JP5384457B2 - Game machine - Google Patents

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JP5384457B2
JP5384457B2 JP2010214573A JP2010214573A JP5384457B2 JP 5384457 B2 JP5384457 B2 JP 5384457B2 JP 2010214573 A JP2010214573 A JP 2010214573A JP 2010214573 A JP2010214573 A JP 2010214573A JP 5384457 B2 JP5384457 B2 JP 5384457B2
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movable
movable body
movable member
receiving portion
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JP2012065923A (en
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勝公 末原
健二 木股
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Newgin Co Ltd
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この発明は、可動部材の動作により演出を行なう可動演出装置を備えた遊技機に関するものである。   The present invention relates to a gaming machine including a movable effect device that produces an effect by operation of a movable member.

代表的な遊技機であるパチンコ機は、機内にセットされる遊技盤の盤面に画成した遊技領域の略中央位置に枠状の装飾部材(所謂センター役物)が配設されて、該装飾部材の開口から液晶式やドラム式等の図柄表示装置を臨ませ、この図柄表示装置で図柄組み合わせゲームやリーチ演出等の遊技演出を行なうよう構成されている。また、パチンコ機では、所要の動作を行なう可動部材を備えた可動演出装置を装飾部材に配設し、該可動部材を図柄表示装置で行なわれる遊技演出に合わせて動作させることにより、視覚的な演出効果を向上させて遊技の興趣を高めている(例えば、特許文献1参照)。   A pachinko machine, which is a typical gaming machine, has a frame-shaped decorative member (a so-called center accessory) arranged at a substantially central position of a gaming area defined on a board surface of a gaming board set in the machine. A symbol display device such as a liquid crystal type or a drum type is exposed from the opening of the member, and the symbol display device is configured to perform a game effect such as a symbol combination game or a reach effect. Further, in a pachinko machine, a movable effect device having a movable member that performs a required operation is arranged on a decorative member, and the movable member is operated in accordance with a game effect performed by a symbol display device, thereby visually The effect of the game is enhanced by improving the production effect (see, for example, Patent Document 1).

特許文献1に開示の可動演出装置では、固定部に上下方向に延在するよう溝が開設され、該溝に軸を摺動自在に挿入することでベース部材が固定部に対して上下方向に往復動自在に配設されると共に、このベース部材に上下方向に延在するよう溝が開設され、該溝に軸を摺動自在に挿入することで可動部がベース部材に対して上下方向に往復動自在に配設されている。また、可動部には装飾性を有する可動演出部材が一体的に配設される。そして、可動演出装置は、モータによりベース部材を上下動するのに伴って可動部が上下動することで、可動部に設けた可動演出部材が上下方向に変位して動作による演出を行なうようになっている。   In the movable effect device disclosed in Patent Literature 1, a groove is formed in the fixed portion so as to extend in the vertical direction, and the base member is vertically moved with respect to the fixed portion by inserting a shaft in the groove so as to be slidable. A groove is formed in the base member so as to reciprocate and extend in the vertical direction. By inserting a shaft slidably in the groove, the movable portion moves in the vertical direction with respect to the base member. The reciprocating movement is provided. In addition, a movable effect member having a decorative property is integrally disposed in the movable portion. In the movable effect device, the movable part moves up and down as the base member is moved up and down by the motor, so that the movable effect member provided in the movable part is displaced in the vertical direction to produce an effect by the operation. It has become.

特開2007−319374号公報JP 2007-319374 A

特許文献1に開示の可動演出装置は、固定部と、この固定部に対して上下動するベース部材とが摺接する関係にあり、更にベース部材と、このベース部材に対して上下動する可動部とが摺接する関係にあるので、ベース部材および可動部を動作する際には摺接負荷がかかる。このため、可動演出部材(可動部)を下降する際には、可動演出部材の自重をうまく活かせず、下降に際してもモータの駆動力が大きく必要とされる。特に、可動演出部材を上昇する際には、前述した摺接負荷に加えて可動演出部材の自重もかかるため、モータに必要とされる駆動力が大きくなってモータの大型化に繋がったり、可動演出部材の動作スピードが遅いために興醒めする不都合を招来する。
すなわち本発明は、従来の技術に係る遊技機に内在する前記問題に鑑み、これらを好適に解決するべく提案されたものであって、可動部材の演出動作を円滑に行ない得る可動演出装置を備えた遊技機を提供することを目的とする。
In the movable effect device disclosed in Patent Document 1, the fixed portion and the base member that moves up and down with respect to the fixed portion are in sliding contact, and the base member and the movable portion that moves up and down with respect to the base member. Are in sliding contact with each other, a sliding load is applied when the base member and the movable portion are operated. For this reason, when the movable effect member (movable part) is lowered, the weight of the movable effect member cannot be utilized well, and a large driving force of the motor is required even when the movable effect member is lowered. In particular, when the movable effect member is raised, in addition to the sliding contact load described above, the weight of the movable effect member is also applied, which increases the driving force required for the motor, leading to an increase in the size of the motor, Since the operation speed of the production member is slow, it causes inconvenience to awaken.
That is, the present invention has been proposed in order to suitably solve these problems inherent in the gaming machine according to the prior art, and includes a movable effect device capable of smoothly performing the effect operation of the movable member. The purpose is to provide a game machine.

前記課題を克服し、所期の目的を達成するため、本願の請求項1に係る発明は、
可動部材(41)の動作により演出を行なう可動演出装置(37)を備えた遊技機において、
前記可動演出装置(37)は、
装置本体部(47)と、
前記装置本体部(47)に設けられ、前記可動部材(41)を該装置本体部(47)に対して上下方向に往復動可能に支持する転がり軸受(51)と、
前記可動部材(41)に連繋され、該可動部材(41)を上下方向に往復動する駆動部(42)と、
前記可動部材(41)に設けられて側方に延在する腕部(53)に左右方向に移動可能に配設された可動体(43)と、
前記可動体(43)と前記可動部材(41)とに連繋され、該可動部材(41)の上下動に伴って可動体(43)を左右方向に変位させる連繋機構(44)とを備えたことを特徴とする。
請求項1に係る発明によれば、固定側のベース部材に対して可動部材が、摺接する構造と比べて抵抗の小さい転がり軸受を介して支持されているので、可動部材を円滑に動作させることができると共に、駆動部に対する負荷を軽減できる。また、横方向に延びる腕部に可動体が左右方向に移動自在に配設されるので、可動部材における転がり軸受での支持部分に対して斜め下方向に可動体の重量がかかるが、該転がり軸受によって可動部材の上下動を円滑に行ない得る。
In order to overcome the above-mentioned problems and achieve the intended purpose, the invention according to claim 1 of the present application provides:
In a gaming machine equipped with a movable effect device (37) that produces an effect by the operation of the movable member (41),
The movable effect device (37)
The device body (47),
A rolling bearing (51) provided in the apparatus main body (47) and supporting the movable member (41) so as to be capable of reciprocating in the vertical direction with respect to the apparatus main body (47);
A drive unit (42) connected to the movable member (41) and reciprocating up and down the movable member (41);
A movable body (43) provided on the movable member (41) and disposed laterally on an arm part (53) extending laterally;
The movable body (43) and the movable member (41) are connected to each other, and provided with a linkage mechanism (44) for moving the movable body (43) in the left-right direction as the movable member (41) moves up and down. It is characterized by that.
According to the first aspect of the invention, since the movable member is supported via the rolling bearing having a lower resistance than the structure in which the movable member is in sliding contact with the base member on the fixed side, the movable member can be operated smoothly. And the load on the drive unit can be reduced. Further, since the movable body is disposed on the arm portion extending in the lateral direction so as to be movable in the left-right direction, the weight of the movable body is applied obliquely downward with respect to the support portion of the movable member at the rolling bearing. The movable member can be smoothly moved up and down by the bearing.

請求項2に係る発明では、前記転がり軸受(51)は、前記装置本体部(47)に対して固定された外受部(58)と、前記可動部材(41)に対して固定された内受部(59)と、外受部(58)と内受部(59)との間に位置し、該外受部(58)および内受部(59)に接触する複数の転動体(60)を上下方向に離間して転動可能に保持する中受部(61)とを有し、前記外受部(58)に対して中受部(61)が前記転動体(60)によって上下方向に往復動可能に支持されると共に、前記中受部(61)に対して内受部(59)が前記転動体(60)によって上下方向に往復動可能に支持されることを要旨とする。
請求項2に係る発明によれば、可動部材を円滑に動作させることができると共に、駆動部に対する負荷を軽減できる。
In the invention according to claim 2, the rolling bearing (51) includes an outer receiving portion (58) fixed to the device main body (47) and an inner portion fixed to the movable member (41). A plurality of rolling elements (60) positioned between the receiving portion (59) and the outer receiving portion (58) and the inner receiving portion (59) and in contact with the outer receiving portion (58) and the inner receiving portion (59). ) In the vertical direction so as to be able to roll apart, and the middle receiving portion (61) is vertically moved by the rolling element (60) with respect to the outer receiving portion (58). And the inner receiving portion (59) is supported by the rolling element (60) so as to be able to reciprocate in the vertical direction with respect to the inner receiving portion (61). .
According to the invention which concerns on Claim 2, while being able to operate a movable member smoothly, the load with respect to a drive part can be reduced.

請求項3に係る発明では、前記可動部材(41)は、上下方向に延在する可動基部(52)と、該可動基部(52)の上端部から側方に延出する前記腕部(53)とを有し、前記可動基部(52)に前記内受部(59)が固定されると共に、前記中受部(61)には、内受部(59)の左右両側に、前記外受部(58)および内受部(59)に接触する複数の前記転動体(60)が上下方向に離間して転動可能に保持されることを要旨とする。
請求項3に係る発明によれば、可動部材をより円滑に動作させることができる。
In the invention according to claim 3, the movable member (41) includes a movable base portion (52) extending in the vertical direction and the arm portion (53) extending laterally from an upper end portion of the movable base portion (52). ), The inner receiving portion (59) is fixed to the movable base (52), and the inner receiving portion (61) has the outer receiving portion on both the left and right sides of the inner receiving portion (59). The gist is that the plurality of rolling elements (60) that come into contact with the part (58) and the inner receiving part (59) are separated from each other in the vertical direction and held so as to be able to roll.
According to the invention which concerns on Claim 3, a movable member can be operated more smoothly.

請求項4に係る発明では、前記可動部材(41)の上端部と、前記装置本体部(47)における可動部材(41)の上端部に上側で対向する部位との何れか一方に磁力吸着部材(49)が設けられると共に他方に被磁力吸着部材(54)が設けられ、前記可動部材(41)の上側の待機位置において磁力吸着部材(49)が被磁力吸着部材(54)を磁力吸着するよう構成したことを要旨とする。
請求項4に係る発明によれば、磁力吸着部材で被磁力吸着部材を磁力吸着して可動部材を待機位置で保持できるので、遊技盤が振動等しても可動部材の誤動作を防止できる。
According to a fourth aspect of the present invention, there is provided a magnetic force adsorbing member on one of the upper end portion of the movable member (41) and the upper portion of the apparatus main body portion (47) facing the upper end portion of the movable member (41). (49) is provided, and the other member is provided with a attracted member (54), and the attracted member (49) attracts the attracted member (54) at the standby position above the movable member (41). The summary is as follows.
According to the fourth aspect of the present invention, since the magnetically attracted member is magnetically attracted by the magnetic force attracting member and the movable member can be held at the standby position, malfunction of the movable member can be prevented even if the game board vibrates.

請求項5に係る発明では、前記駆動部(42)は、前記装置本体部(47)における前記転がり軸受(51)を挟んで前記可動部材(41)における前記腕部(53)の延在側とは反対側に設けられたモータ(64)と、前記可動部材(41)におけるモータ(64)側の側部に設けられたラック(68)と、該ラック(68)と噛合して前記モータ(64)により回転駆動されるピニオン(67)とを有することを要旨とする。
請求項5に係る発明によれば、駆動部が腕部の動作の邪魔にならず、可動部材を安定して動作できる。
In the invention according to claim 5, the drive part (42) is an extension side of the arm part (53) in the movable member (41) across the rolling bearing (51) in the apparatus main body part (47). A motor (64) provided on the opposite side of the motor, a rack (68) provided on a side of the movable member (41) on the motor (64) side, and the rack (68) meshing with the motor And a pinion (67) that is rotationally driven by (64).
According to the invention which concerns on Claim 5, a drive part does not interfere with operation | movement of an arm part, but can operate a movable member stably.

本発明に係る遊技機によれば、可動演出装置に設けた可動部材の演出動作を円滑に行ない得る。   According to the gaming machine according to the present invention, it is possible to smoothly perform the rendering operation of the movable member provided in the movable rendering device.

本発明の好適な実施例に係るパチンコ機を示す正面図である。1 is a front view showing a pachinko machine according to a preferred embodiment of the present invention. 実施例に係る遊技盤を示す正面図である。It is a front view which shows the game board which concerns on an Example. 実施例に係る遊技盤と裏部材とを分解した状態で示す縦断側面図である。It is a vertical side view shown in the state which decomposed | disassembled the game board and back member which concern on an Example. 実施例に係る遊技盤と裏部材とを分解した状態で示す横断平面図である。It is a cross-sectional top view shown in the state which decomposed | disassembled the game board and back member which concern on an Example. 実施例に係る裏部材を、各可動演出装置の各可動体が待機位置にある状態で示す正面図である。It is a front view which shows the back member which concerns on an Example in the state which has each movable body of each movable production | presentation apparatus in a standby position. 実施例に係る裏部材を、各可動演出装置の各可動体が作動位置にある状態で示す正面図である。It is a front view which shows the back member which concerns on an Example in the state which has each movable body of each movable production | presentation apparatus in an operating position. 実施例に係る第1可動演出装置を前側から視た分解斜視図である。It is the disassembled perspective view which looked at the 1st movable production device concerning an example from the front side. 実施例に係る第1可動演出装置を後側から視た分解斜視図である。It is the disassembled perspective view which looked at the 1st movable production device concerning an example from the back side. 実施例に係る第1可動演出装置の可動部材および第1連繋機構を前側から視た拡大分解斜視図である。It is the expansion exploded perspective view which looked at the movable member and the 1st linkage mechanism of the 1st movable production device concerning an example from the front side. 実施例に係る第1可動演出装置の可動部材および第1連繋機構を後側から視た拡大分解斜視図である。It is the expansion exploded perspective view which looked at the movable member and the 1st linkage mechanism of the 1st movable production device concerning an example from the back side. 実施例に係る第1可動演出装置の転がり軸受を前側から視た拡大分解斜視図である。It is the expansion disassembled perspective view which looked at the rolling bearing of the 1st movable production | presentation apparatus which concerns on an Example from the front side. 実施例に係る第1可動演出装置を第1可動体が待機位置の状態で示す背面図である。It is a rear view which shows the 1st movable production | presentation apparatus which concerns on an Example in the state in which a 1st movable body is a standby position. 図12のA−A線断面図であって、転がり軸受の一部を省略して示す。It is AA sectional view taken on the line of FIG. 12, Comprising: A part of rolling bearing is abbreviate | omitted and shown. 図12のB−B線断面図である。It is the BB sectional view taken on the line of FIG. 図12のC−C線断面図である。It is CC sectional view taken on the line of FIG. 図12のD−D線断面図である。It is the DD sectional view taken on the line of FIG. 図16における転がり軸受の配設部位を示す要部拡大図である。It is a principal part enlarged view which shows the arrangement | positioning site | part of the rolling bearing in FIG. 実施例に係る第1可動演出装置を、第1カバー部材を取外し、第1可動体が待機位置の状態で示す概略正面図である。It is a schematic front view which shows the 1st movable production | presentation apparatus which concerns on an Example in the state which removed the 1st cover member and the 1st movable body is a standby position. 実施例に係る第1可動演出装置を、第1ベース部材を取外し、第1可動体が待機位置の状態で示す概略背面図である。It is a schematic back view which shows the 1st movable production | presentation apparatus which concerns on an Example in the state which removed the 1st base member and the 1st movable body is a standby position. 実施例に係る第1可動演出装置を第1可動体が作動位置の状態で示す背面図である。It is a rear view which shows the 1st movable production | presentation apparatus which concerns on an Example in the state in which a 1st movable body is an operation position. 実施例に係る第1可動演出装置を、第1カバー部材を取外し、第1可動体が作動位置の状態で示す概略正面図である。It is a schematic front view which shows the 1st movable production | presentation apparatus which concerns on an Example in the state which removed the 1st cover member and the 1st movable body is an operation position. 実施例に係る第1可動演出装置を、第1ベース部材を取外し、第1可動体が作動位置の状態で示す概略背面図である。It is a schematic back view which shows the 1st movable production | presentation apparatus which concerns on an Example in the state which removed the 1st base member and the 1st movable body is an operation position. 実施例に係る第2可動演出装置を前側から視た分解斜視図である。It is the disassembled perspective view which looked at the 2nd movable production device concerning an example from the front side. 実施例に係る第2可動演出装置を後側から視た分解斜視図である。It is the disassembled perspective view which looked at the 2nd movable production device concerning an example from the back side. 実施例に係る第2可動演出装置の第2駆動部および第2連繋機構を前側から視た拡大分解斜視図である。It is the expansion exploded perspective view which looked at the 2nd drive part and the 2nd linkage mechanism of the 2nd movable production device concerning an example from the front side. 実施例に係る第2可動演出装置の第3駆動部および第3連繋機構を前側から視た拡大分解斜視図である。It is the expansion exploded perspective view which looked at the 3rd drive part and the 3rd linkage mechanism of the 2nd movable production device concerning an example from the front side. 実施例に係る斜動第2可動体を後側から視た拡大分解斜視図である。It is the expansion disassembled perspective view which looked at the tilting 2nd movable body which concerns on an Example from the rear side. 実施例に係る直動第2可動体を後側から視た拡大分解斜視図である。It is the expansion exploded perspective view which looked at the direct-acting 2nd movable object concerning an example from the back side. 実施例に係る第2可動演出装置の第2駆動部および第2連繋機構を後側から視た拡大分解斜視図である。It is the expansion exploded perspective view which looked at the 2nd drive part and the 2nd linkage mechanism of the 2nd movable production device concerning an example from the back side. 実施例に係る第2可動演出装置を、第2可動体が待機位置の状態で示す概略正面図である。It is a schematic front view which shows the 2nd movable production device which concerns on an Example in the state in which a 2nd movable body is a standby position. 図30のE−E線断面図である。It is the EE sectional view taken on the line of FIG. 実施例に係る第2可動演出装置を、第1および第2カバー部品を取外すと共に両第2可動体を想像線で示し、両第2可動体が待機位置の状態で示す概略正面図である。FIG. 6 is a schematic front view of the second movable effect device according to the embodiment, in which the first and second cover parts are removed, both the second movable bodies are indicated by imaginary lines, and both the second movable bodies are in the standby position. 実施例に係る第2可動演出装置を、第2カバー部材を取外すと共に両第2可動体を想像線で示し、両第2可動体が待機位置の状態で示す概略正面図である。It is a schematic front view which removes a 2nd cover member and shows both 2nd movable bodies with an imaginary line, and shows both 2nd movable bodies in the state of a standby position about the 2nd movable production apparatus which concerns on an Example. 実施例に係る第2可動演出装置を、第2カバー部材を取外すと共に両第2可動体を想像線で示し、ラック部材が第1部材に当接した状態で示す概略正面図である。It is a schematic front view which shows the 2nd movable production | presentation apparatus which concerns on an Example, removes a 2nd cover member, shows both 2nd movable bodies with an imaginary line, and the rack member contact | abutted to the 1st member. 実施例に係る第2可動演出装置を、第2連繋機構および第3連繋機構の関係を、ラック部材が第1部材に当接した状態で示す概略背面図である。It is a schematic rear view which shows the relationship between a 2nd connection mechanism and a 3rd connection mechanism in the state which the rack member contact | abutted the 1st member for the 2nd movable production | presentation apparatus which concerns on an Example. 実施例に係る第2可動演出装置を、第1および第2カバー部品を取外すと共に両第2可動体を想像線で示し、両第2可動体が作動位置の状態で示す概略正面図である。FIG. 5 is a schematic front view of the second movable effect device according to the embodiment, in which the first and second cover parts are removed, both the second movable bodies are indicated by imaginary lines, and both the second movable bodies are in the operating position. 実施例に係る第2可動演出装置を、第2カバー部材を取外すと共に両第2可動体を想像線で示し、両第2可動体が作動位置の状態で示す概略正面図である。It is a schematic front view which removes a 2nd cover member and shows both 2nd movable bodies with an imaginary line, and shows both the 2nd movable bodies in the state of an operation position about the 2nd movable production apparatus which concerns on an Example. 実施例に係る第2可動演出装置を、第2連繋機構および第3連繋機構の関係を、両第2可動体が作動位置の状態で示す概略背面図である。It is a schematic back view which shows the relationship of a 2nd connection mechanism and a 3rd connection mechanism in the state which both 2nd movable bodies act | operate to the 2nd movable production apparatus which concerns on an Example. 実施例に係る第2可動演出装置を、第1および第2カバー部品を取外した状態で、第3駆動部で直動第2可動体のみを動作させた状態を示す概略正面図である。It is a schematic front view which shows the state which operated only the direct-acting 2nd movable body with the 3rd drive part in the state which removed the 1st and 2nd cover components about the 2nd movable production device which concerns on an Example.

