74 引っ張りバネ
76 座金組み込みネジ
77 第2球抜き通路
(77a,77b 通路壁)
79 第2球排出口
170 第2球抜き機構
172a 支持ボス
173 開閉弁部材
(173d ガイドアーム部、173g ガイド軸)
PM Pachinko machine PA Game area α Inclination angle of the support surface of the flow guide section β Inclination angle of the support surface of the ball storage section h Step size 1 Outer frame 2 Front frame 3 Glass door 4 Hinge mechanism 5 Upper ball dish 7 Lower ball Plate 8 Launch handle 10 Game board 11 Dressing plate 12 Outer rail 13 Inner rail 14 Prize-winning tool 15 Image display device 18 Out port 20 Game auxiliary board 21 Game ball launch device 22 Launch rail 25 Upper exit 26 Collecting recovery port 27 Lower exit 31 Speaker cover 32 Foul ball collection port 33 Foul ball collection passage 35 Ball reception port 36 Spilled ball collection passage 37 Lower ball tray connection bucket 38 Bump ball reception port 39 Second ball reception port 40 Back set board 41 Ball storage tank 42 Tank rail 43 Ball Dispensing Device 44 Partition Wall 45 Upper Discharge Passage 46 Overflow Ball Passage 47 Lower Discharge Passage 48 Played Ball Discharge Passage 51 Addressing Plate (51c (Lever housing part, 51g guide groove, 51h fraud prevention cover)
52 Exterior body 53 Dish body 55 Outlet 56 Storage guide tray (56a Flow guide part, 56b Sphere storage part, 56d step)
57 Launch ball alignment passage 58 Ball feed port 59 Ball feed device (59c ball feed cam)
60 first ball removal mechanism 61 ball removal lever 62 link arm 63 valve member (63s shutter part)
64 Coil spring 67 First ball removal passage 68 Ball discharge port 70 Second ball removal mechanism 71 Ball removal port 72 Front wall surface (72a support boss)
73 On-off valve member (73a bearing part, 73b valve plate part, 73c lever part, 73d spring arm part, 73f operation knob, 73g guide protrusion)
74 Tension spring 76 Washer built-in screw 77 Second ball passage (77a, 77b passage wall)
79 Second ball discharge port 170 Second ball removal mechanism 172a Support boss 173 Open / close valve member (173d guide arm portion, 173g guide shaft)

Claims (1)

多数の遊技球を貯留し得る貯留案内皿を有し、前記貯留案内皿に貯留された遊技球を整列させて球送り装置に流下させる弾球遊技機の球皿において、
前記貯留案内皿における遊技球の支持面は、ともに下流に向けて低くなる下流側の第1傾斜支持面と上流側の第2傾斜支持面とからなり、
前記第2傾斜支持面の傾斜角が前記第1傾斜支持面の傾斜角よりも小さく形成されるとともに、前記第1傾斜支持面と前記第2傾斜支持面との接続部には段差が設けられて当該接続部において前記第2傾斜支持面が前記第1傾斜支持面よりも高く配設されており、
前記第1傾斜支持面の下流側には、前記球送り装置に遊技球を導く通路壁の一部を開閉操作して、前記貯留案内皿に貯留された遊技球を球抜き通路に流下可能な第1球抜き機構が設けられ、
前記第2傾斜支持面における下流部には、当該第2傾斜支持面の一部を開閉操作して、前記貯留案内皿の上流側に貯留された遊技球を前記球抜き通路に合流させて流下可能な第2球抜き機構が設けられていることを特徴とする弾球遊技機の球皿。
In a ball tray of a ball game machine that has a storage guide tray that can store a large number of game balls, aligns the game balls stored in the storage guide tray and flows down to a ball feeder,
The support surface of the game ball in the storage guide tray is composed of a first inclined support surface on the downstream side and a second inclined support surface on the upstream side, both lowering toward the downstream,
An inclination angle of the second inclined support surface is formed smaller than an inclination angle of the first inclined support surface, and a step is provided at a connection portion between the first inclined support surface and the second inclined support surface. In the connection portion, the second inclined support surface is disposed higher than the first inclined support surface,
On the downstream side of the first inclined support surface, a part of the passage wall that guides the game ball to the ball feeding device can be opened and closed so that the game ball stored in the storage guide tray can flow down to the ball passage. A first ball removal mechanism is provided;
At the downstream portion of the second inclined support surface, a part of the second inclined support surface is operated to open and close, and the game balls stored on the upstream side of the storage guide plate are joined to the ball extraction passage and flow down. A ball tray for a ball game machine, wherein a possible second ball removal mechanism is provided.
JP2003422008A 2003-12-19 2003-12-19 Ball tray of pinball game machine Pending JP2005177109A (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2011104182A (en) * 2009-11-19 2011-06-02 Nippon Pachinko Buhin Kk Game machine

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2011104182A (en) * 2009-11-19 2011-06-02 Nippon Pachinko Buhin Kk Game machine

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