次に、本発明に係る遊技機につき、好適な実施例を挙げて、添付図面を参照しながら以下詳細に説明する。なお、実施例では、遊技球としてパチンコ球を用いて遊技を行なうパチンコ機を例に挙げて説明する。また、以下の説明において、「前」、「後」、「左」、「右」とは、特に断りのない限り、図1に示すようにパチンコ機を前側(遊技者側)から見た状態で指称する。   Next, the gaming machine according to the present invention will be described in detail below with reference to the accompanying drawings by way of preferred embodiments. In the embodiment, a pachinko machine that plays a game using a pachinko ball as a game ball will be described as an example. Further, in the following description, “front”, “rear”, “left”, and “right” are states when the pachinko machine is viewed from the front side (player side) as shown in FIG. 1 unless otherwise specified. It points at.

(パチンコ機について)
実施例に係るパチンコ機10は、図1に示すように、矩形枠状に形成されて遊技店の図示しない設置枠台に固定される固定枠としての外枠11の開口前面側に、後述する遊技盤18(図2参照)が着脱可能に保持された本体枠としての中枠12が開閉および着脱可能に組付けられて、該遊技盤18の裏側に対して、各種図柄を変動表示可能な図柄表示装置13が着脱し得るよう配設されている(図3,図4参照)。また、中枠12の前面側には、遊技盤18を透視保護するガラス板を備えた装飾枠としての前枠14が開閉可能に組付けられると共に、該前枠14の下方にパチンコ球を貯留する下球受け皿15が開閉可能に組付けられる。なお、実施例では、前枠14の下部位置に、パチンコ球を貯留する上球受け皿16が一体的に組付けられており、前枠14の開閉に合わせて上球受け皿16も一体的に開閉するよう構成される。また、中枠12の裏側には、遊技に供されたパチンコ球を遊技店側に設けた球回収設備に排出する球回収部(図示せず)が設けられる。
(About pachinko machines)
As shown in FIG. 1, the pachinko machine 10 according to the embodiment will be described later on the front side of the opening of the outer frame 11 as a fixed frame that is formed in a rectangular frame shape and fixed to an installation frame base (not shown) of the amusement store. A middle frame 12 as a body frame on which a game board 18 (see FIG. 2) is detachably held is assembled so as to be openable and detachable, and various symbols can be variably displayed on the back side of the game board 18. The symbol display device 13 is arranged to be detachable (see FIGS. 3 and 4). Further, a front frame 14 as a decorative frame provided with a glass plate that protects the game board 18 from seeing through is assembled on the front side of the middle frame 12 so as to be openable and closable, and a pachinko ball is stored below the front frame 14. The lower ball tray 15 is assembled so as to be openable and closable. In the embodiment, an upper ball tray 16 for storing pachinko balls is integrally assembled at a lower position of the front frame 14, and the upper ball tray 16 is also opened and closed integrally with the opening and closing of the front frame 14. Configured to do. Further, on the back side of the middle frame 12, a ball collection unit (not shown) is provided for discharging pachinko balls used for games to a ball collection facility provided on the game store side.

(遊技盤について)
前記中枠12に配設される前記遊技盤18は、図2に示すように、前面(盤面)にパチンコ球が流下可能な遊技領域18aが画成され、合板等の木製からなる平板状の板部材で構成される。遊技盤18の前面には、円弧状に形成した案内レール20が配設されると共に、該案内レール20の右方位置に、左端縁が右方に凹む円弧状に形成した第1盤面飾り部材21が配設される。そして、案内レール20および第1盤面飾り部材21により遊技領域18aが略円形状に画成され、該遊技領域18aに、中枠12に配設された図示しない打球発射装置から発射されたパチンコ球が遊技領域18a内に打ち出され、該遊技領域18a内をパチンコ球が流下して遊技が行なわれる。なお、打球発射装置から発射されたパチンコ球は、遊技盤18の下側から左側に案内レール20で案内されて、遊技領域18aの左上部に打ち出される。また、遊技盤18の遊技領域18a内には、多数の遊技釘が植設されており、該遊技釘との接触により遊技領域18aを流下するパチンコ球の流下方向が不規則に変化するよう構成してある。なお、遊技盤18の盤面には、案内レール20の左方(遊技領域18aの外側)の上下位置に第2盤面飾り部材22が夫々が配設される。
(About game board)
As shown in FIG. 2, the game board 18 disposed in the inner frame 12 has a game area 18a in which a pachinko ball can flow down on the front surface (board surface), and is made of a flat plate made of wood such as plywood. It consists of a plate member. A guide rail 20 formed in an arc shape is disposed on the front surface of the game board 18, and a first board surface decoration member formed in an arc shape whose left edge is recessed rightward at a right position of the guide rail 20. 21 is disposed. Then, a game area 18a is defined in a substantially circular shape by the guide rail 20 and the first board surface decoration member 21, and a pachinko ball launched from a not-shown hitting ball launcher disposed in the middle frame 12 in the game area 18a. Is launched into the game area 18a, and a pachinko ball flows down in the game area 18a to play a game. The pachinko ball launched from the ball striking device is guided by the guide rail 20 from the lower side to the left side of the game board 18 and is launched to the upper left part of the game area 18a. In addition, a large number of game nails are planted in the game area 18a of the game board 18, and the flow direction of the pachinko balls flowing down the game area 18a is irregularly changed by contact with the game nails. It is. In addition, on the board surface of the game board 18, second board surface decoration members 22 are respectively disposed at the upper and lower positions on the left side of the guide rail 20 (outside the game area 18 a).

前記遊技盤18には、図1または図2に示す如く、後述する装飾部材28の下縁より下方位置に、前記遊技領域18aを流下するパチンコ球が入賞可能な第1始動入賞装置23、第2始動入賞装置24および特別入賞装置25やパチンコ球が通過可能なゲート26等が配設される。第1および第2始動入賞装置23,24は、遊技領域18aを流下するパチンコ球が入賞可能な始動入賞口が設けられる。そして、始動入賞装置23,24の始動入賞口へ入賞したパチンコ球が始動入賞センサ(図示せず)で検出されることで、図柄表示装置13の表示部13aで図柄変動が開始されると共に、所定数(例えば5個)のパチンコ球が賞球として前記上下の球受け皿15,16に払い出される。   As shown in FIG. 1 or FIG. 2, the game board 18 has a first start winning device 23 and a first start winning device 23 that can win a pachinko ball flowing down the game area 18a below the lower edge of a decorative member 28 described later. 2. A start winning device 24, a special winning device 25, a gate 26 through which a pachinko ball can pass, and the like are arranged. The first and second start winning devices 23 and 24 are provided with a start winning opening through which a pachinko ball flowing down the game area 18a can win. Then, the pachinko ball that has won the start winning opening of the start winning devices 23 and 24 is detected by the start winning sensor (not shown), whereby the symbol variation is started on the display unit 13a of the symbol display device 13, and A predetermined number (for example, five) of pachinko balls are paid out to the upper and lower ball trays 15 and 16 as prize balls.

前記特別入賞装置25は、入賞口が開閉扉で常には閉鎖されており、前記図柄表示装置13での図柄変動の結果、図柄表示装置13の表示部13aに所定の図柄組み合わせ(例えば同一図柄の三つ揃い等)で図柄が停止表示されることで所謂「大当り」が発生し、これにより開閉扉が開放するよう作動制御されて、入賞口への入賞により多数の賞球を獲得し得るようになっている。なお、前記第2始動入賞装置24は始動入賞口を閉成する開閉部材を備え、前記ゲート26に設けたゲートセンサがパチンコ球の通過を検知したことを契機として、制御装置(図示せず)により開閉部材を開放するか否かの抽選が行なわれる。なお、図2の符号27は、遊技盤18に配設されて、常に入賞口を開放している普通入賞装置を示す。   In the special winning device 25, the winning opening is always closed by an open / close door, and as a result of the symbol variation in the symbol display device 13, a predetermined symbol combination (for example, the same symbol of the same symbol) is displayed on the display unit 13a of the symbol display device 13. When a symbol is stopped and displayed in a three-piece set, etc., a so-called `` big hit '' occurs, so that the door is opened and controlled so that a large number of prize balls can be obtained by winning a prize opening It has become. The second start winning device 24 includes an opening / closing member that closes the start winning port, and a control device (not shown) is triggered by the fact that the gate sensor provided in the gate 26 detects the passage of the pachinko ball. The lottery of whether to open the opening / closing member is performed. Note that reference numeral 27 in FIG. 2 indicates a normal winning device that is disposed on the game board 18 and that always opens the winning opening.

(装飾部材について)
前記遊技盤18の中央には、図3または図4に示す如く、前後に貫通する大型の貫通孔18bが形成されており、該貫通孔18bに対して前後に開口する枠状の装飾部材(所謂センター役物)28が嵌め込まれるように着脱可能に配設される。そして、後述する裏部材32の開口部32aから臨む前記図柄表示装置13の表示部13aは、装飾部材28における前後に開口する窓口(可視部)28aを介して遊技盤18の前側に露出して、該図柄表示装置13の表示部13aで展開される図柄変動演出を前側から視認し得るようになっている。
(About decorative members)
As shown in FIG. 3 or FIG. 4, a large through hole 18b penetrating in the front-rear direction is formed in the center of the game board 18, and a frame-shaped decorative member (opening in the front-rear direction with respect to the through-hole 18b) A so-called center accessory) 28 is detachably disposed so as to be fitted therein. And the display part 13a of the said symbol display apparatus 13 which faces from the opening part 32a of the back member 32 mentioned later is exposed to the front side of the game board 18 via the window (visible part) 28a opened to the front and back in the decoration member 28. The symbol variation effect developed on the display unit 13a of the symbol display device 13 can be viewed from the front side.

前記装飾部材28には、図2〜図4に示す如く、上縁部から左右両縁部に亘り、遊技盤18の前面より前方に突出する円弧状の庇状部28bが設けられており、前記遊技領域18aに打ち出されたパチンコ球を外周部の庇状部28bで案内し得ると共に、該パチンコ球が装飾部材28の窓口28aを横切って流下するのを該庇状部28bで規制している。また装飾部材28には、窓口28aの下側に、ステージ29が配設されると共に、窓口28aの左側に、遊技領域18aに開口して該遊技領域18aを流下するパチンコ球を取込んでステージ29に案内する球導入部30が設けられ、該球導入部30からステージ29に通出されたパチンコ球は、ステージ29上を左右に転動した後に、前記各入賞装置23,24,25,27が配設されている遊技領域18aに排出される。   As shown in FIGS. 2 to 4, the decorative member 28 is provided with an arc-shaped bowl-shaped portion 28 b that protrudes forward from the front surface of the game board 18 from the upper edge portion to the left and right edge portions. The pachinko ball launched into the game area 18a can be guided by the bowl-shaped portion 28b on the outer peripheral portion, and the pachinko ball 28b is restricted from flowing down across the window 28a of the decorative member 28 by the bowl-shaped portion 28b. Yes. The decoration member 28 is provided with a stage 29 below the window 28a, and a pachinko ball that opens to the game area 18a and flows down the game area 18a on the left side of the window 28a. A ball introducing portion 30 for guiding to 29 is provided, and the pachinko balls passed from the ball introducing portion 30 to the stage 29 roll left and right on the stage 29, and then each of the winning devices 23, 24, 25, 27 is discharged to the game area 18a in which 27 is disposed.

前記ステージ29の後端縁には、左右方向の全長に亘って上側に向けて所定高さで立上がる透明壁31が設けられ、ステージ29上を転動するパチンコ球が図柄表示装置13の表示部13a側に移動するのを該透明壁31で防止している。なお、透明壁31の上端縁には前方に向けて張出す張出部31aが形成されており、該張出部31aによって表示部13a側へのパチンコ球の移動を確実に防止し得るようになっている。   A transparent wall 31 rising at a predetermined height is provided on the rear end edge of the stage 29 over the entire length in the left-right direction, and pachinko balls that roll on the stage 29 are displayed on the symbol display device 13. The transparent wall 31 prevents movement toward the portion 13a. In addition, an overhanging portion 31a is formed on the upper end edge of the transparent wall 31 so as to project forward, so that the pachinko ball can be reliably prevented from moving toward the display portion 13a by the overhanging portion 31a. It has become.

(裏部材について)
前記遊技盤18の裏面には、図3〜図6に示す如く、前記図柄表示装置13が着脱可能に配設されると共に、後述する可動演出装置37,38,39や複数の発光基板等の遊技部品が配設される合成樹脂材で形成された裏部材32が配設され、該裏部材32に形成された前後に開口する開口部32aを介して図柄表示装置13の表示部13aを遊技盤18の前側から視認し得るよう構成されている。実施例では、裏部材32の開口部32aは、上辺、下辺、左辺および右辺で画成される略4角形状に開口しており、図柄表示装置13の表示部13aは開口部32aから視認可能な領域となることから、該開口部32aの縁部が表示部13aの外縁となっている。
(Back material)
As shown in FIGS. 3 to 6, the symbol display device 13 is detachably disposed on the back surface of the game board 18, and movable presentation devices 37, 38, 39, which will be described later, a plurality of light emitting substrates, A back member 32 made of a synthetic resin material on which game parts are placed is provided, and the display unit 13a of the symbol display device 13 is played through the opening 32a that is formed in the back member 32 and opens in the front-rear direction. It is configured to be visible from the front side of the panel 18. In the embodiment, the opening 32a of the back member 32 is opened in a substantially square shape defined by the upper side, the lower side, the left side, and the right side, and the display unit 13a of the symbol display device 13 is visible from the opening 32a. Therefore, the edge of the opening 32a is the outer edge of the display unit 13a.

前記裏部材32は、図3〜図6に示すように、前方に開口する矩形箱状に形成された箱状本体33と、該箱状本体33の開口前端部に形成されて当該箱状本体33の開口外側へ延出し、前記遊技盤18の裏面に当接する取付部34とから構成される。箱状本体33は、遊技盤18に対向する矩形板状に形成された対向面部35と、該対向面部35における上下左右の各縁部から前方に延出する画壁部36とから前方に開口するよう形成されて、各画壁部36の前端部から箱状本体33の開口外側へ向けて延出するよう取付部34が形成される。そして、取付部34の前面を遊技盤18の裏面に当接した状態で、取付部34を遊技盤18にネジ止めすることによって遊技盤18に裏部材32が固定される。   As shown in FIGS. 3 to 6, the back member 32 is formed at a box-like main body 33 formed in a rectangular box shape opening forward, and an opening front end portion of the box-like main body 33, and the box-like main body is formed. 33 is formed of an attachment portion 34 that extends to the outside of the opening 33 and contacts the back surface of the game board 18. The box-shaped main body 33 opens forward from a facing surface portion 35 formed in a rectangular plate shape facing the game board 18 and an image wall portion 36 extending forward from each of the upper, lower, left and right edges of the facing surface portion 35. The attachment portion 34 is formed so as to extend from the front end portion of each wall portion 36 toward the outside of the opening of the box-shaped main body 33. Then, the back member 32 is fixed to the game board 18 by screwing the attachment part 34 to the game board 18 with the front surface of the attachment part 34 being in contact with the back surface of the game board 18.

前記対向面部35には、図3および図4に示す如く、上下および左右幅の大部分が開口する大型の前記開口部32aが形成されている。以下の説明において、対向面部35における開口部32aに対する上下左右に位置する部分について、上対向面部35a、下対向面部35b、左対向面部35c、右対向面部35dと夫々指称するものとする。   As shown in FIGS. 3 and 4, the opposed surface portion 35 is formed with the large opening portion 32 a that opens most of the vertical and horizontal widths. In the following description, the portions of the facing surface portion 35 that are located on the top, bottom, left, and right of the opening 32a are referred to as an upper facing surface portion 35a, a lower facing surface portion 35b, a left facing surface portion 35c, and a right facing surface portion 35d, respectively.

前記遊技盤18の裏側に裏部材32を取付けた状態で、該裏部材32の対向面部35と遊技盤18との間に所要の空間が画成される。裏部材32の対向面部35には、図5および図6に示す如く、左対向面部35cに第1可動演出装置37が配設され、右対向面部35dに第2可動演出装置38が配設され、下対向面部35bに第3可動演出装置39が配設される。そして、これら3つの可動演出装置37,38,39が、裏部材32と遊技盤18との間に画成される空間に夫々収容される。   With the back member 32 attached to the back side of the game board 18, a required space is defined between the facing surface portion 35 of the back member 32 and the game board 18. As shown in FIGS. 5 and 6, the first movable effect device 37 is disposed on the left facing surface portion 35 c and the second movable effect device 38 is disposed on the right facing surface portion 35 d of the facing surface portion 35 of the back member 32. The third movable effect device 39 is disposed on the lower facing surface portion 35b. These three movable effect devices 37, 38, 39 are accommodated in the spaces defined between the back member 32 and the game board 18, respectively.

(第1可動演出装置について)
前記第1可動演出装置(可動演出装置)37は、図5および図6に示すように、前記裏部材32における左対向面部35cに設置されている。図7,図8,図13,図14に示すように、第1可動演出装置37は、該第1可動演出装置37を構成する部材の設置基盤となる第1ベース部材40と、所定の演出動作を行なう可動部材41と、この可動部材41を往復動する第1駆動部(駆動部)42と、所定の演出動作を行なう第1可動体(可動体)43と、可動部材41の往復動に連動して第1可動体43を往復動する第1連繋機構(連繋機構)44と、第1ベース部材40の前側を覆う第1カバー部材45とから基本的に構成される。第1可動演出装置37は、第1ベース部材40と第1カバー部材45とから第1駆動部42の第1伝達部46および可動部材41の支持機構を収容するケース状の第1装置本体部47が構成され、この第1装置本体部47単位で、可動部材41、第1可動体43、第1連繋機構44および第1駆動部42を含めて裏部材32に対して一体的に着脱可能なユニット構造になっている。また第1可動演出装置37は、図5に示す如く、第1装置本体部47が前記図柄表示装置13の表示部13aの左辺(第3の辺)の外側に配置されると共に、第1装置本体部47の右側から可動部材41における第1可動体43が配設された腕部53(後述)が該第1装置本体部47の外方に臨んでいる。そして、第1可動演出装置37では、腕部53が裏部材32の上対向面部35aの前側に位置して表示部13aにおける上辺(第1の辺)の外側に退避した待機位置(図5参照)と、この待機位置から下方変位して表示部13aの前側(表示部13aの上下方向の略中間)に臨む作動位置(図6参照)との間で可動部材41が往復動するようになっている。
(About the first movable effect device)
As shown in FIGS. 5 and 6, the first movable effect device (movable effect device) 37 is installed on the left facing surface portion 35 c of the back member 32. As shown in FIGS. 7, 8, 13, and 14, the first movable effect device 37 includes a first base member 40 that serves as an installation base of members constituting the first movable effect device 37, and a predetermined effect. A movable member 41 that performs an operation, a first drive unit (drive unit) 42 that reciprocates the movable member 41, a first movable body (movable body) 43 that performs a predetermined rendering operation, and a reciprocating motion of the movable member 41 The first connecting mechanism (linking mechanism) 44 that reciprocates the first movable body 43 in conjunction with the first movable member 43 and the first cover member 45 that covers the front side of the first base member 40 are basically configured. The first movable effect device 37 is a case-shaped first device main body that houses the first transmission unit 46 of the first drive unit 42 and the support mechanism of the movable member 41 from the first base member 40 and the first cover member 45. 47 is configured, and can be attached to and detached from the back member 32 including the movable member 41, the first movable body 43, the first linkage mechanism 44, and the first drive unit 42 in units of the first device main body 47. It has a simple unit structure. Further, as shown in FIG. 5, the first movable effect device 37 includes a first device main body 47 arranged outside the left side (third side) of the display unit 13a of the symbol display device 13, and the first device. From the right side of the main body 47, an arm 53 (described later) on which the first movable body 43 of the movable member 41 is disposed faces the outside of the first device main body 47. And in the 1st movable production | presentation apparatus 37, the arm part 53 is located in the front side of the upper opposing surface part 35a of the back member 32, and retracted to the outer side of the upper side (1st side) in the display part 13a (refer FIG. 5). ) And the operating position (refer to FIG. 6) that is displaced downward from the standby position and faces the front side of the display portion 13a (substantially the middle in the vertical direction of the display portion 13a). ing.

前記第1ベース部材40は、図7,図8,図9および図10に示す如く、裏部材32の左対向面部35cに当接する板状部分の周縁部から前方へ壁が立ち上がる前方に開口する箱状体であって、透明な合成樹脂素材から形成されている。また第1カバー部材45は、図7,図8に示す如く、第1ベース部材40の前部開口を被覆可能な板状部分の周縁部から後方へ壁が立ち上がる後方に開口する箱状体であって、透明な合成樹脂素材から形成されている。そして、第1ベース部材40の壁に第1カバー部材45の壁を当接して両部材40,45をねじ止め固定することで、前記第1伝達部46や支持機構等を収容する空間を画成した前記第1装置本体部47が構成される(図13参照)。   As shown in FIGS. 7, 8, 9 and 10, the first base member 40 opens forward from the peripheral edge of the plate-like portion that contacts the left facing surface portion 35c of the back member 32. It is a box-shaped body and is formed from a transparent synthetic resin material. As shown in FIGS. 7 and 8, the first cover member 45 is a box-like body that opens to the rear from the peripheral edge of the plate-like portion that can cover the front opening of the first base member 40 and rises backward. It is made of a transparent synthetic resin material. Then, the wall of the first cover member 45 is brought into contact with the wall of the first base member 40 and both the members 40, 45 are screwed and fixed, thereby defining a space for accommodating the first transmission portion 46, the support mechanism, and the like. The formed first device main body 47 is configured (see FIG. 13).

前記第1装置本体部47の右側部(表示部13a側の側部)には、図14に示す如く、第1ベース部材40および第1カバー部材45との間に、可動部材41の腕部53が挿通される可動体挿通口47aが画成される。可動体挿通口47aは、前後寸法が腕部53の前後寸法より若干大きく設定されると共に、上下寸法が腕部53の上下変位を許容し得る幅に設定され、可動体挿通口47aに挿通した腕部53の上下方向の変位を許容しつつ前後方向のぶれを抑制し得るようになっている。また、第1装置本体部47の左側部には、第1ベース部材40および第1カバー部材45との間に、可動基部52における腕部53の延出側とは反対の左端部に配設したガイド部材52aを挿通案内する案内口47bが上下方向に所定長さで画成され(図16,図17参照)、可動部材41の前後方向のぶれを第1装置本体部47の左右両側で抑制するよう構成される。更に、第1ベース部材40には、図14または図18に示す如く、第1カバー部材45の右端縁より右側に延出する延出部40aの上端部前側に、待機位置に臨む可動部材41の腕部53の前側に、該腕部53の前方への移動を規制する規制部材48が配設される。この規制部材48は、延出部40aの前方に腕部53の前後寸法と略同一寸法で平行に臨む平行部48aと、該平行部48aから下方に向かうにつれて延出部40aから離間するよう傾斜する傾斜部48bとを備え、可動部材41が作動位置から待機位置に移動する際に、傾斜部48bによって腕部53を平行部48aと延出部40aとの間に円滑に案内し得るよう構成される。   As shown in FIG. 14, the arm portion of the movable member 41 is provided between the first base member 40 and the first cover member 45 on the right side (the side on the display unit 13 a side) of the first device main body 47. A movable body insertion port 47a through which 53 is inserted is defined. The movable body insertion port 47a has a longitudinal dimension set slightly larger than the longitudinal dimension of the arm portion 53, and the vertical dimension is set to a width that allows the vertical displacement of the arm portion 53, and is inserted into the movable body insertion port 47a. It is possible to suppress the shaking in the front-rear direction while allowing the vertical displacement of the arm portion 53. The left side of the first apparatus main body 47 is disposed at the left end opposite to the extending side of the arm 53 in the movable base 52 between the first base member 40 and the first cover member 45. A guide port 47b for inserting and guiding the guide member 52a is defined with a predetermined length in the vertical direction (see FIGS. 16 and 17), and the front and rear movement of the movable member 41 is caused on both the left and right sides of the first device main body 47. Configured to suppress. Furthermore, as shown in FIG. 14 or FIG. 18, the first base member 40 has a movable member 41 facing the standby position on the front side of the upper end of the extending portion 40a extending to the right side from the right end edge of the first cover member 45. A restricting member 48 for restricting the forward movement of the arm portion 53 is disposed on the front side of the arm portion 53. The restricting member 48 has a parallel portion 48a facing in parallel with the front and rear dimensions of the arm portion 53 in front of the extending portion 40a, and is inclined so as to be separated from the extending portion 40a as it goes downward from the parallel portion 48a. And an inclined portion 48b. When the movable member 41 moves from the operating position to the standby position, the inclined portion 48b can smoothly guide the arm portion 53 between the parallel portion 48a and the extending portion 40a. Is done.

前記第1装置本体部47は、可動部材41を待機位置で停止するのを補助する磁力吸着部材としての磁石49を備えている(図13参照)。なお、実施例では、磁石49として永久磁石が採用される。磁石49は、第1装置本体部47において上辺部に設置され、可動部材41の後述する可動基部52の上側に位置している。すなわち、第1ベース部材40の上側の壁に、図13に示す如く、前方に開口する磁石収容部40bが形成され、該磁石収容部40bに収容された磁石49は、磁石収容部40bの前方開口を閉じる蓋部材50で磁石収容部40b内に保持される。また、磁石収容部40bの下部には開口部が設けられ、該磁石収容部40bに収容された磁石49の下面は、下部開口を介して第1装置本体部47内に露出するよう構成される。   The first apparatus main body 47 includes a magnet 49 as a magnetic attraction member that assists in stopping the movable member 41 at the standby position (see FIG. 13). In the embodiment, a permanent magnet is employed as the magnet 49. The magnet 49 is installed on the upper side of the first apparatus main body 47 and is positioned above the movable base 52 described later of the movable member 41. That is, as shown in FIG. 13, a magnet accommodating portion 40b that opens forward is formed on the upper wall of the first base member 40, and the magnet 49 accommodated in the magnet accommodating portion 40b is located in front of the magnet accommodating portion 40b. The lid member 50 that closes the opening is held in the magnet housing portion 40b. In addition, an opening is provided in the lower part of the magnet housing part 40b, and the lower surface of the magnet 49 housed in the magnet housing part 40b is configured to be exposed in the first device main body part 47 through the lower opening. .

前記可動部材41は、支持機構としての転がり軸受51に対する取付部位となる可動基部52と、この可動基部52に転がり軸受51による移動許容方向と交差する横方向に向けて該可動基部52から延出するよう形成された腕部53とを備える(図18,図19参照)。可動部材41は、第1装置本体部47の内部に可動基部52が配設されて、前記図柄表示装置13の表示部13aの左横側に位置する第1装置本体部47から腕部53が、前記可動体挿通口47aを介して表示部13aの中央側に向けて延出し、該腕部53に前記第1可動体43が左右方向(表示部13aの上辺に沿う方向)に往復動可能に配設されている。可動部材41は、可動基部52の上端左側から腕部53が横方向に延出して、全体として正面視で表示部13aの上辺と左辺とに沿った鉤形を呈している(図5参照)。なお、実施例の可動部材41は、可動基部52と腕部53の後述する前支持部55とが一体で形成されたものであって(図9,図10参照)、実施例では可動基部52の上下方向に延在する右側縁から右方に延出する部分を腕部と指称している。   The movable member 41 extends from the movable base 52 in a lateral direction that intersects the movement allowable direction of the rolling bearing 51 on the movable base 52 and a movable base 52 serving as a mounting portion for the rolling bearing 51 as a support mechanism. And an arm portion 53 formed so as to do so (see FIGS. 18 and 19). The movable member 41 has a movable base 52 disposed inside the first device main body 47, and the arm portion 53 extends from the first device main body 47 located on the left side of the display unit 13a of the symbol display device 13. The first movable body 43 can be reciprocated in the left-right direction (the direction along the upper side of the display portion 13a) on the arm portion 53 through the movable body insertion port 47a. It is arranged. In the movable member 41, the arm portion 53 extends in the horizontal direction from the left side of the upper end of the movable base 52, and as a whole, has a bowl shape along the upper side and the left side of the display unit 13a (see FIG. 5). . The movable member 41 of the embodiment is formed by integrating a movable base 52 and a front support portion 55 (described later) of the arm portion 53 (see FIGS. 9 and 10). In the embodiment, the movable base 52 is provided. A portion extending rightward from the right edge extending in the vertical direction is referred to as an arm portion.

前記可動基部52の上端部には、被磁力吸着部材としての金属片54が取付けられている(図13,図19参照)。金属片54は、前記第1装置本体部47に設けた磁石49に対して上下の関係で対向して設置され、可動部材41の待機位置において磁石49に金属片54が相対し、磁石49が金属片54を磁力吸着することで可動部材41を待機位置で保持する補助を行なうよう構成される。金属片54は、板状の取付部が可動基部52にネジ止めされると共に、該取付部から上方に突出する片部が、図13に示すように、前記磁石49における前記磁石収容部40bの下部開口から露出する下面に対向するよう構成され、該片部が磁石49に磁力吸着されるようになっている。   A metal piece 54 is attached to the upper end of the movable base 52 as a member to be magnetized (see FIGS. 13 and 19). The metal piece 54 is installed facing the magnet 49 provided in the first apparatus main body 47 in an up-and-down relationship. The metal piece 54 faces the magnet 49 at the standby position of the movable member 41, and the magnet 49 It is configured to assist holding the movable member 41 at the standby position by magnetically attracting the metal piece 54. The metal piece 54 has a plate-like attachment portion screwed to the movable base 52 and a piece portion protruding upward from the attachment portion, as shown in FIG. 13, of the magnet accommodating portion 40b in the magnet 49. It is configured to face the lower surface exposed from the lower opening, and the one part is magnetically attracted to the magnet 49.

(腕部について)
前記腕部53は、前記可動基部52に一体形成された前支持部55と、該前支持部55の裏側にネジ止め固定された後支持部56とから構成され、前後の支持部55,56間に、左右方向に延在する収容空間Sが画成される(図15,図16参照)。なお、前支持部55および後支持部56の左端部は、可動基部52の上部を構成しており、収容空間Sも腕部53と可動基部52とに亘って形成されている。また収容空間Sは、腕部53の右端部および可動基部52の左端部で開口すると共に、該収容空間Sの下部は、可動基部52から腕部53の間に亘って開口し、該下部開口を介して後述する第1作動杆79の収容空間S内への挿通が許容されるようになっている(図13参照)。
(About the arm)
The arm portion 53 includes a front support portion 55 formed integrally with the movable base portion 52, and a rear support portion 56 fixed to the back side of the front support portion 55 with screws. A storage space S extending in the left-right direction is defined therebetween (see FIGS. 15 and 16). Note that the left end portions of the front support portion 55 and the rear support portion 56 constitute the upper portion of the movable base portion 52, and the accommodation space S is also formed across the arm portion 53 and the movable base portion 52. The accommodation space S opens at the right end portion of the arm portion 53 and the left end portion of the movable base portion 52, and the lower portion of the accommodation space S opens between the movable base portion 52 and the arm portion 53. The first operating rod 79, which will be described later, is allowed to pass through the housing space S (see FIG. 13).

前記収容空間Sには、前記第1連繋機構44を構成する後述の可動連結部材78が左右方向に移動可能に配設される。また、前後の支持部55,56の間(収容空間S内)には、可動連結部材78を挟む上下位置に、該可動連結部材78の上面または下面に当接して転動可能な案内ローラ57,57が、左右方向に離間する2箇所に配設され、可動連結部材78は、複数の案内ローラ57によって腕部53に対して左右方向に沿って待機位置と作動位置との間をスムーズに移動し得るよう構成される(図7,図9,図10参照)。   In the housing space S, a movable connecting member 78 (to be described later) constituting the first linkage mechanism 44 is disposed so as to be movable in the left-right direction. Further, between the front and rear support portions 55 and 56 (within the accommodation space S), a guide roller 57 that can roll while contacting the upper surface or the lower surface of the movable connecting member 78 at a vertical position sandwiching the movable connecting member 78. , 57 are disposed at two positions separated in the left-right direction, and the movable connecting member 78 smoothly moves between the standby position and the operating position along the left-right direction with respect to the arm portion 53 by the plurality of guide rollers 57. It is configured to be movable (see FIGS. 7, 9, and 10).

前記前支持部55には、図9,図10に示す如く、前後方向に貫通する長孔55aが左右方向に延在するよう形成され、該長孔55aに、前記第1可動体43と可動連結部材78とを連結する突部75(後述)が挿通されている。また後支持部56には、長孔55aの後方に臨む位置に、左右方向に離間して複数の孔56aが前後に貫通して形成される。後支持部56における各孔56aの形成位置は、第1可動体43(可動連結部材78)が左右方向の所定位置(以後、着脱位置という)に位置した際に、対応する突部75の後側に整列するよう設定される(図12参照)。なお、実施例では、着脱位置と第1可動体43の待機位置とが同一に設定しているが、異なる位置に設定してもよい。   As shown in FIGS. 9 and 10, a long hole 55a penetrating in the front-rear direction is formed in the front support portion 55 so as to extend in the left-right direction, and the first movable body 43 is movable in the long hole 55a. A protrusion 75 (described later) that connects the connecting member 78 is inserted. The rear support 56 is formed with a plurality of holes 56a penetrating in the front-rear direction so as to be spaced apart in the left-right direction at a position facing the rear of the long hole 55a. The positions where the holes 56a are formed in the rear support portion 56 are such that when the first movable body 43 (movable connecting member 78) is positioned at a predetermined position in the left-right direction (hereinafter referred to as an attaching / detaching position), It is set to align to the side (see FIG. 12). In the embodiment, the attachment / detachment position and the standby position of the first movable body 43 are set to be the same, but may be set to different positions.

(転がり軸受について)
前記転がり軸受51は、図17に示す如く、前記第1カバー部材45に対して固定された外受部58と、前記可動部材41の可動基部52に対して固定された内受部59と、外受部58と内受部59との間に位置し、該外受部58および内受部59に接触する複数の転動体60を上下方向に離間して転動可能に保持する中受部61とから構成される。そして、外受部58に対して中受部61が転動体60によって上下方向に往復動可能に支持されると共に、中受部61に対して内受部59が転動体60によって上下方向に往復動可能に支持され、これによって外受部58に対して内受部59に固定される可動部材41が上下方向に往復移動可能に支持される。実施例では、外受部58、内受部59および中受部61が何れも金属素材から形成されると共に、転動体60として金属球が用いられており、転がり軸受として所謂ボール軸受構造が採用されている。
(About rolling bearings)
As shown in FIG. 17, the rolling bearing 51 includes an outer receiving portion 58 fixed to the first cover member 45, an inner receiving portion 59 fixed to the movable base portion 52 of the movable member 41, A middle receiving portion that is positioned between the outer receiving portion 58 and the inner receiving portion 59 and holds the plurality of rolling elements 60 that are in contact with the outer receiving portion 58 and the inner receiving portion 59 so as to roll apart from each other in the vertical direction. 61. The intermediate receiving part 61 is supported by the rolling element 60 so as to be reciprocable in the vertical direction with respect to the outer receiving part 58, and the inner receiving part 59 is reciprocated in the vertical direction by the rolling element 60 with respect to the intermediate receiving part 61. The movable member 41 which is supported so as to be movable and is fixed to the inner receiving portion 59 with respect to the outer receiving portion 58 is supported so as to be capable of reciprocating in the vertical direction. In the embodiment, the outer receiving portion 58, the inner receiving portion 59 and the inner receiving portion 61 are all formed of a metal material, and a metal ball is used as the rolling element 60, and a so-called ball bearing structure is adopted as the rolling bearing. Has been.

前記外受部58は、図19に示す如く、第1カバー部材45における表示部13a側となる右端縁側に偏倚して上下方向に延在して配置される。外受部58は、図11に示す如く、中受部61を案内するレールとして機能し、外受部58は、第1カバー部材45への当接部位となる外板状体58aの左右両側縁に後側に向けて外保持片58bが夫々延出した平断面において後方に開放する略コ字形状に形成されている(図17参照)。各外保持片58bは、外側が凸になる湾曲形状に形成されて、他方の外保持片58bに対向する面が転動体60の外形に合わせた凹状になっている。   As shown in FIG. 19, the outer receiving portion 58 is disposed so as to be biased toward the right end edge of the first cover member 45 on the display portion 13 a side and extend in the vertical direction. As shown in FIG. 11, the outer receiving portion 58 functions as a rail for guiding the intermediate receiving portion 61, and the outer receiving portion 58 is on both the left and right sides of the outer plate-like body 58 a that is a contact portion with the first cover member 45. The outer holding pieces 58b are formed in a substantially U-shape that opens rearward on a flat cross section that extends toward the rear side at the edge (see FIG. 17). Each outer holding piece 58b is formed in a curved shape having a convex outer side, and the surface facing the other outer holding piece 58b has a concave shape matching the outer shape of the rolling element 60.

また、前記外受部58の外板状体58aには、図11に示す如く、上下方向に離間して前後方向に貫通する位置決め孔58cが複数穿設されると共に、該外板状体58aの上下の端部には、後方に向けて折曲された規制片58dが夫々形成される。そして、外受部58は、第1カバー部材45に設けた各位置決めピン45aを対応する位置決め孔58cに挿入することで、第1カバー部材45に対して上下および左右方向の位置規制がされた状態で取付けられる(図13参照)。また、第1カバー部材45に取付けられた外受部58における上側(一端部)の規制片58dの突出端(後端)に、図13に示す如く、第1カバー部材45に設けた上係合部(係合部)45bが係合し、該外受部58における上端部の後方への移動規制がなされている。更に、外受部58における下側(他端部)の規制片58dに対し、第1カバー部材45に着脱可能にネジ止めされる固定部材62が後側から係合して保持されている。なお、第1カバー部材45に突設した位置決めピン45aは、外受部58の位置決め孔58cに挿通された状態で、該外受部58の後方への突出寸法は、外受部58に移動可能に支持される中受部61と干渉しないよう設定してある。また上下の規制片58d,58dは、両外保持片58b,58bの間に配設される中受部61および内受部59の上側の規制片58dを越えた上方の移動を規制し得る一方、中受部61および内受部59の下側の規制片58dを越えた下方の移動を規制する機能も有する。   Further, as shown in FIG. 11, the outer plate-like body 58a of the outer receiving portion 58 is provided with a plurality of positioning holes 58c that are spaced apart in the vertical direction and penetrate in the front-rear direction, and the outer plate-like body 58a. The upper and lower end portions are respectively formed with regulating pieces 58d bent rearward. The outer receiving portion 58 is vertically and horizontally restricted with respect to the first cover member 45 by inserting each positioning pin 45a provided on the first cover member 45 into the corresponding positioning hole 58c. It is attached in a state (see FIG. 13). Further, as shown in FIG. 13, the upper cover provided on the first cover member 45 is disposed at the protruding end (rear end) of the upper (one end) regulating piece 58 d of the outer receiving portion 58 attached to the first cover member 45. The joint portion (engagement portion) 45b is engaged, and movement of the upper end portion of the outer receiving portion 58 to the rear is restricted. Furthermore, a fixing member 62 that is detachably screwed to the first cover member 45 is engaged and held from the rear side with respect to a lower (other end) regulating piece 58d in the outer receiving portion 58. The positioning pin 45 a protruding from the first cover member 45 is inserted into the positioning hole 58 c of the outer receiving portion 58, and the rearward projecting dimension of the outer receiving portion 58 is moved to the outer receiving portion 58. It is set so as not to interfere with the intermediate receiving portion 61 that is supported. The upper and lower restricting pieces 58d, 58d are capable of restricting the upward movement beyond the restricting piece 58d on the upper side of the inner receiving portion 61 and the inner receiving portion 59 disposed between the outer holding pieces 58b, 58b. Also, it has a function of regulating the downward movement beyond the regulating piece 58d on the lower side of the inner receiving portion 61 and the inner receiving portion 59.

前記中受部61は、図11に示す如く、内受部59を案内するレールとして機能し、外受部58の外板状体58aと対向する中板状体61aの対向する側縁に後側に延出形成された中保持片61bを複数備え、複数の中保持片61bは、該側縁の延在方向に互いに離間して配置される。中受部61は、各中保持片61bが板状体の長手辺に沿って設けられ、外受部58における左右の外保持片58b,58b間に、その長手辺を上下に延在させると共に各中保持片61bを対応する側の外保持片58bに対向させた状態で配設されている。また、中受部61は、左右方向の中央部が後側に凸状に隆起しており、この隆起部分61cが上下方向に亘って形成されている。   As shown in FIG. 11, the intermediate receiving portion 61 functions as a rail for guiding the inner receiving portion 59, and is arranged on the opposite side edge of the intermediate plate-like body 61 a facing the outer plate-like body 58 a of the outer receiving portion 58. A plurality of middle holding pieces 61b extended to the side are provided, and the plurality of middle holding pieces 61b are arranged apart from each other in the extending direction of the side edges. In the intermediate receiving portion 61, each intermediate holding piece 61b is provided along the longitudinal side of the plate-like body, and the longitudinal side extends vertically between the left and right outer holding pieces 58b, 58b in the outer receiving portion 58. Each middle holding piece 61b is disposed in a state of facing the corresponding outer holding piece 58b. Moreover, the center part 61 of the center receiving part 61 protrudes in the convex shape to the rear side, and this protruding part 61c is formed over the up-down direction.

前記各中保持片61bには、図11に示す如く、転動体60の直径より小径に設定された円形の中保持孔61dが開設されており、中保持片61bとこれに対向する外保持片58bとの間に配設した転動体60を中保持孔61dに回転可能に一部収容するようになっている(図17参照)。すなわち、転動体60は、外保持片58bおよび中保持片61bとによって左右方向の移動が規制されると共に、中保持孔61dによって中保持片61bからの上下方向の移動を規制されつつ回転可能になっている。なお、中保持片61bに対して中保持孔61dに回転可能に収容された転動体60は、一部が中保持片61bの内側に突出している。中受部61は、その上下寸法が外受部58の上下寸法より短く設定されて、左右の転動体60を介して左右の外保持片58b,58bの間に支持されたもとで、外受部58における上下の規制片58d,58d間で上下方向に往復移動可能に構成される。なお、中受部61は、隆起部分61cの上端部および下端部の夫々に、後側に突設された停止突起61eを有し、両中保持片61b,61bの間に配設される内受部59の所定幅を越えた上下方向の移動を停止突起61e,61eにより規制するよう構成される。   As shown in FIG. 11, each of the middle holding pieces 61b is provided with a circular middle holding hole 61d having a diameter smaller than the diameter of the rolling element 60, and the middle holding piece 61b and the outer holding piece opposed thereto. A part of the rolling element 60 disposed between the intermediate holding hole 58b and the intermediate holding hole 61d is rotatably accommodated in the middle holding hole 61d (see FIG. 17). That is, the rolling element 60 is restricted from moving in the left-right direction by the outer holding piece 58b and the middle holding piece 61b, and is rotatable while being restricted from moving in the vertical direction from the middle holding piece 61b by the middle holding hole 61d. It has become. Note that a part of the rolling element 60 rotatably accommodated in the middle holding hole 61d with respect to the middle holding piece 61b protrudes inside the middle holding piece 61b. The intermediate receiving portion 61 is set so that its vertical dimension is shorter than the vertical dimension of the outer receiving portion 58 and is supported between the left and right outer holding pieces 58b, 58b via the left and right rolling elements 60. 58 is configured to be reciprocally movable in the vertical direction between the upper and lower restricting pieces 58d, 58d. The intermediate receiving portion 61 has stop protrusions 61e projecting on the rear side at the upper end portion and the lower end portion of the raised portion 61c, and is disposed between the intermediate holding pieces 61b and 61b. The vertical movement of the receiving part 59 beyond a predetermined width is restricted by the stop protrusions 61e and 61e.

前記内受部59は、前記中受部61の中板状体61aと対向する内板状体59aの両側縁に前側に向けて内保持片59bが夫々延出形成されされて、平断面において前方に開放する略コ字形状に形成される(図17参照)。内受部59は、図11に示す如く、各内保持片59bが内板状体59aの長手辺に亘って設けられ、中受部61における左右の中保持片61b,61b間に、その長手辺を上下に延在させると共に各内保持片59bを対応する側の中保持片61bに対向させた状態で配設されている。なお、内受部59は、その上下寸法が中受部61の上下寸法より短く設定される。内受部59は、各内保持片59bが他方の内保持片59bに対向する内側が凸になる湾曲形状に形成されて、中保持片59bに対向する外面が転動体60の外形に合わせた凹状になっている。内受部59は、前記転動体60の中保持孔61dを介して中保持片61bの内側に臨む部分が内保持片59bの外面に収まり、転動体60と中受部61の隆起部分61cとの間に内保持片59bが挟まれている。すなわち、内受部59は、転動体60と中受部61の隆起部分61cとによって左右方向の移動が規制されつつ上下方向に移動可能に支持されており、外受部58に対して上下移動可能な中受部61と独立して該中受部61に対して内受部59が上下移動可能に構成される。なお、内受部59を前記可動基部52に固定するネジにおけるネジ部の端部が、内板状体59aの上端部および下端部において前側に突出し、このネジ部が中受部61の前記停止突起61e,61eに当接することで上方または下方への移動が規制される。   In the inner receiving portion 59, inner holding pieces 59b are formed on both side edges of the inner plate-like body 59a opposite to the intermediate plate-like body 61a facing the inner receiving portion 61 so as to extend forward, respectively. It is formed in a substantially U shape that opens forward (see FIG. 17). As shown in FIG. 11, each inner holding piece 59 b is provided across the longitudinal side of the inner plate-like body 59 a, and the inner receiving part 59 has a longitudinal length between the left and right middle holding pieces 61 b and 61 b. The inner holding pieces 59b are arranged in such a manner that the sides extend vertically and the inner holding pieces 59b face the corresponding inner holding pieces 61b. The inner receiving portion 59 is set so that its vertical dimension is shorter than the vertical dimension of the middle receiving portion 61. The inner receiving portion 59 is formed in a curved shape in which each inner holding piece 59b is convex toward the other inner holding piece 59b, and the outer surface facing the inner holding piece 59b is matched to the outer shape of the rolling element 60. It is concave. The inner receiving part 59 has a portion facing the inner side of the inner holding piece 61b through the inner holding hole 61d of the rolling element 60 within the outer surface of the inner holding piece 59b, and the rolling part 60 and the raised part 61c of the inner receiving part 61 The inner holding piece 59b is sandwiched between the two. That is, the inner receiving portion 59 is supported by the rolling element 60 and the raised portion 61 c of the intermediate receiving portion 61 so as to be movable in the vertical direction while being restricted from moving in the left-right direction, and moves up and down with respect to the outer receiving portion 58. The inner receiving portion 59 is configured to be vertically movable with respect to the intermediate receiving portion 61 independently of the possible intermediate receiving portion 61. Note that the end of the screw portion of the screw that fixes the inner receiving portion 59 to the movable base portion 52 projects forward at the upper end portion and the lower end portion of the inner plate-like body 59a, and this screw portion is the stop of the intermediate receiving portion 61. The contact of the protrusions 61e and 61e restricts the upward or downward movement.

前記第1装置本体部47の第1ベース部材40には、図9,図10に示す如く、前後方向に貫通する配線通口40cが上下方向に延在して形成され、前記腕部53に配設した第1可動体43が備える第1発光基板73(後述)に接続する配線が、該配線通口40cを介して後側に引き出されるよう構成される。配線通口40cは、上部側が幅広に設定されると共に下部側が幅狭に設定される。また第1ベース部材40の裏面には、配線通口40cの幅狭部に対応する位置に、配線を保持する配線保持具63が回転可能に配設されている(図12参照)。   9 and 10, the first base member 40 of the first device main body 47 is formed with a wiring opening 40c penetrating in the front-rear direction so as to extend in the vertical direction. A wiring connected to a first light emitting substrate 73 (described later) provided in the arranged first movable body 43 is configured to be drawn out to the rear side through the wiring opening 40c. The wiring opening 40c is set to be wide on the upper side and narrow on the lower side. Further, on the back surface of the first base member 40, a wiring holder 63 for holding the wiring is rotatably disposed at a position corresponding to the narrow portion of the wiring opening 40c (see FIG. 12).

(第1駆動部について)
前記第1駆動部42は、駆動手段としての第1モータ(モータ)64と、この第1モータ64および可動部材41の可動基部52を連繋して、第1モータ64の回転を可動部材41の動作に変換する第1伝達部46とから構成される。実施例では、第1モータ64として、制御装置の制御下に駆動または駆動停止されるステッピングモータが用いられている。第1モータ64は、第1ベース部材40の後面に取付けられ(図12参照)、裏部材32の左対向面部35cに凹設された左側凹部(図示せず)に臨んでいる。第1モータ64は、第1ベース部材40における前記表示部13aから離間する左端縁側に偏倚して配置されており、第1装置本体部47の右端縁側に偏倚して配置された転がり軸受51(外受部58)を挟んで表示部13aとは反対側に位置している。第1ベース部材40の後面には、後側に開放するモータ取付け凹部40dが形成され、このモータ取付け凹部40dに第1モータ64の前側部分を収容した状態で、該第1モータ64が第1ベース部材40に取付けられて、該第1モータ64の出力軸を第1ベース部材40に穿設した通孔を通して第1装置本体部47内に突出している。
(About the first drive unit)
The first drive unit 42 connects a first motor (motor) 64 serving as a drive unit with the first motor 64 and the movable base 52 of the movable member 41 to rotate the first motor 64. It is comprised from the 1st transmission part 46 converted into operation | movement. In the embodiment, a stepping motor that is driven or stopped under the control of the control device is used as the first motor 64. The first motor 64 is attached to the rear surface of the first base member 40 (see FIG. 12) and faces a left-side recess (not shown) that is recessed in the left facing surface portion 35c of the back member 32. The first motor 64 is biased and arranged on the left end edge side of the first base member 40 that is spaced from the display portion 13a, and is biased and arranged on the right end edge side of the first device main body 47. It is located on the opposite side of the display part 13a with the outer receiving part 58) in between. The rear surface of the first base member 40 is formed with a motor mounting recess 40d that opens to the rear side, and the first motor 64 is in a state where the front portion of the first motor 64 is accommodated in the motor mounting recess 40d. Attached to the base member 40, the output shaft of the first motor 64 protrudes into the first device main body 47 through a through hole formed in the first base member 40.

前記第1伝達部46は、第1モータ64の出力軸に固定された駆動歯車65と、該駆動歯車65に噛合する従動歯車66と、該従動歯車66に噛合するピニオン67と、可動基部52の左側縁(第1モータ側の側縁)に設けられ、ピニオン67に噛合するラック68とから構成され、ピニオン67の正逆回転を可動基部52の直線運動に変換する所謂ラックアンドピニオン構造になっている(図11参照)。駆動歯車65、従動歯車66およびピニオン67は、図16〜図19,図21等に示す如く、第1装置本体部47の内部において、前記転がり軸受51の配設位置を挟んで腕部53の延出側とは反対側に設けられる。すなわち、第1駆動部42は、第1モータ64および第1伝達部46が、可動部材41における腕部53の延出側と転がり軸受51を挟んで反対側に設けられているので、第1駆動部42が腕部53の動作に邪魔にならず、可動部材41を安定して動作できる。   The first transmission unit 46 includes a drive gear 65 fixed to the output shaft of the first motor 64, a driven gear 66 that meshes with the drive gear 65, a pinion 67 that meshes with the driven gear 66, and a movable base 52. A rack and pinion structure that is provided on the left edge (side edge of the first motor side) and meshes with the pinion 67 and converts the forward / reverse rotation of the pinion 67 into a linear motion of the movable base 52. (See FIG. 11). The drive gear 65, the driven gear 66, and the pinion 67 are provided on the arm portion 53 with the rolling bearing 51 disposed in the first apparatus main body 47 as shown in FIGS. It is provided on the side opposite to the extending side. That is, the first drive unit 42 is provided with the first motor 64 and the first transmission unit 46 on the opposite side of the extending side of the arm 53 and the rolling bearing 51 in the movable member 41, so The drive part 42 can operate the movable member 41 stably without interfering with the operation of the arm part 53.

前記第1可動演出装置37は、第1モータ64の停止時(非通電時)に、該第1モータ64自体の機械的な保持トルクによって、可動部材41(第1可動体43の重量を含む)の重量を第1伝達部46を介して支持して、可動部材41を待機位置で停止し得るよう構成されている。すなわち、第1可動演出装置37において、第1モータ64の停止時の保持トルクだけで可動部材41を待機位置で保持することが可能であり、前記磁石49と金属片54との磁力吸着によって可動部材41を待機位置で保持する構成は補助的な手段となっている。このように、第1可動演出装置37は、遊技盤18の振動やその他の予定しない力が可動部材41に加わった際であっても、磁石49と金属片54とによる補助保持手段を設けてあるので、可動部材41が待機位置から下降することを防止できる。   The first movable effect device 37 includes the movable member 41 (including the weight of the first movable body 43) by the mechanical holding torque of the first motor 64 itself when the first motor 64 is stopped (when no power is supplied). ) Is supported via the first transmission portion 46, and the movable member 41 can be stopped at the standby position. That is, in the first movable effect device 37, the movable member 41 can be held at the standby position only by the holding torque when the first motor 64 is stopped, and is movable by the magnetic force adsorption between the magnet 49 and the metal piece 54. The structure of holding the member 41 at the standby position is an auxiliary means. In this way, the first movable effect device 37 is provided with auxiliary holding means by the magnet 49 and the metal piece 54 even when vibration of the game board 18 or other unscheduled force is applied to the movable member 41. Therefore, the movable member 41 can be prevented from descending from the standby position.

前記第1可動演出装置37は、前記第1カバー部材45の上端部に設置されて可動部材41の位置を判定するフォトセンサ等からなる第1検知手段69を備え、該第1検知手段69は、制御装置に電気的に接続されて検知信号が制御装置に入力されるようになっている。第1検知手段69は、該第1検知手段69における対向する検知部間を通過するように配置された可動部材41の第1検知片70の有無によって、可動部材41(可動基部52)の位置を判定するようになっている。第1検知片70は、可動部材41における可動基部52の上端部に設けられ、可動部材41の待機位置において第1検知片70が第1検知手段69の検知部間に位置するよう設定され(図18参照)、第1検知手段69による第1検知片70の検知によって待機位置にある可動部材41を確認し得るよう構成される。   The first movable effect device 37 includes first detection means 69 that is installed at an upper end portion of the first cover member 45 and includes a photosensor that determines the position of the movable member 41, and the first detection means 69 includes The detection signal is input to the control device by being electrically connected to the control device. The first detection means 69 determines the position of the movable member 41 (movable base 52) depending on the presence or absence of the first detection piece 70 of the movable member 41 arranged so as to pass between the opposing detection parts in the first detection means 69. It comes to judge. The first detection piece 70 is provided at the upper end of the movable base 52 in the movable member 41, and is set so that the first detection piece 70 is positioned between the detection parts of the first detection means 69 at the standby position of the movable member 41 ( 18), the movable member 41 in the standby position can be confirmed by the detection of the first detection piece 70 by the first detection means 69.

(第1可動体について)
前記可動部材41の腕部53に移動可能に配設された前記第1可動体43は、可動部材41の待機位置において腕部53の右端部で、前記表示部13aの上辺における左右方向の略中央において該上辺の外側の待機位置に保持され、該上辺に沿って左右方向に延在している(図5参照)。第1可動体43は、後述するように可動部材41が待機位置から作動位置(図6,図21参照)に移動するのに連動して、腕部53の左端部に向けて平行移動して、表示部13aの上下方向の略中央において左辺側に偏倚した作動位置に至るよう構成される。なお、第1可動体43は、待機位置および作動位置において前記装飾部材28の窓口28a内に位置して、前側から視認可能に構成される(図2,図3参照)。
(About the first movable body)
The first movable body 43 movably disposed on the arm portion 53 of the movable member 41 is a right end portion of the arm portion 53 at the standby position of the movable member 41, and is substantially in the horizontal direction on the upper side of the display portion 13a. It is held at the standby position outside the upper side at the center, and extends in the left-right direction along the upper side (see FIG. 5). As will be described later, the first movable body 43 translates toward the left end portion of the arm portion 53 in conjunction with the movement of the movable member 41 from the standby position to the operating position (see FIGS. 6 and 21). The display unit 13a is configured to reach the operating position biased to the left side at the approximate center in the vertical direction. The first movable body 43 is located in the window 28a of the decorative member 28 at the standby position and the operating position, and is configured to be visible from the front side (see FIGS. 2 and 3).

前記第1可動体43は、図7,図8に示す如く、最前面に位置する装飾カバー体71と、該装飾カバー体71の裏側に配設された光透過性を有していない合成樹脂素材から形成された反射板72と、該反射板72の裏側に配設された第1発光基板73とから基本的に構成される。装飾カバー体71には、パチンコ機10のモチーフに合わせた文字や図形等の第1図柄43aが形成されている。実施例では、装飾カバー体71を光透過性を有する合成樹脂素材で形成したもとで、第1図柄43aを除く部分の表面にメッキ塗装等を施すことで、第1図柄43aの部分のみが光透過性を有するよう構成してある。第1発光基板73の前面には、発光体としての複数のLED73aが、第1図柄43aに対応して配設されると共に、反射板72には各LED73aと対応して前後方向に貫通する通孔72aが穿設される。そして、反射板72の裏面に第1発光基板73をネジ止めした状態で、各通孔72aに対応するLED73aが臨んで、該LED73aの発光により第1図柄43aが明輝されるよう構成される。また実施例の第1図柄43aは、後述する第2可動体88,89に形成された図柄88a,89aとによって意味のある一連の図柄を形成すると共に、更に第3可動体154に形成された図柄154aを合わせて意味のある一連の図柄を形成するよう構成される。なお、装飾カバー体71と反射板72との間には、第1図柄43aと対応する位置に、LED73aからの光を拡散する光拡散シート74が介挿されている。   As shown in FIGS. 7 and 8, the first movable body 43 includes a decorative cover body 71 located on the forefront, and a synthetic resin not disposed on the back side of the decorative cover body 71. It is basically composed of a reflecting plate 72 made of a material and a first light emitting substrate 73 disposed on the back side of the reflecting plate 72. The decorative cover body 71 is formed with a first pattern 43 a such as characters and figures that match the motif of the pachinko machine 10. In the embodiment, the decorative cover body 71 is formed of a light-transmitting synthetic resin material, and the surface of the portion excluding the first pattern 43a is subjected to plating or the like, so that only the portion of the first pattern 43a is present. It is configured to have optical transparency. On the front surface of the first light emitting substrate 73, a plurality of LEDs 73a as light emitters are disposed corresponding to the first pattern 43a, and the reflector 72 is passed through in the front-rear direction corresponding to each LED 73a. A hole 72a is formed. And in the state which screwed the 1st light emission board | substrate 73 to the back surface of the reflecting plate 72, LED73a corresponding to each through-hole 72a faces, and it is comprised so that the 1st design 43a may be brightened by light emission of this LED73a. In addition, the first symbol 43a of the embodiment forms a meaningful series of symbols with the symbols 88a and 89a formed on the second movable members 88 and 89 described later, and is further formed on the third movable member 154. The symbols 154a are combined to form a meaningful series of symbols. A light diffusion sheet 74 that diffuses the light from the LED 73a is interposed between the decorative cover body 71 and the reflection plate 72 at a position corresponding to the first pattern 43a.

前記反射板72の裏面には、図8に示す如く、左右方向(第1可動体43の移動方向)に離間して複数の突部75が、第1発光基板73に設けた通孔や切欠等を介して該第1発光基板73の後方に突出するように設けられると共に、各突部75には後方に開口するネジ孔75aが形成されている。実施例では左右方向に離間して3つの突部75が設けられ、その内の第1装置本体部47側に位置する2つの突部75,75が、前記腕部53における前支持部55の長孔55aに移動可能に挿通されている。また、反射板72の裏面下部には、左右方向に離間して複数の摺動部材76が配設され、各摺動部材76が腕部53の前面に摺動可能に接触するよう構成される。摺動部材76は、腕部53に接触する端部が第1発光基板73より後方に突出すると共に円弧状に形成されて、腕部53が第1発光基板73に接触するのを防止すると共に、接触面積を極力小さくするよう構成される。摺動部材76は、摩擦係数の小さな樹脂材料で形成されて、腕部53との摺動抵抗をより小さくするようにしてある。なお、反射板72の裏面上部には、腕部53に配設した後述する配線カバー86と協働して配線が第1可動体43の上方へ延出するのを防止する移動規制部材(図示せず)が左右方向に延在して配設される。   As shown in FIG. 8, a plurality of protrusions 75 are formed on the back surface of the reflecting plate 72 so as to be spaced apart in the left-right direction (the moving direction of the first movable body 43). Are provided so as to protrude rearward of the first light emitting substrate 73, and screw holes 75a are formed in the respective protrusions 75 so as to open rearward. In the embodiment, three protrusions 75 are provided apart from each other in the left-right direction, and two of the protrusions 75 and 75 located on the first device main body 47 side of the front support portion 55 in the arm portion 53 are provided. The long hole 55a is movably inserted. A plurality of sliding members 76 are disposed in the lower part of the back surface of the reflecting plate 72 so as to be spaced apart in the left-right direction, and each sliding member 76 is configured to slidably contact the front surface of the arm portion 53. . The sliding member 76 has an end that contacts the arm portion 53 protruding rearward from the first light emitting substrate 73 and is formed in an arc shape to prevent the arm portion 53 from contacting the first light emitting substrate 73. The contact area is minimized. The sliding member 76 is made of a resin material having a small friction coefficient so that the sliding resistance with the arm portion 53 is further reduced. In addition, a movement restricting member that prevents the wiring from extending above the first movable body 43 in cooperation with a wiring cover 86 (described later) disposed on the arm portion 53 is provided on the upper surface of the back surface of the reflecting plate 72 (FIG. (Not shown) extends in the left-right direction.

(第1連繋機構について)
前記第1連繋機構44は、前記第1可動体43に固定された可動連結部材78と、該可動連結部材78と可動部材41とを連繋する第1作動杆79と、該第1作動杆79を可動部材41の動作に連動して揺動するカム溝84とから基本的に構成される。可動連結部材78は、図15,図19,図22に示す如く、前記腕部53の収容空間S内で、前記複数の案内ローラ57を介して左右方向に移動可能に支持される。可動連結部材78には、第1可動体43の反射板72に設けた3つの突部75に対応する位置の夫々に、前後方向に貫通する通孔78aが穿設され、各通孔78aに後側から挿通したネジ80を、対応する突部75のネジ孔75aに螺挿することで、可動連結部材78と第1可動体43とが着脱可能に固定されて一体に移動可能に構成される。実施例では、図19および図22に示す如く、可動連結部材78における第1可動体43の待機位置および作動位置の何れにおいても収容空間Sから右方に延出する右端部に1つの通孔78aが穿設されると共に、第1可動体43の待機位置および作動位置の何れにおいても収容空間S内に臨む部位に2つの通孔78a,78aが穿設されている。そして、第1可動体43を着脱位置に位置させた際に、収容空間S内に臨む2つの通孔78a,78aの夫々が、腕部53における後支持部56の対応する孔56aの前側に臨んで、該孔56aを介して後側からネジ80を着脱し得るよう構成される(図12参照)。
(About the first linkage mechanism)
The first linkage mechanism 44 includes a movable connecting member 78 fixed to the first movable body 43, a first operating rod 79 that connects the movable connecting member 78 and the movable member 41, and the first operating rod 79. Is basically composed of a cam groove 84 that swings in conjunction with the operation of the movable member 41. As shown in FIGS. 15, 19, and 22, the movable connecting member 78 is supported in the housing space S of the arm portion 53 so as to be movable in the left-right direction via the plurality of guide rollers 57. The movable connecting member 78 is formed with through holes 78a penetrating in the front-rear direction at positions corresponding to the three protrusions 75 provided on the reflection plate 72 of the first movable body 43. The screw 80 inserted from the rear side is screwed into the screw hole 75a of the corresponding protrusion 75, so that the movable connecting member 78 and the first movable body 43 are detachably fixed and can be moved integrally. The In the embodiment, as shown in FIGS. 19 and 22, one through-hole is formed at the right end portion extending rightward from the accommodation space S in both the standby position and the operating position of the first movable body 43 in the movable connecting member 78. 78a is drilled, and two through holes 78a and 78a are drilled at a portion facing the accommodation space S in both the standby position and the operating position of the first movable body 43. And when the 1st movable body 43 is located in an attachment or detachment position, each of the two through-holes 78a and 78a which faces in the accommodation space S is on the front side of the corresponding hole 56a of the rear support part 56 in the arm part 53. The screw 80 can be attached and detached from the rear side through the hole 56a (see FIG. 12).

前記可動連結部材78の左端部には、図10に示す如く、後方に向けて突出するボス部78bが設けられ、該ボス部78bに第1ローラ体81が回転可能に配設される。第1ローラ体81は、ボス部78bが回転可能に挿通される軸受部81aと、該軸受部81aの後端に形成されて径方向に延出するフランジ81bとを備える。前記第1作動杆79は、下端(長手方向一端)が可動部材41の可動基部52に保持部材82を介して回転可能に枢支されると共に、該第1作動杆79の上端部側(長手方向他端部側)には、前後方向に貫通する係合孔79aが、長手方向に所定長さで延在している。そして、第1作動杆79は、係合孔79aに前記第1ローラ体81の軸受部81aが回転可能に挿通された状態で可動連結部材78に連繋されている。なお、第1作動杆79の上端部は、可動連結部材78と第1ローラ体81のフランジ81bとの間に位置して、前後方向の変位が規制される。また第1作動杆79の長手方向の中間位置に、後方に向けて突出するボス部79bが設けられ、該ボス部79bに第2ローラ体83が回転可能に配設される。第2ローラ体83は、ボス部79bが回転可能に挿通される軸受部83aと、該軸受部83aの前端に形成されて径方向に延出するフランジ83bとを備える。   As shown in FIG. 10, a boss portion 78b protruding rearward is provided at the left end portion of the movable connecting member 78, and the first roller body 81 is rotatably disposed on the boss portion 78b. The first roller body 81 includes a bearing portion 81a through which the boss portion 78b is rotatably inserted, and a flange 81b formed at the rear end of the bearing portion 81a and extending in the radial direction. The first operating rod 79 has a lower end (one longitudinal end) pivotally supported by the movable base 52 of the movable member 41 via a holding member 82 and an upper end side (longitudinal) of the first operating rod 79. On the other end side in the direction, an engagement hole 79a penetrating in the front-rear direction extends a predetermined length in the longitudinal direction. The first operating rod 79 is connected to the movable connecting member 78 in a state where the bearing portion 81a of the first roller body 81 is rotatably inserted into the engagement hole 79a. Note that the upper end portion of the first operating rod 79 is located between the movable connecting member 78 and the flange 81b of the first roller body 81, and displacement in the front-rear direction is restricted. Further, a boss portion 79b protruding rearward is provided at an intermediate position in the longitudinal direction of the first operating rod 79, and a second roller body 83 is rotatably disposed on the boss portion 79b. The second roller body 83 includes a bearing portion 83a through which the boss portion 79b is rotatably inserted, and a flange 83b formed at the front end of the bearing portion 83a and extending in the radial direction.

前記第1装置本体部47における第1ベース部材40の前面(第1カバー部材45と対向する面)には、図9に示す如く、上下方向に延在する前記カム溝84が形成され、該カム溝84内に、前記第1作動杆79に配設した第2ローラ体83の軸受部83aが移動可能に挿入される。カム溝84は、可動部材41の移動方向に平行に延在する直線部84a、該直線部84aの下端に連設されて下方に向かうにつれて左側(表示部13aから離間する側)に凸となるよう湾曲する湾曲部84bとからなる。そして、可動部材41の往復動に伴って第1作動杆79の第2ローラ体83がカム溝84の湾曲部84bに沿って案内されることで、第1作動杆79が下端を支点として揺動し、前記可動連結部材78が左右方向に往復移動するよう構成される。すなわち、可動連結部材78に固定されている前記第1可動体43が、可動部材41の往復動に伴って腕部53に沿って左右方向に平行移動するよう構成される。ここで、可動部材41の動作に連動して移動する第1可動体43は、上下方向の動きと左右方向の動きとが合成されて、前記表示部13aの上辺における左右方向中央の待機位置と、表示部13aの左辺側に偏倚した上下方向中央の作動位置との間を、斜めに平行移動する。なお、実施例のカム溝84の湾曲部84bにおける下部側の曲率は、該湾曲部84bの上部側の曲率より小さく設定され、第2ローラ体83が曲率の小さな湾曲部84bを案内される際には第1可動体43は左右方向へ殆ど変位することなく可動部材41と共に上下方向に略直線的に移動するよう構成される。   As shown in FIG. 9, the cam groove 84 extending in the vertical direction is formed on the front surface (the surface facing the first cover member 45) of the first base member 40 in the first apparatus body 47. A bearing portion 83a of a second roller body 83 disposed on the first operating rod 79 is movably inserted into the cam groove 84. The cam groove 84 is connected to the lower end of the linear portion 84a extending in parallel with the moving direction of the movable member 41, and protrudes to the left (side away from the display portion 13a) as it goes downward. And a curved portion 84b that is curved. As the movable member 41 reciprocates, the second roller body 83 of the first operating rod 79 is guided along the curved portion 84b of the cam groove 84, so that the first operating rod 79 swings with the lower end as a fulcrum. The movable connecting member 78 is configured to reciprocate in the left-right direction. That is, the first movable body 43 fixed to the movable connecting member 78 is configured to translate in the left-right direction along the arm portion 53 as the movable member 41 reciprocates. Here, the first movable body 43 that moves in conjunction with the operation of the movable member 41 is combined with the vertical movement and the horizontal movement to obtain a standby position in the horizontal center on the upper side of the display unit 13a. Then, it translates diagonally between the vertical operating center biased to the left side of the display unit 13a. Note that the curvature on the lower side of the curved portion 84b of the cam groove 84 of the embodiment is set smaller than the curvature on the upper side of the curved portion 84b, and the second roller body 83 is guided through the curved portion 84b having a small curvature. The first movable body 43 is configured to move substantially linearly in the vertical direction together with the movable member 41 with almost no displacement in the horizontal direction.

(配線保持構造について)
前記第1可動演出装置37の配線保持構造について説明する。第1可動演出装置37では、第1可動体43に設けた第1発光基板73に接続される配線は、前記第1ベース部材40に設けた前記配線通口40cを介して裏部材32の裏側に取り回される。第1可動体43が配設される腕部53の前支持部55には、前記収容空間Sの上側において後側に開口して左右方向に所定長さで延在する配線収容部55bが形成されている。配線収容部55bは、図16に示す如く、前支持部55の左端部(可動基部52を構成する部分)から右方に所定長さで形成されており、該配線収容部55bの後部開口は、前支持部55の後面に着脱可能にネジ止めされた配線蓋体85で閉じられて、配線収容部55bに収容した配線の上下および前後への抜け出しが防止されている。なお、配線蓋体85は、配線収容部55bの左右方向の長さ寸法より短かく設定され(図19参照)、前記第1装置本体部47の内部において配線通口40cの前側に臨む位置で配線収容部55bの後部開口は開放したままとされ、該後部開口から引き出された配線が配線通口40cを介して裏側に引き出されるよう構成される。
(About wiring holding structure)
The wiring holding structure of the first movable effect device 37 will be described. In the first movable effect device 37, the wiring connected to the first light emitting substrate 73 provided on the first movable body 43 is on the back side of the back member 32 via the wiring opening 40 c provided on the first base member 40. To be circulated. The front support portion 55 of the arm portion 53 on which the first movable body 43 is disposed is formed with a wiring housing portion 55b that opens to the rear side above the housing space S and extends a predetermined length in the left-right direction. Has been. As shown in FIG. 16, the wiring housing portion 55b is formed with a predetermined length to the right from the left end portion of the front support portion 55 (portion constituting the movable base 52), and the rear opening of the wiring housing portion 55b is The wiring cover body 85 is detachably screwed to the rear surface of the front support portion 55 to prevent the wiring accommodated in the wiring accommodation portion 55b from coming out vertically and backwards. The wiring lid body 85 is set to be shorter than the length dimension in the left-right direction of the wiring housing portion 55b (see FIG. 19), and is located at a position facing the front side of the wiring opening 40c inside the first apparatus main body portion 47. The rear opening of the wiring accommodating portion 55b is kept open, and the wiring drawn out from the rear opening is drawn out to the back side through the wiring opening 40c.

前記配線蓋体85の裏面には、第1装置本体部47の内部から腕部53に亘って延在する突条部85aが突設される。この突条部85aは、突出端部が後支持部56より後方に突出すると共に円弧状に形成されて、前記第1ベース部材40と後支持部56とが接触するのを防止すると共に、第1ベース部材40と突条部85aとが接触した際に接触面積を極力小さくして接触抵抗を抑え得るよう構成される(図14参照)。また、突条部85aは、摩擦係数の小さな樹脂材料で形成されて、第1ベース部材40との接触時の摺動抵抗をより小さくするようにしてある。なお、配線蓋体85を腕部53に固定する2つのネジは、第1装置本体部47に対して可動部材41を待機位置に位置させた状態で、一方は第1装置本体部47の外側に位置すると共に、他方は前記配線通口40cに臨んで、後方からのアクセスが可能に構成される(図12参照)。   On the back surface of the wiring lid 85, a protruding portion 85 a extending from the inside of the first device main body portion 47 to the arm portion 53 is projected. The protrusion 85a protrudes rearward from the rear support portion 56 and is formed in an arc shape to prevent the first base member 40 and the rear support portion 56 from contacting each other. When the 1 base member 40 and the protrusion 85a contact, it is comprised so that contact resistance can be made as small as possible and contact resistance can be suppressed (refer FIG. 14). Further, the protrusion 85a is formed of a resin material having a small friction coefficient so that the sliding resistance when contacting the first base member 40 is further reduced. The two screws for fixing the wiring lid 85 to the arm portion 53 are in a state where the movable member 41 is positioned at the standby position with respect to the first device main body 47, and one of the two screws is outside the first device main body 47. The other of the two faces the wiring passage 40c and is configured to be accessible from the rear (see FIG. 12).

前記後支持部56の上端部には、前記配線蓋体85の配設位置より右側に配線カバー86が配設される。配線カバー86は、図15に示す如く、第1可動体43の第1発光基板73の裏面に対向する後壁部86aと、該後壁部86aの上端縁から前方に延出する上壁部86bおよび後壁部86aの右端縁から前方に延出する右壁部86cとから構成されて、前方および左側方に開口している。配線カバー86における右壁部86cの突出寸法は、第1発光基板73と接触することなく、かつ第1発光基板73との間に配線が通過可能な隙間が形成されない寸法に設定される。また配線カバー86の上壁部86bにおける延出端は、前記反射板72に配設した前記移動規制部材に対して上側でオーバーラップし、配線が上壁部86bを越えて上方に延出しないよう構成される。なお、後支持部56における配線カバー86の配設位置に対応して、前記配線収容部55bの右端部から導出する配線を結束具(図示せず)で結束する結束部56bが設けられ、該結束部56bに配線を結束することで、該結束部56bより左側での配線の移動を規制している。そして、配線における結束部56bに結束された部位から第1発光基板73の裏面における後壁部86aと対向する位置に配設されたソケット73bに接続される部位が、横向きU字状に湾曲された状態で配線カバー86と第1発光基板73との間に支持される。これにより配線は、第1可動体43の待機位置と作動位置との間を移動するに際して配線カバー86で覆われた領域でのみ曲がり、第1可動体43の外方に配線が露出して遊技者から見えるようになってしまうのは防止される。なお、配線カバー86を腕部53に固定するネジは、後側に露出して後方からのアクセスが可能に構成されている(図12参照)。   A wiring cover 86 is disposed on the upper end of the rear support 56 on the right side of the position where the wiring cover 85 is disposed. As shown in FIG. 15, the wiring cover 86 includes a rear wall portion 86a facing the back surface of the first light emitting substrate 73 of the first movable body 43, and an upper wall portion extending forward from the upper end edge of the rear wall portion 86a. 86b and a right wall portion 86c extending forward from the right edge of the rear wall portion 86a and opening forward and leftward. The protruding dimension of the right wall portion 86 c in the wiring cover 86 is set to a dimension that does not contact the first light emitting substrate 73 and does not form a gap through which the wiring can pass between the first light emitting substrate 73. The extension end of the upper wall portion 86b of the wiring cover 86 overlaps the movement restricting member disposed on the reflection plate 72 on the upper side, and the wiring does not extend upward beyond the upper wall portion 86b. It is configured as follows. Corresponding to the arrangement position of the wiring cover 86 in the rear support portion 56, a bundling portion 56b is provided for bundling the wiring led out from the right end portion of the wiring accommodating portion 55b with a bundling tool (not shown), By binding the wiring to the binding portion 56b, the movement of the wiring on the left side of the binding portion 56b is restricted. A portion connected to the socket 73b disposed at a position facing the rear wall portion 86a on the back surface of the first light emitting substrate 73 from the portion of the wiring bundled to the binding portion 56b is curved in a lateral U-shape. In this state, the wiring cover 86 and the first light emitting substrate 73 are supported. As a result, the wiring bends only in the area covered with the wiring cover 86 when moving between the standby position and the operating position of the first movable body 43, and the wiring is exposed to the outside of the first movable body 43. It is prevented from becoming visible to the person. The screw for fixing the wiring cover 86 to the arm portion 53 is configured to be exposed on the rear side and accessible from the rear (see FIG. 12).

(第2可動演出装置について)
前記第2可動演出装置(可動演出装置)38は、図5に示すように、裏部材32における右対向面部35dに設置されている。図23,図24に示すように、第2可動演出装置38は、該第2可動演出装置38を構成する部材の設置基盤となる第2ベース部材87と、所定の演出動作を行なう複数の第2可動体88,89と、複数の第2可動体88,89を往復動する第2駆動部90および第2連繋機構(第1作動機構)91と、1つの第2可動体89のみを往復動する第3駆動部92および第3連繋機構(第2作動機構)93と、第2ベース部材87の前側を覆う第2カバー部材94とから基本的に構成される。第2可動演出装置38は、図31に示す如く、第2ベース部材87と第2カバー部材94とから第2駆動部90の第2伝達部95および第2連繋機構91を収容するケース状の第2装置本体部(装置本体部)96が構成されると共に、第2カバー部材94に配設されたカバー部品97,98を介して第3駆動部92および第3連繋機構93が配設され、第2装置本体部96単位で、第2可動体88,89、第2駆動部90、第2連繋機構91、第3駆動部92および第3連繋機構93を含めて裏部材32に対して一体的に着脱可能なユニット構造になっている。また第2可動演出装置38は、第2装置本体部96が前記図柄表示装置13の表示部13aの右辺(第2の辺)の外側に配置されると共に(図4参照)、前記第2可動体88,89が前記装飾部材28の窓口28a内に臨んで、前側から第2可動体88,89が視認可能に構成される(図2参照)。
(About the second movable effect device)
As shown in FIG. 5, the second movable effect device (movable effect device) 38 is installed on the right facing surface portion 35 d of the back member 32. As shown in FIGS. 23 and 24, the second movable effect device 38 includes a second base member 87 serving as an installation base of members constituting the second movable effect device 38 and a plurality of second effect members that perform predetermined effect operations. 2 movable bodies 88, 89, a second drive unit 90 and a second linkage mechanism (first operating mechanism) 91 that reciprocate a plurality of second movable bodies 88, 89, and only one second movable body 89. It basically includes a third driving unit 92 and a third linkage mechanism (second operating mechanism) 93 that move, and a second cover member 94 that covers the front side of the second base member 87. As shown in FIG. 31, the second movable effect device 38 has a case-like shape that houses the second transmission portion 95 and the second linkage mechanism 91 of the second drive portion 90 from the second base member 87 and the second cover member 94. A second device main body (device main body) 96 is configured, and a third drive unit 92 and a third linkage mechanism 93 are disposed via cover parts 97 and 98 disposed on the second cover member 94. The second device body 96 includes the second movable body 88, 89, the second drive unit 90, the second linkage mechanism 91, the third drive portion 92, and the third linkage mechanism 93 with respect to the back member 32. The unit structure is detachable as a unit. Further, in the second movable effect device 38, the second device main body 96 is disposed outside the right side (second side) of the display unit 13a of the symbol display device 13 (see FIG. 4), and the second movable device 38 is provided. The bodies 88 and 89 face the window 28a of the decorative member 28, and the second movable bodies 88 and 89 are configured to be visible from the front side (see FIG. 2).

実施例では、第2可動演出装置38は、2つの第2可動体88,89を備えており、以後の説明において一方の第2可動体(第2の可動体)89を、直動第2可動体89と指称すると共に、他方の第2可動体(第1の可動体)88を斜動第2可動体88と指称するものとする。第2可動演出装置38では、2つの第2可動体88,89が、前記図柄表示装置13の表示部13aにおける右辺の前側に重なった位置において、作動位置に至った前記第1可動体43を通って表示部13aの上辺(第1可動体43が待機位置で臨む第1辺)と平行な直線Lを挟んで上下方向(右辺の延在方向)に並んだ待機位置で待機する(図5参照)。そして、待機位置において下側に位置する直動第2可動体89については、待機位置と、該待機位置から右辺に沿って上方に変位した作動位置との間を表示部13aの前面に対して平行な姿勢を保ったまま往復動すると共に、待機位置において上側に位置する斜動第2可動体88については、待機位置と、該待機位置から表示部13aの中央側に向けた左斜め下方の表示部13a前側に変位した作動位置との間を表示部13aの前面に対して平行な姿勢を保ったまま往復動するよう構成されている(図32〜図38参照)。また、2つの第2可動体88,89が作動位置に至った状態で、図6に示す如く、作動位置の前記第1可動体43と、上辺に平行な直線状に並ぶよう構成される。   In the embodiment, the second movable effect device 38 includes two second movable bodies 88 and 89, and in the following description, one second movable body (second movable body) 89 is directly moved to the second movable body 89. The movable body 89 is designated and the other second movable body (first movable body) 88 is designated as the tilted second movable body 88. In the second movable effect device 38, the first movable body 43 that has reached the operating position is located at the position where the two second movable bodies 88 and 89 overlap the front side of the right side of the display unit 13a of the symbol display device 13. It waits at a standby position that is lined up and down (in the extending direction of the right side) across a straight line L parallel to the upper side of the display unit 13a (the first side at which the first movable body 43 faces at the standby position) (FIG. 5). reference). Then, with respect to the linearly movable second movable body 89 positioned on the lower side in the standby position, the distance between the standby position and the operating position displaced upward along the right side from the standby position with respect to the front surface of the display unit 13a. The tilting second movable body 88 that reciprocates while maintaining a parallel posture and is located on the upper side at the standby position is located at the standby position and the diagonally lower left toward the center of the display unit 13a from the standby position. It is configured to reciprocate between the operating position displaced to the front side of the display unit 13a while maintaining a posture parallel to the front surface of the display unit 13a (see FIGS. 32 to 38). Further, in a state where the two second movable bodies 88 and 89 reach the operating position, as shown in FIG. 6, the first movable body 43 in the operating position is arranged in a straight line parallel to the upper side.

前記第2ベース部材87は、図25,図29等に示す如く、裏部材32の右対向面部35dに当接する板状部分の周縁部から前方へ壁が立ち上がる前方に開口する箱状体であって、透明な合成樹脂素材から形成されている。また第2カバー部材94は、図25,図29等に示す如く、第2ベース部材87の前部開口を被覆可能な板状部分の周縁部から後方へ壁が立ち上がる後方に開口する箱状体であって、透明な合成樹脂素材から形成されている。そして、第2ベース部材87の壁に第2カバー部材94の壁を当接した状態で、両部材87,94がねじ止め固定されることで、前記第2伝達部95、第2連繋機構91等を収容する空間を画成した前記第2装置本体部96が構成される(図34参照)。   25, 29, etc., the second base member 87 is a box-like body that opens to the front from which the wall rises forward from the peripheral edge of the plate-like portion that contacts the right facing surface portion 35d of the back member 32. And made of a transparent synthetic resin material. Further, as shown in FIGS. 25, 29, etc., the second cover member 94 is a box-like body that opens to the rear from which the wall rises rearward from the peripheral edge of the plate-like portion that can cover the front opening of the second base member 87. And it is formed from a transparent synthetic resin material. Then, in a state where the wall of the second cover member 94 is in contact with the wall of the second base member 87, both the members 87, 94 are fixed by screwing, whereby the second transmission portion 95 and the second linkage mechanism 91 are fixed. The second apparatus main body 96 that defines a space for accommodating etc. is configured (see FIG. 34).

前記第2装置本体部96の左側部(表示部13a側の側部)には、第2ベース部材87および第2カバー部材94との間に、第2連繋機構91のリンク杆109,110(後述)が挿通されるリンク挿通口96aが画成される。リンク挿通口96aは、前後寸法がリンク杆109,110の前後寸法より若干大きく設定されると共に、上下寸法がリンク杆109,110の上下変位を許容し得る幅に設定され、リンク挿通口96aに挿通したリンク杆109,110の上下方向の変位を許容しつつ前後方向のぶれを抑制し得るようになっている。   On the left side (the side on the display unit 13a side) of the second apparatus main body 96, the link rods 109, 110 (second linkage mechanism 91) are provided between the second base member 87 and the second cover member 94. A link insertion port 96a through which (described later) is inserted is defined. The link insertion port 96a is set to have a longitudinal dimension slightly larger than the longitudinal dimension of the link rods 109 and 110, and the vertical dimension is set to a width that allows the vertical displacement of the link rods 109 and 110. It is possible to suppress the shake in the front-rear direction while allowing the displacement of the inserted link rods 109, 110 in the vertical direction.

(斜動第2可動体について)
待機位置において前記直動第2可動体89の上方に保持される前記斜動第2可動体88は、図23,図27に示す如く、最前面に位置する斜動用装飾カバー体99と、該斜動用装飾カバー体99の裏側に配設された光透過性を有していない合成樹脂素材から形成された斜動用反射板100と、該斜動用反射板100の裏側に配設された斜動用第2発光基板101とから基本的に構成される。斜動用装飾カバー体99には、パチンコ機10のモチーフに合わせた文字や図形等の斜動用第2図柄88aが形成されている。実施例では、斜動用装飾カバー体99を光透過性を有する合成樹脂素材で形成したもとで、斜動用第2図柄88aを除く部分の表面にメッキ塗装等を施すことで、斜動用第2図柄88aの部分のみが光透過性を有するよう構成してある。斜動用第2発光基板101の前面には、発光体としての複数のLED101aが、斜動用第2図柄88aに対応して配設されると共に、斜動用反射板100には各LED101aと対応して前後方向に貫通する通孔100aが穿設される。そして、斜動用反射板100の裏面に斜動用第2発光基板101をネジ止めした状態で、各通孔100aに対応するLED101aが臨んで、該LED101aの発光により斜動用第2図柄88aが明輝されるよう構成される。また実施例の斜動用第2図柄88aは、直動第2可動体89に形成された後述する直動用第2図柄89aおよび前記第1可動体43に形成された第1図柄43aとによって意味のある一連の図柄を形成すると共に、更に第3可動体154に形成された第3図柄154aを合わせて意味のある一連の図柄を形成するよう構成される。なお、斜動用装飾カバー体99と斜動用反射板100との間には、斜動用第2図柄88aと対応する位置に、LED101aからの光を拡散する斜動用光拡散シート102が介挿されている。
(About tilting second movable body)
As shown in FIGS. 23 and 27, the tilting second movable body 88 held above the linear motion second movable body 89 in the standby position includes a tilting decorative cover body 99 positioned on the forefront, and The tilting reflecting plate 100 made of a synthetic resin material having no light transmission disposed on the back side of the tilting decorative cover body 99 and the tilting tilting plate disposed on the back side of the tilting reflecting plate 100. The second light emitting substrate 101 is basically configured. On the tilting decorative cover body 99, a second pattern 88a for tilting such as characters and figures matching the motif of the pachinko machine 10 is formed. In the embodiment, the tilting decorative cover body 99 is formed of a light-transmitting synthetic resin material, and the surface of the portion excluding the second tilting pattern 88a is subjected to plating or the like, thereby providing the second tilting cover. Only the portion of the pattern 88a is configured to have light transmittance. On the front surface of the second light emitting substrate 101 for tilting, a plurality of LEDs 101a as light emitters are disposed corresponding to the second pattern 88a for tilting, and the reflecting plate 100 for tilting corresponds to each LED 101a. A through hole 100a penetrating in the front-rear direction is formed. Then, in a state where the second light emitting substrate 101 for tilting is screwed to the back surface of the reflecting plate 100 for tilting, the LED 101a corresponding to each through hole 100a faces, and the second pattern 88a for tilting is brightened by the light emission of the LED 101a. Configured to be In addition, the second design 88a for tilting of the embodiment is meaningful by the second design 89a for linear motion described later formed on the linear motion second movable body 89 and the first design 43a formed on the first movable body 43. A series of symbols is formed, and a third series of symbols 154a formed on the third movable body 154 is combined to form a meaningful series of symbols. A tilting light diffusion sheet 102 that diffuses the light from the LED 101a is interposed between the tilting decorative cover body 99 and the tilting reflector 100 at a position corresponding to the second tilting pattern 88a. Yes.

前記斜動用反射板100の裏面には、図27に示す如く、上下方向(右辺に沿う方向)に離間して複数の支持突部103が、斜動用第2発光基板101に設けた通孔や切欠等を介して該斜動用第2発光基板101の後方に突出するように設けられると共に、各支持突部103には後方に開口する嵌合孔103aが形成されている。実施例では上下方向に離間して3つの支持突部103が設けられ、これら3つの支持突部103には、各嵌合孔103aに前端部が嵌挿された軸部品104が後方に突出して設けられ、各軸部品104に、第2連繋機構91を構成する後述の第2作動杆107およびリンク杆109,110が夫々回転可能に連結される。なお、斜動用第2発光基板101の裏面には、最下部と中間部の2つの支持突部103,103の間において右側に偏倚してソケット101bが配設され、該ソケット101bに配線が接続される。   As shown in FIG. 27, a plurality of support protrusions 103 are spaced apart from each other in the vertical direction (the direction along the right side) on the back surface of the tilting reflection plate 100. Each of the support protrusions 103 is formed with a fitting hole 103a that is open to the rear. In the embodiment, three support protrusions 103 are provided apart from each other in the vertical direction, and a shaft component 104 having a front end portion inserted into each fitting hole 103a protrudes rearward in these three support protrusions 103. A second operating rod 107 and link rods 109 and 110, which will be described later, constituting the second linkage mechanism 91 are rotatably connected to the shaft components 104, respectively. Note that a socket 101b is disposed on the back surface of the second light emitting substrate 101 for tilting so as to be biased to the right between the two support protrusions 103, 103 of the lowermost part and the middle part, and wiring is connected to the socket 101b. Is done.

(第2連繋機構について)
前記第2連繋機構91は、図23,図24,図25,図29等に示す如く、前記第2装置本体部96に上下動可能に配設された作動部材105と、該作動部材105に配設されたラック部材(押圧部材)106と、作動部材105および斜動第2可動体88を連繋する第2作動杆(作動杆)107と、第2装置本体部96および斜動第2可動体88に連繋された平行リンク機構108と、第2作動杆107を作動部材105の動作に連動して移動するためのカム孔94c,105cとから基本的に構成される。そして、第2連繋機構91は、第2駆動部90の後述する第2モータ120の駆動によって、斜動第2可動体88を待機位置に移動した第1位置(図32,図33)および該斜動第2可動体88を作動位置に移動した第2位置(図36,図37,図38)との間で移動するよう構成される。
(About the second linkage mechanism)
As shown in FIGS. 23, 24, 25, 29, etc., the second linkage mechanism 91 includes an operating member 105 disposed in the second device main body 96 so as to be movable up and down, and the operating member 105. A rack member (pressing member) 106, a second operating rod (operating rod) 107 linking the operating member 105 and the tilting second movable body 88, a second device main body portion 96, and a tilting second movable member. The parallel link mechanism 108 connected to the body 88 and cam holes 94c and 105c for moving the second operating rod 107 in conjunction with the operation of the operating member 105 are basically configured. Then, the second linkage mechanism 91 has a first position (FIGS. 32 and 33) in which the tilting second movable body 88 is moved to the standby position by driving a second motor 120 described later of the second drive unit 90, and The tilting second movable body 88 is configured to move between the second position (FIGS. 36, 37, and 38) where the second movable body 88 is moved to the operating position.

(平行リンク機構について)
前記平行リンク機構108は、一対のリンク杆109,110から構成され、両リンク杆109,110は、長手方向の一端部(下端部)が、第2装置本体部96の内部に回転可能に連繋されると共に、前記リンク挿通口96aを介して第2装置本体部96の外方に延出する両リンク杆109,110の長手方向の他端部(上端部)が、前記斜動第2可動体88に回転可能に連繋されている(図33〜図38参照)。すなわち、平行リンク機構108を構成する一方の第1リンク杆109の下端部は、前記直線Lより下方において第2ベース部材87と第2カバー部材94との間に配設された第1回動軸111に通孔が挿通されて回転可能に軸支される。また第1リンク杆109の上端部は、斜動第2可動体88に設けた中間部の支持突部103に嵌挿した軸部品104に回転可能に軸支される。
(About parallel link mechanism)
The parallel link mechanism 108 is composed of a pair of link rods 109 and 110, and both link rods 109 and 110 are linked so that one end portion (lower end portion) in the longitudinal direction is rotatable inside the second device main body portion 96. In addition, the other end portions (upper end portions) in the longitudinal direction of the link rods 109 and 110 extending outward from the second device main body portion 96 through the link insertion port 96a are tilted second movable. The body 88 is rotatably connected (see FIGS. 33 to 38). That is, the lower end portion of the first link rod 109 constituting the parallel link mechanism 108 is disposed below the straight line L between the second base member 87 and the second cover member 94. A through hole is inserted through the shaft 111 and is rotatably supported. Further, the upper end portion of the first link rod 109 is rotatably supported by a shaft component 104 fitted and inserted into an intermediate support protrusion 103 provided on the tilting second movable body 88.

前記第1リンク杆109とにより平行リンク機構108を構成する他方の第2リンク杆110の長手方向の一端部(下端部)は、前記第2ベース部材87と第2カバー部材94との間において前記第1回動軸111の配設位置より下方に配設された第2回動軸112を通孔に通挿することで回転可能に軸支される。また第2リンク杆110の長手方向の他端部(上端部)は、前記斜動第2可動体88に設けた最下部の支持突部103に嵌挿した軸部品104に回転可能に軸支される。すなわち、第2装置本体部96に対して一対のリンク杆109,110からなる平行リンク機構108で連繋された斜動第2可動体88は、姿勢を変えることなく平行移動し得るよう構成される。なお、第2カバー部材94には、両リンク杆109,110の移動経路に前後で重なる位置に、図25,図29に示す如く、2つの上向き凸状の弧状ガイド孔94a,94aが上下に離間して形成されている。そして、第1リンク杆109の長手方向の中間位置に回転可能に枢支した第1ローラ部材113が上側の弧状ガイド孔94aに回転可能でかつガイド孔94aに沿って移動可能に臨むと共に、第2リンク杆110の長手方向の中間位置に回転可能に枢支した第2ローラ部材114が他方の弧状ガイド孔94aに回転可能でかつガイド孔94aに沿って移動可能に臨んでいる(図32,図36参照)。これにより、一対のリンク杆109,110は、対応する回動軸111,112を中心として安定して揺動するよう構成される。また両ローラ部材113,114は、軸部から径方向に延出するフランジを備えた一対の半体を、弧状ガイド孔94aの両側にフランジが臨むように連結して構成されることで、該ローラ部材113,114は、対応する弧状ガイド孔94a,94aに対して前後方向への移動が規制されており、リンク杆109,110は、長手方向の中間部において前後方向へのぶれが抑制されるようになっている。   One end portion (lower end portion) of the other second link rod 110 constituting the parallel link mechanism 108 with the first link rod 109 is between the second base member 87 and the second cover member 94. The second rotation shaft 112 disposed below the position where the first rotation shaft 111 is disposed is inserted into a through hole so as to be rotatably supported. The other end portion (upper end portion) of the second link rod 110 in the longitudinal direction is rotatably supported by a shaft component 104 fitted in the lowermost support projection 103 provided on the tilting second movable body 88. Is done. That is, the tilting second movable body 88 connected to the second apparatus main body 96 by the parallel link mechanism 108 including the pair of link rods 109 and 110 is configured to be able to move in parallel without changing the posture. . In the second cover member 94, two upwardly projecting arcuate guide holes 94a and 94a are vertically arranged at positions overlapping the moving paths of the two link rods 109 and 110 in the front and rear directions, as shown in FIGS. They are spaced apart. A first roller member 113 pivotally supported at an intermediate position in the longitudinal direction of the first link rod 109 is rotatable in the upper arcuate guide hole 94a and is movable along the guide hole 94a. The second roller member 114 pivotally supported at an intermediate position in the longitudinal direction of the two link rod 110 faces the other arcuate guide hole 94a so as to be movable along the guide hole 94a (FIG. 32). (See FIG. 36). Accordingly, the pair of link rods 109 and 110 are configured to stably swing around the corresponding rotation shafts 111 and 112. The roller members 113 and 114 are configured by connecting a pair of halves having a flange extending in the radial direction from the shaft portion so that the flanges face both sides of the arcuate guide hole 94a. The roller members 113, 114 are restricted from moving in the front-rear direction with respect to the corresponding arc-shaped guide holes 94a, 94a, and the link rods 109, 110 are restrained from shaking in the front-rear direction at the middle part in the longitudinal direction. It has become so.

ここで、前記斜動第2可動体88の軸部品104には、前記支持突部103から後方への突出部分にスペーサ115が配設され、該スペーサ115から後方へ突出する軸部品104の後端部に前記各リンク杆109,110が枢支されて、該リンク杆109,110と斜動第2可動体88(斜動用第2発光基板101)の裏面との間に、前記第2カバー部材94における後述する上部延出部94dの挿通を許容する隙間を確保するよう構成される。また上側(上部延出部94d側)に臨む第1リンク杆109の上縁部には、上部延出部94dと対応する位置に、外方に突出する案内突部109aが設けられ、該案内突部109aの前面には、突出端に向かうにつれて後側に退避する傾斜が形成されている。すなわち、第1リンク杆109が第1位置から第2位置(斜動第2可動体88の作動位置から待機位置)へ移動する際に前記上部延出部94dの後側に重なる位置に移動するときに、案内突部109aによって該第1リンク杆109を上部延出部94dの後側に確実に案内し得るよう構成される。   Here, the shaft component 104 of the tilting second movable body 88 is provided with a spacer 115 at a protruding portion rearward from the support protrusion 103, and the rear of the shaft component 104 protruding rearward from the spacer 115. The link rods 109 and 110 are pivotally supported at the end portions, and the second cover is provided between the link rods 109 and 110 and the back surface of the tilting second movable body 88 (the tilting second light emitting substrate 101). The member 94 is configured to ensure a gap that allows insertion of an upper extension portion 94d described later. A guide projection 109a protruding outward is provided at the upper edge of the first link rod 109 facing the upper side (upper extension 94d side) at a position corresponding to the upper extension 94d. A slope is formed on the front surface of the protrusion 109a so as to retreat to the rear side toward the protruding end. That is, when the first link rod 109 moves from the first position to the second position (from the operation position of the tilting second movable body 88 to the standby position), it moves to a position overlapping the rear side of the upper extension portion 94d. Sometimes, the guide protrusion 109a is configured to reliably guide the first link rod 109 to the rear side of the upper extension 94d.

前記第1回動軸111には、復帰補助手段としてのねじりコイルバネ116が配設され、該ねじりコイルバネ116によって第1リンク杆109には、斜動第2可動体88を待機位置に向けて移動する方向へ回転する付勢力が常に付与されるよう構成される。ねじりコイルバネ116は、コイル部116aと、2つの弾性腕部116b,116cとを備え、コイル部116aに第1回動軸111が挿通された状態で、一方の弾性腕部116bが第1リンク杆109の上縁部に設けたバネ係止部109bに係止されると共に、他方の弾性腕部116cが第2カバー部材94に設けたバネ係止部94bに係止され、実施例ではねじりコイルバネ116により第1リンク杆109が上向きに回転するように付勢されている。   The first rotating shaft 111 is provided with a torsion coil spring 116 as return assisting means, and the torsion coil spring 116 moves the tilting second movable body 88 toward the standby position on the first link rod 109. The urging force that rotates in the direction to be applied is always applied. The torsion coil spring 116 includes a coil portion 116a and two elastic arm portions 116b and 116c. When the first rotating shaft 111 is inserted through the coil portion 116a, one elastic arm portion 116b is connected to the first link arm. 109, and the other elastic arm portion 116c is locked to the spring locking portion 94b provided on the second cover member 94. In the embodiment, the torsion coil spring is used. 116 urges the first link rod 109 to rotate upward.

前記第2リンク杆110の裏面には、図29,図35,図38に示す如く、配線フック110aが長手方向に離間して複数設けられ、前記斜動用第2発光基板101のソケット101bに接続された配線は、該第2リンク杆110の裏側を配線フック110aに係止した状態で引き回された後、第2装置本体部96の内部に、前記リンク挿通口96aから引き込まれるよう構成される。また第2リンク杆110の裏面には、複数の配線フック110aを挟む長手方向の両側に、図示しない結束具によって配線を結束する結束部110bが夫々設けられ、第2リンク杆110の裏側を引き回される配線が後方に大きく延出するのを防止するよう構成してある。なお、両リンク杆109,110の前面には、該リンク杆109,110における前側から視認可能な部位に装飾板117が夫々配設されて、見栄えが低下するのを防止している(図30参照)。   As shown in FIGS. 29, 35, and 38, a plurality of wiring hooks 110a are provided apart from each other in the longitudinal direction on the back surface of the second link rod 110 and connected to the socket 101b of the second light emitting board 101 for tilting. The routed wiring is configured to be drawn into the second device main body 96 from the link insertion port 96a after being routed with the back side of the second link rod 110 locked to the wiring hook 110a. The Further, on the back surface of the second link rod 110, bundling portions 110b for bundling the wires with a bundling tool (not shown) are provided on both sides in the longitudinal direction across the plurality of wiring hooks 110a, and the back side of the second link rod 110 is pulled. The wiring to be rotated is configured to be prevented from greatly extending backward. In addition, a decorative plate 117 is disposed on the front surface of the link rods 109 and 110 at portions visible from the front side of the link rods 109 and 110, respectively, to prevent the appearance from being deteriorated (FIG. 30). reference).

(作動部材について)
前記作動部材105は、図25,図29,図30に示す如く、前記第2カバー部材94の前側に位置する板状の部材であって、左右方向(第2辺と直交する方向)に延在する横部105aと、該横部105aの右端部から下方に延在する縦部105bとを備え、該縦部105bが、第2装置本体部96の内部に配設された前記ラック部材106にネジ止め固定されて、該ラック部材106と一体で移動するよう構成される。また作動部材105の横部105aには、前後に貫通する第1カム孔105cが左右方向に延在して形成され、該第1カム孔105cに、前記第2作動杆107の長手方向の一端部(上端部)が回転可能で、かつ左右方向に移動可能に連繋されている。
(About actuating members)
The operating member 105 is a plate-like member located on the front side of the second cover member 94 as shown in FIGS. 25, 29, and 30, and extends in the left-right direction (direction perpendicular to the second side). The rack member 106 is provided with a horizontal portion 105a and a vertical portion 105b extending downward from the right end portion of the horizontal portion 105a, and the vertical portion 105b is disposed inside the second device main body 96. The rack member 106 is configured to move integrally with the rack member 106. Further, a first cam hole 105c penetrating in the front-rear direction is formed in the lateral portion 105a of the operation member 105 so as to extend in the left-right direction. One end of the second operation rod 107 in the longitudinal direction is formed in the first cam hole 105c. The portions (upper end portions) are connected so as to be rotatable and movable in the left-right direction.

前記第2作動杆107の上端部は、第2カバー部材94と作動部材105との間に臨むと共に、該上端部には、通孔に嵌挿した軸ピン118が前後に突出した状態で配設される。該軸ピン118における前側に突出する部分にローラ部材119が回転可能に枢支され、該ローラ部材119が前記作動部材105の第1カム孔105cに回転可能でかつ左右方向に移動可能に臨んでいる。そして、第2作動杆107の下端部が、斜動第2可動体88に設けた最上部の支持突部103に嵌挿した軸部品104のスペーサ115から後方に突出する端部に回転可能に連繋されている。また第2カバー部材94には、上下方向に延在する第2カム孔94cが形成され、該第2カム孔94c内に、第2作動杆107に配設した軸ピン118の後側に突出する部分が移動可能に挿入されている。第2カム孔94cは、上側から下側に向かうにつれて左側に偏倚するよう下側に凸の湾曲形状に形成されている。そして、作動部材105の上下方向の往復動に伴って軸ピン118が第2カム孔94cに沿って案内されることで、第2作動杆107が上下方向に移動しつつ第1カム孔105cに沿って左右方向に移動するよう構成される(図32,図36参照)。これにより、前記平行リンク機構108で支持されている斜動第2可動体88が、待機位置と作動位置との間を表示部13aの前面に沿って平行移動する。ここで、斜動第2可動体88は、第2作動杆107の上下方向の動きと左右方向の動きとが合成されて、表示部13aの右辺側の待機位置と、表示部13aの前中央側であって上下方向中央の作動位置との間を、斜めに平行移動する。   The upper end of the second actuating rod 107 faces between the second cover member 94 and the actuating member 105, and the upper end of the shaft pin 118 fitted in the through hole projects in the front-rear direction. Established. A roller member 119 is pivotally supported at a portion of the shaft pin 118 protruding forward, and the roller member 119 faces the first cam hole 105c of the operating member 105 so as to be movable in the left-right direction. Yes. The lower end of the second operating rod 107 is rotatable to the end protruding backward from the spacer 115 of the shaft part 104 fitted into the uppermost support protrusion 103 provided on the tilting second movable body 88. It is connected. Further, the second cover member 94 is formed with a second cam hole 94c extending in the vertical direction, and projects to the rear side of the shaft pin 118 disposed on the second operating rod 107 in the second cam hole 94c. The part to be inserted is movably inserted. The second cam hole 94c is formed in a curved shape that protrudes downward so as to deviate to the left as it goes from the upper side to the lower side. The shaft pin 118 is guided along the second cam hole 94c as the operating member 105 reciprocates in the vertical direction, so that the second operating rod 107 moves up and down and moves into the first cam hole 105c. It is comprised so that it may move to the left-right direction along (refer FIG. 32, FIG. 36). As a result, the tilting second movable body 88 supported by the parallel link mechanism 108 translates between the standby position and the operating position along the front surface of the display unit 13a. Here, the tilting second movable body 88 is obtained by combining the vertical movement and the horizontal movement of the second operating rod 107, and the standby position on the right side of the display unit 13a and the front center of the display unit 13a. It moves in a slanting manner between the working position on the side and the center in the vertical direction.

前記第2カバー部材94には、前記直線Lより上方位置において、前記第2ベース部材87の左端縁(表示部13a側の端縁)より外方に延出する上部延出部94dが設けられ、前記第2カム孔94cは、第2カバー部材94の上端部において右側に偏った位置から上部延出部94dの延出端まで形成される(図29参照)。そして、第2作動杆107の軸ピン118が第2カム孔94cにおける上部延出部94dの延出端側の端部に至ったときに、図36に示すように斜動第2可動体88は、前記直動第2可動体89と干渉しない左側の作動位置に至るよう構成される。   The second cover member 94 is provided with an upper extension portion 94d that extends outward from the left end edge (end edge on the display portion 13a side) of the second base member 87 at a position above the straight line L. The second cam hole 94c is formed from the position biased to the right side at the upper end portion of the second cover member 94 to the extending end of the upper extending portion 94d (see FIG. 29). Then, when the shaft pin 118 of the second operating rod 107 reaches the end of the upper extension portion 94d of the second cam hole 94c on the extension end side, as shown in FIG. Is configured to reach the left operating position where it does not interfere with the linearly movable second movable body 89.

(第2駆動部について)
前記第2駆動部90は、図23,図24,図25および図29に示す如く、第2モータ(駆動手段,第1駆動手段)120と、この第2モータ120および作動部材105を連繋して、第2モータ120の回転を作動部材105の動作に変換する第2伝達部95とから構成される。実施例では、第2モータ120として、前記制御装置の制御下に駆動または駆動停止されるステッピングモータが用いられている。第2モータ120は、第2ベース部材87の上端部後面に取付けられ(図31参照)、裏部材32の右対向面部35dに凹設された右側凹部(図示せず)に臨むと共に、該第2モータ120の出力軸を第2ベース部材87に穿設した通孔を通して第2装置本体部96内に突出している。
(About the second drive unit)
23, 24, 25, and 29, the second driving unit 90 connects the second motor (driving means, first driving means) 120, the second motor 120, and the operating member 105. The second transmission unit 95 converts the rotation of the second motor 120 into the operation of the operation member 105. In the embodiment, a stepping motor that is driven or stopped under the control of the control device is used as the second motor 120. The second motor 120 is attached to the rear surface of the upper end portion of the second base member 87 (see FIG. 31), faces the right-side recess (not shown) formed in the right facing surface portion 35d of the back member 32, and the second motor 120 2 The output shaft of the motor 120 protrudes into the second device main body 96 through a through hole formed in the second base member 87.

前記第2伝達部95は、第2モータ120の出力軸に固定された駆動歯車121と、該駆動歯車121に噛合する複数の従動歯車122と、最終段の従動歯車122に噛合するピニオン123と、前記作動部材105の縦部105bにネジ止めされ、ピニオン123に噛合するラック部材106とから構成され、ピニオン123の正逆回転を作動部材105の直線運動に変換する所謂ラックアンドピニオン構造になっている(図33,図34,図35,図37,図38参照)。駆動歯車121、複数の従動歯車122およびピニオン123は、第2装置本体部96の内部に配設されると共に、ラック部材106は、第2装置本体部96の内部における右端部(表示部13aから離間する端部)で上下方向に移動可能に配設される。なお、ラック部材106は、前述したように第2連繋機構91を構成する部材を兼用している。   The second transmission unit 95 includes a drive gear 121 fixed to the output shaft of the second motor 120, a plurality of driven gears 122 that mesh with the drive gear 121, and a pinion 123 that meshes with the last-stage driven gear 122. The rack member 106 is screwed to the vertical portion 105b of the operating member 105 and meshes with the pinion 123, and has a so-called rack and pinion structure that converts the forward / reverse rotation of the pinion 123 into the linear motion of the operating member 105. (See FIGS. 33, 34, 35, 37, and 38). The drive gear 121, the plurality of driven gears 122, and the pinion 123 are disposed inside the second device main body 96, and the rack member 106 is positioned at the right end (from the display unit 13a) inside the second device main body 96. It is arranged so as to be movable in the vertical direction at the end portion that is separated. Note that the rack member 106 also serves as a member constituting the second linkage mechanism 91 as described above.

前記ラック部材106の前面上端部に、図29に示す如く、上下方向に延在する前突部106aが突設されると共に、該ラック部材106の後面上端部に、上下方向に延在する後突部106bが突設されている。第2装置本体部96に収容されるラック部材106は、図31に示す如く、第2カバー部材94に前後に貫通して上下方向に延在するよう形成された前長孔94eに前突部106aが摺動可能に挿通されると共に、第2ベース部材87に前後に貫通して上下方向に延在するよう形成された後長孔87aに後突部106bが摺動可能に挿通されており、該ラック部材106は、前後両長孔94e,87aに沿って上下方向に直線的に往復動し得るよう構成される。そして、前記作動部材105の縦部105bが、前突部106aにネジ止めされることで、作動部材105はラック部材106と一体で上下方向に往復動するようになっている。   As shown in FIG. 29, a front protrusion 106a extending in the vertical direction protrudes from the upper front end portion of the rack member 106, and the rear upper end portion of the rack member 106 extends in the vertical direction. A protrusion 106b is provided to protrude. As shown in FIG. 31, the rack member 106 accommodated in the second device main body 96 has a front protrusion in a front elongated hole 94e formed so as to penetrate the second cover member 94 in the front-rear direction and extend in the vertical direction. 106 a is slidably inserted, and a rear protrusion 106 b is slidably inserted into a rear elongated hole 87 a formed so as to penetrate the second base member 87 in the front-rear direction and extend in the vertical direction. The rack member 106 is configured to reciprocate linearly in the vertical direction along the front and rear elongated holes 94e and 87a. The vertical member 105b of the operating member 105 is screwed to the front projecting portion 106a, so that the operating member 105 reciprocates in the vertical direction integrally with the rack member 106.

前記第2可動演出装置38は、前記第2ベース部材87の上端部に設置されて斜動第2可動体88の位置を判定するフォトセンサ等からなる第2検知手段134を備え(図34または図37参照)、第2検知手段134は、制御装置に電気的に接続されて検知信号が制御装置に入力されるようになっている。第2検知手段134は、該第2検知手段134における対向する検知部間を通過するように配置されたラック部材106の第2検知片135の有無によって、斜動第2可動体88(作動部材105)の位置を判定するよう構成される。第2検知片135は、ラック部材106の後突部106bに、第2ベース部材87の後側でネジ止めされ、斜動第2可動体88の待機位置において第2検知片135が第2検知手段134の検知部間に位置するよう設定され、第2検知手段134による第2検知片135の検知によって待機位置にある斜動第2可動体88を確認し得るよう構成される。   The second movable effect device 38 includes second detection means 134 that is installed at the upper end portion of the second base member 87 and includes a photosensor that determines the position of the tilting second movable body 88 (FIG. 34 or FIG. The second detection means 134 is electrically connected to the control device so that a detection signal is input to the control device. The second detection means 134 is a tilting second movable body 88 (operating member) depending on the presence or absence of the second detection piece 135 of the rack member 106 disposed so as to pass between the opposing detection portions in the second detection means 134. 105) is determined. The second detection piece 135 is screwed to the rear protrusion 106 b of the rack member 106 on the rear side of the second base member 87, and the second detection piece 135 performs the second detection at the standby position of the tilting second movable body 88. The second movable body 88 is set so as to be positioned between the detection portions of the means 134 and the second movable body 88 in the standby position can be confirmed by the detection of the second detection piece 135 by the second detection means 134.

(直動第2可動体について)
前記直動第2可動体89は、図23,図24,図28に示す如く、最前面に位置する直動用装飾カバー体136と、該直動用装飾カバー体136の裏側に配設された光透過性を有していない合成樹脂素材から形成された直動用反射板137と、該直動用反射板137の裏側に配設された直動用第2発光基板138とから基本的に構成される。直動用装飾カバー体136には、パチンコ機のモチーフに合わせた文字等の直動用第2図柄89aが形成される。実施例では、直動用装飾カバー体136を光透過性を有する合成樹脂素材で形成したもとで、直動用第2図柄89aを除く部分の表面にメッキ塗装等を施すことで、直動用第2図柄89aの部分のみが光透過性を有するよう構成してある。直動用第2発光基板138の前面には、発光体としての複数のLED138aが、直動用第2図柄89aに対応して配設されると共に、直動用反射板137には各LED138aと対応して前後方向に貫通する通孔137aが穿設される。そして、直動用反射板137の裏面に直動用第2発光基板138をネジ止めした状態で、各通孔137aに対応するLED138aが臨んで、該LED138aの発光により直動用第2図柄89aが明輝されるよう構成される。また、実施例の直動用第2図柄89aは、前記斜動第2可動体88に形成された斜動用第2図柄88aおよび前記第1可動体43に形成された第1図柄43aとによって意味のある一連の図柄を形成すると共に、更に第3可動体154に形成された第3図柄154aを合わせて意味のある一連の図柄を形成するよう構成される。なお、直動用装飾カバー体136と直動用反射板137との間には、直動用第2図柄89aと対応する位置に、LED138aからの光を拡散する直動用光拡散シート139が介挿されている。
(Regarding the second movable body that moves directly)
As shown in FIGS. 23, 24, and 28, the linearly movable second movable body 89 includes a linear motion decorative cover body 136 positioned at the forefront and a light disposed on the back side of the linear motion decorative cover body 136. It is basically composed of a linear motion reflecting plate 137 formed of a synthetic resin material that does not have transparency, and a linear motion second light emitting substrate 138 disposed on the back side of the linear motion reflecting plate 137. The linear motion decorative cover body 136 is formed with a second linear motion pattern 89a for characters or the like that matches the motif of the pachinko machine. In the embodiment, the linear motion decorative cover body 136 is formed of a light-transmitting synthetic resin material, and the surface of the portion excluding the second linear motion pattern 89a is subjected to plating, etc. Only the portion of the pattern 89a is configured to have light transmittance. A plurality of LEDs 138a as light emitters are disposed on the front surface of the second linear light emitting substrate 138 corresponding to the second linear pattern 89a for linear motion, and the reflective plate 137 for direct motion corresponds to each LED 138a. A through hole 137a penetrating in the front-rear direction is formed. Then, the LED 138a corresponding to each through-hole 137a faces in a state where the second light emitting substrate 138 for linear movement is screwed to the back surface of the reflecting plate 137 for linear motion, and the second pattern 89a for linear motion is brightened by the light emission of the LED 138a. Configured to be In addition, the second design 89a for linear motion of the embodiment is meaningful by the second design 88a for tilting formed on the tilting second movable body 88 and the first design 43a formed on the first movable body 43. A series of symbols is formed, and a third series of symbols 154a formed on the third movable body 154 is combined to form a meaningful series of symbols. A linear motion light diffusion sheet 139 that diffuses light from the LED 138a is interposed between the linear motion decorative cover body 136 and the linear motion reflector 137 at a position corresponding to the second linear motion pattern 89a. Yes.

ここで、実施例では前記第1可動体43および2つの第2可動体88,89は、図6に示す如く、前記図柄表示装置13の表示部13aの前側である作動位置において、左側から右側へ第1可動体43、斜動第2可動体88および直動第2可動体89の順で直線状に並び、この状態で第1図柄43a、斜動用第2図柄88aおよび直動用第2図柄89aにより一連の意味のある図柄が形成されるよう構成される。また、図5に示すように、待機位置において第1可動体43が表示部13aの上辺に沿って位置すると共に、待機位置において表示部13aの右辺に沿って上側から下側へ斜動第2可動体88および直動第2可動体89の順で並んでいる状態で、第1図柄43a、斜動用第2図柄88aおよび直動用第2図柄89aにより、作動位置で直線状に並んだときと共通する一連の意味のある図柄が形成されるようになっている。   Here, in the embodiment, as shown in FIG. 6, the first movable body 43 and the two second movable bodies 88 and 89 are arranged from the left side to the right side in the operating position which is the front side of the display unit 13a of the symbol display device 13. The first movable body 43, the tilted second movable body 88, and the linearly movable second movable body 89 are arranged in a straight line in this order. In this state, the first symbol 43a, the second symbol for tilting 88a, and the second symbol for linear motion are arranged. A series of meaningful symbols is formed by 89a. Further, as shown in FIG. 5, the first movable body 43 is positioned along the upper side of the display unit 13 a at the standby position, and is tilted from the upper side to the lower side along the right side of the display unit 13 a at the standby position. When the movable body 88 and the linearly movable second movable body 89 are arranged in this order, the first pattern 43a, the second pattern 88a for tilting and the second pattern 89a for linear motion are arranged in a straight line at the operating position. A common series of meaningful symbols is formed.

前記直動用反射板137には、図23に示す如く、直動用第2発光基板138から右方に延出する取付部137bが設けられ、該取付部137bが、前記第3連繋機構93に連繋されている。なお、取付部137bの左端部側には前後方向に貫通する貫通口137cが形成され、直動用第2発光基板138の前面に設けられたソケット138bが貫通口137cに臨むよう構成される。そして、ソケット138bに接続された配線は、直動用装飾カバー体136の右端部に、取付部137bとの間に設けた隙間を介して右方に引き出される。なお、直動用装飾カバー体136の左端部(取付部137bが設けられる側とは反対側の端部)に、後方に突出する規制突部140aを備える規制体140が配設される(図28参照)。規制突部140aは、第2カバー部材94の前面に配設した装飾部品141の前面に摺動当接可能に構成され、直動第2可動体89が上下動する際に第3連繋機構93との連繋部から離間する左端部が後方に変位するのを抑制するベく機能する。   As shown in FIG. 23, the direct acting reflector 137 is provided with an attaching portion 137 b extending rightward from the second light emitting substrate 138 for direct acting, and the attaching portion 137 b is connected to the third connecting mechanism 93. Has been. A through-hole 137c penetrating in the front-rear direction is formed on the left end side of the mounting portion 137b, and a socket 138b provided on the front surface of the second light emitting substrate for linear movement 138 is configured to face the through-hole 137c. Then, the wiring connected to the socket 138b is pulled out to the right side through a gap provided between the right end portion of the linear motion decorative cover body 136 and the mounting portion 137b. Note that a regulating body 140 including a regulating projection 140a projecting rearward is disposed at the left end of the linear motion decorative cover body 136 (the end opposite to the side where the mounting portion 137b is provided) (FIG. 28). reference). The restricting protrusion 140a is configured to be able to slide and abut on the front surface of the decorative component 141 disposed on the front surface of the second cover member 94, and the third linkage mechanism 93 when the linearly movable second movable body 89 moves up and down. It functions to suppress the left end portion, which is separated from the connecting portion, from being displaced rearward.

前記装飾部品141は、図23,図30に示す如く、実施例では第2カバー部材94の前面の3箇所に配設され、最下部の装飾部品141に前記規制突部140aが摺動当接可能になっている。そして、該最下部の装飾部品141には、前記弧状ガイド孔94a,94aの夫々に対応して逃部141aが形成されて、該弧状ガイド孔94a,94aで案内される前記ローラ部材113,114との干渉を防止している。   As shown in FIGS. 23 and 30, the decorative part 141 is disposed at three positions on the front surface of the second cover member 94 in the embodiment, and the regulating protrusion 140 a is in sliding contact with the lowermost decorative part 141. It is possible. The lowermost decorative part 141 is formed with relief portions 141a corresponding to the arc-shaped guide holes 94a and 94a, respectively, and the roller members 113 and 114 guided by the arc-shaped guide holes 94a and 94a. To prevent interference.

(第3駆動部について)
前記第3駆動部92は、図23,図24,図26に示す如く、ソレノイド(第2駆動手段)142と、このソレノイド142により作動される第3伝達部143とから構成される。前記第2カバー部材94の前面下端部にソレノイド用設置凹部94fが形成され(図25,図31参照)、該ソレノイド用設置凹部94fにソノレイド142がプランジャ142aを上向きとした姿勢で設置される。また第2カバー部材94には、ソレノイド用設置凹部94fの上側に、第3伝達部設置部144が設けられ、該第3伝達部設置部144に第3伝達部143が設置される(図32,図36参照)。第3伝達部143は、プランジャ142aに連結された第1作動体145と、第3伝達部設置部144に長手方向の中間が回転可能に枢支されると共に長手方向の一端が第1作動体145に回転可能に枢支されたシーソー部材146と、該シーソー部材146の長手方向の他端が回転可能に枢支された第2作動体147とを備える。第1作動体145および第2作動体147は、図32および図36に示す如く、左右方向に離間して第3伝達部設置部144に上下動可能に配設され、両作動体145,147の間の第3伝達部設置部144に設けた軸にシーソー部材146の長手方向の中間が回転可能に軸支されている。そして、シーソー部材146における軸支部を挟んで右方に延在する端部が第1作動体145に軸を介して回転可能に軸支されると共に、軸支部を挟んで左方に延在する端部が第2作動体147に軸を介して回転可能に軸支されている。すなわち、ソレノイド142の励磁・消磁によって、第1作動体145が上下動するのに伴って、シーソー部材146を介して第2作動体147が逆向きに上下動するよう構成される。なお、ソレノイド142および第3伝達部143は、第2カバー部材94の前面にネジ止めされる第1カバー部品97によって第3伝達部設置部144に対して脱落不能に位置決めされる。
(About the third drive unit)
As shown in FIGS. 23, 24, and 26, the third driving unit 92 includes a solenoid (second driving means) 142 and a third transmission unit 143 operated by the solenoid 142. A solenoid installation recess 94f is formed in the lower end portion of the front surface of the second cover member 94 (see FIGS. 25 and 31), and the sonolide 142 is installed in the solenoid installation recess 94f with the plunger 142a facing upward. The second cover member 94 is provided with a third transmission portion installation portion 144 above the solenoid installation recess 94f, and the third transmission portion 143 is installed in the third transmission portion installation portion 144 (FIG. 32). , See FIG. 36). The third transmission unit 143 includes a first operating body 145 connected to the plunger 142a and a third transmission unit installation unit 144 pivotally supported in the middle in the longitudinal direction, and one end in the longitudinal direction is a first operating body. A seesaw member 146 that is pivotally supported by 145 and a second operating body 147 that is pivotally supported at the other end in the longitudinal direction of the seesaw member 146. As shown in FIGS. 32 and 36, the first operating body 145 and the second operating body 147 are spaced apart from each other in the left-right direction and are disposed on the third transmission portion installation portion 144 so as to be movable up and down. An intermediate portion in the longitudinal direction of the seesaw member 146 is rotatably supported on a shaft provided in the third transmission portion installation portion 144 between the two. An end portion of the seesaw member 146 that extends to the right with the shaft support portion interposed therebetween is rotatably supported by the first operating body 145 via the shaft and extends to the left with the shaft support portion interposed therebetween. The end is pivotally supported by the second operating body 147 via a shaft so as to be rotatable. That is, as the first operating body 145 moves up and down due to excitation and demagnetization of the solenoid 142, the second operating body 147 moves up and down in the reverse direction via the seesaw member 146. The solenoid 142 and the third transmission part 143 are positioned so as not to fall off with respect to the third transmission part installation part 144 by the first cover part 97 screwed to the front surface of the second cover member 94.

前記第3伝達部設置部144における第2作動体147を上下動可能に支持する設置部は、図25に示す如く、左右に離間する一対の規制壁144a,144aと、各規制壁144aの上端から他方の規制壁144aに向けて延在する上壁144bとを備える。第2作動体147は、正面視において凸状に形成されて、図32,図36および図39に示す如く、両規制壁144a,144aで案内されつつ上下動すると共に、上動時に上側の突出部分が上壁144b,144b間の隙間から上方に突出することで、第3連繋機構93の後述する第2部材150を押上げ得るよう構成される。   As shown in FIG. 25, the installation portion for supporting the second operating body 147 in the third transmission portion installation portion 144 so as to move up and down is a pair of restriction walls 144a and 144a that are separated from each other left and right, and the upper ends of the restriction walls 144a. And an upper wall 144b extending toward the other restriction wall 144a. The second actuating body 147 is formed in a convex shape in a front view, and as shown in FIGS. 32, 36 and 39, it moves up and down while being guided by both regulating walls 144a and 144a, and protrudes upward when moving up. Since the portion protrudes upward from the gap between the upper walls 144b and 144b, the second member 150 (described later) of the third linkage mechanism 93 can be pushed up.

(第3連繋機構について)
前記第3連繋機構93は、図23,図24,図26に示す如く、前記第2カバー部材94の前面に回転可能に配設した作動ピニオン(連繋体)148と、該作動ピニオン148の右側に位置して前記第2連繋機構91のラック部材106と接離可能な第1部材149および作動ピニオン148の左側に位置して前記直動第2可動体89に配設されると共に前記第3伝達部143の第2作動体147と接離可能な第2部材150とを備える。第1部材149は、作動ピニオン148側の側縁にラック歯149aが形成されて、該ラック歯149aが作動ピニオン148に噛合し、また第2部材150は、作動ピニオン148側の側縁にラック歯150aが形成されて、該ラック歯150aが作動ピニオン148に噛合しており、作動ピニオン148の正転および逆転によって、第1部材149と第2部材150とは相互に反対方向に上下動するよう構成される。なお、第2カバー部材94の前面には、第3連繋機構93を覆うと共に、第3連繋機構93の位置決めおよび案内機能を有する第2カバー部品98がネジ止めされている。
(About the third linkage mechanism)
As shown in FIGS. 23, 24, and 26, the third linkage mechanism 93 includes an operation pinion (linkage body) 148 rotatably disposed on the front surface of the second cover member 94, and a right side of the operation pinion 148. Located on the left side of the first member 149 and the actuating pinion 148 that can be brought into and out of contact with the rack member 106 of the second linkage mechanism 91 and disposed on the linearly movable second movable body 89 and the third member The second actuating body 147 of the transmission unit 143 and the second member 150 that can contact and separate are provided. The first member 149 has rack teeth 149a formed on the side edge on the operating pinion 148 side, the rack teeth 149a mesh with the operating pinion 148, and the second member 150 is racked on the side edge on the operating pinion 148 side. The teeth 150a are formed, the rack teeth 150a mesh with the operating pinion 148, and the first member 149 and the second member 150 move up and down in opposite directions by the normal rotation and reverse rotation of the operating pinion 148. It is configured as follows. The second cover member 94 is screwed to the front surface of the second cover member 94 to cover the third linkage mechanism 93 and to have a positioning and guiding function for the third linkage mechanism 93.

前記作動ピニオン148は、第2カバー部材94と第2カバー部品98との間に配設した軸に回転可能に軸支される。第2カバー部材94における作動ピニオン148の配設位置より右側には、前後方向に貫通して上下方向に延在する案内用スリット94gが形成されると共に(図25参照)、第2カバー部品98における案内用スリット94gの前側に対向する位置には、前側に凹む案内溝98a(図26参照)が、案内用スリット94gと略同じ長さで上下方向に平行に延在して形成されている。前記第1部材149の裏面には、後方に突出するガイド板149bが上下方向の全長に亘って形成されると共に、該第1部材149の前面には、上下方向に離間して一対のガイド突起149c,149cが前方に向けて突設される。そして、第1部材149は、ガイド板149bを案内用スリット94gに摺動可能に挿通すると共に、ガイド突起149c,149cを案内溝98aに摺動可能に挿入することで、該第1部材149は案内用スリット94gおよび案内溝98aに沿って上下方向に直線的に移動し得るよう支持される(図31参照)。また、ガイド板149bは、案内用スリット94gから第2装置本体部96内に突出し、該突出部分の上端が、前記第2連繋機構91におけるラック部材106の下側に対向するよう位置し、ラック部材106の下端がガイド板149bの上端に当接可能に構成される(図35,図38参照)。   The operation pinion 148 is rotatably supported on a shaft disposed between the second cover member 94 and the second cover component 98. A guide slit 94g penetrating in the front-rear direction and extending in the up-down direction is formed on the right side of the second cover member 94 from the position where the operation pinion 148 is disposed (see FIG. 25), and the second cover part 98 In the position facing the front side of the guide slit 94g, a guide groove 98a (see FIG. 26) recessed in the front side is formed to extend in the vertical direction substantially in the same length as the guide slit 94g. . A guide plate 149b protruding rearward is formed on the back surface of the first member 149 over the entire length in the vertical direction, and a pair of guide protrusions are spaced apart in the vertical direction on the front surface of the first member 149. 149c and 149c are projected forward. The first member 149 is slidably inserted into the guide slit 94g through the guide plate 149b, and the guide protrusions 149c and 149c are slidably inserted into the guide groove 98a. It is supported so as to move linearly in the vertical direction along the guide slit 94g and the guide groove 98a (see FIG. 31). The guide plate 149b protrudes from the guide slit 94g into the second device main body 96, and the upper end of the protruding portion is positioned so as to face the lower side of the rack member 106 in the second linkage mechanism 91. The lower end of the member 106 is configured to be able to contact the upper end of the guide plate 149b (see FIGS. 35 and 38).

前記第2カバー部品98における作動ピニオン148の配設位置より左側には、図26に示す如く、前後方向に貫通して上下方向に延在する案内孔98bが、前記案内溝98aと平行に形成される。これに対して前記第2部材150の前面には、上下方向に離間して一対の取着用突起150b,150bが前方に向けて突設されており、該取着用突起150b,150bを案内孔98bに摺動可能に挿入することで、該第2部材150は案内孔98bに沿って上下方向に直線的に移動し得るよう支持される。また、各取着用突起150bには前側に開口するネジ孔が形成されており、該取着用突起150bにおける第2カバー部品98の前側に突出する前端に、前記直動第2可動体89の取付部137bをネジ止めすることで、直動第2可動体89が第2部材150と一体で移動するよう構成される。   As shown in FIG. 26, a guide hole 98b penetrating in the front-rear direction and extending in the up-down direction is formed in parallel with the guide groove 98a on the left side of the second cover part 98 from the position where the operation pinion 148 is disposed. Is done. On the other hand, a pair of mounting projections 150b and 150b are provided on the front surface of the second member 150 so as to be separated from each other in the vertical direction and project forward. The mounting projections 150b and 150b are guided through the guide hole 98b. The second member 150 is supported so that it can move linearly in the vertical direction along the guide hole 98b. Each mounting projection 150b is formed with a screw hole that opens to the front side, and the front end of the mounting projection 150b protruding to the front side of the second cover part 98 is attached to the linearly movable second movable body 89. By screwing the portion 137b, the linearly movable second movable body 89 is configured to move integrally with the second member 150.

なお、前記第2部材150の前面には、両取着用突起150b,150bの間に、該取着用突起150b,150bより突出寸法が小さく、かつ案内孔98bを介して第2カバー部品98の前面に突出する規制リブ150cが形成されている。また案内孔98bから前側に突出する取着用突起150b,150bには、上下端部に通孔を形成した板体151が、通孔に取着用突起150b,150bを挿通すると共に規制リブ150cの前端に後面を当接した状態で取付けられ、該板体151を挟んで前記直動第2可動体89の取付部137bが取着用突起150b,150bにネジ止めされている。すなわち、板体151を規制リブ150cの前端に当接することで、板体151と第2カバー部品98との間には隙間が生じ、第2部材150と直動第2可動体89の取付部137bとで第2カバー部品98を挟持してしまうのを防いで、直動第2可動体89(第2部材150)のスムーズな移動が確保されるようになっている。   Note that the front surface of the second member 150 has a projecting dimension smaller than the mounting projections 150b and 150b between the mounting projections 150b and 150b, and the front surface of the second cover component 98 through the guide hole 98b. A regulating rib 150c is formed so as to protrude from the surface. The mounting protrusions 150b and 150b projecting forward from the guide hole 98b are provided with plate bodies 151 having through holes formed in the upper and lower ends thereof, and the mounting protrusions 150b and 150b are inserted into the through holes and the front ends of the regulation ribs 150c The mounting portion 137b of the linearly movable second movable body 89 is screwed to the mounting projections 150b and 150b with the plate body 151 interposed therebetween. That is, the plate 151 is brought into contact with the front end of the regulating rib 150 c, so that a gap is generated between the plate 151 and the second cover part 98, and the mounting portion between the second member 150 and the linearly movable second movable body 89 is formed. The second cover part 98 is prevented from being sandwiched between the first cover member 137b and the smooth movement of the linearly movable second movable body 89 (second member 150) is ensured.

前記第2カバー部材94の前面には、図25に示す如く、前記案内用スリット94gの下端に対応してストッパ94hが設けられ、該ストッパ94hに、前記第1部材149の下端が当接することで該第1部材149の下降を規制するよう構成される。また前記第2カバー部材94の後面には、前記ソレノイド用設置凹部94fを凹設することで後方に突出する段部が形成され、該段部に下端が係止された復帰手段としての圧縮コイルバネ152の上端部(第1部材149におけるガイド板149bの端部と対向する端部)に、押し部品153が取付けられている。そして、押し部品153は、圧縮コイルバネ152の弾力によって常に第1部材149におけるガイド板149bの下端に当接する方向へ付勢されている。すなわち、第1部材149は、常に圧縮コイルバネ152の弾力によって上方位置に向けて付勢されると共に、作動ピニオン148に噛合している第2部材150は下方位置に向けて付勢される。従って、第1部材149および第2部材150に圧縮コイルバネ152以外の外力が加わっていない状態で、第2部材150は、下端が前記第2作動体147の設置部を構成する上壁144b,144bに当接する原位置に位置(図32参照)し、このとき該第2部材150に配設されている直動第2可動体89が前記待機位置に保持されるよう構成される。   As shown in FIG. 25, the front surface of the second cover member 94 is provided with a stopper 94h corresponding to the lower end of the guide slit 94g, and the lower end of the first member 149 contacts the stopper 94h. Thus, the lowering of the first member 149 is restricted. The rear surface of the second cover member 94 is formed with a stepped portion protruding rearward by forming the solenoid installation concave portion 94f, and a compression coil spring serving as a return means whose lower end is locked to the stepped portion. A push component 153 is attached to the upper end of 152 (the end of the first member 149 facing the end of the guide plate 149b). The pushing component 153 is always urged by the elasticity of the compression coil spring 152 so as to abut on the lower end of the guide plate 149b in the first member 149. That is, the first member 149 is always urged toward the upper position by the elasticity of the compression coil spring 152, and the second member 150 meshing with the operating pinion 148 is urged toward the lower position. Accordingly, in the state where the external force other than the compression coil spring 152 is not applied to the first member 149 and the second member 150, the lower end of the second member 150 has the upper walls 144b and 144b that constitute the installation portion of the second operating body 147. The linearly movable second movable body 89 disposed on the second member 150 is held at the standby position at this position (see FIG. 32).

前記第2連繋機構91が第1位置(斜動第2可動体88が待機位置)に位置し、第3連繋機構93が原位置に位置する状態で、図33に示す如く、第2連繋機構91のラック部材106と第3連繋機構93の第1部材149とは上下方向に離間している。そして、第2連繋機構91が第1位置から第2位置に移動する途中の接触位置で、図34に示す如く、ラック部材106が第1部材149に接触し、この接触状態で第2連繋機構91が第2位置に向けて移動することで、第1部材149がラック部材106で押されて下方に移動し、これによって前記作動ピニオン148を介して第2部材150が上方へ移動するよう構成される(図37参照)。第2連繋機構91が第2位置に到来することで、図37に示す如く、第2部材150が最上方の可動位置に至り、このときに直動第2可動体89が作動位置に到来するようになっている。また、第2連繋機構91が第2位置から接触位置まで移動する間は、前記圧縮コイルバネ152の弾力によって第1部材149はラック部材106に当接するように付勢され、よってラック部材106と第1部材149とが一体で上方に移動することで、作動ピニオン148を介して第2部材150が下方に移動するようになっている。すなわち、ラック部材106が接触位置と第2位置との間を移動する間は、該ラック部材106と第1部材149との接触状態が維持され、第2連繋機構91の移動に伴って第3連繋機構93が原位置と可動位置との間を一体的に移動する。   As shown in FIG. 33, the second linkage mechanism 91 is located in the first position (the tilted second movable body 88 is in the standby position) and the third linkage mechanism 93 is in the original position. The rack member 106 of 91 and the first member 149 of the third linkage mechanism 93 are spaced apart in the vertical direction. Then, as shown in FIG. 34, the rack member 106 contacts the first member 149 at the contact position where the second linkage mechanism 91 moves from the first position to the second position, and the second linkage mechanism is in this contact state. As 91 moves toward the second position, the first member 149 is pushed by the rack member 106 and moves downward, whereby the second member 150 moves upward via the operating pinion 148. (See FIG. 37). When the second linkage mechanism 91 arrives at the second position, as shown in FIG. 37, the second member 150 reaches the uppermost movable position, and at this time, the linear second movable body 89 arrives at the operating position. It is like that. Further, while the second linkage mechanism 91 moves from the second position to the contact position, the first member 149 is urged to contact the rack member 106 by the elasticity of the compression coil spring 152, and thus the rack member 106 and the When the first member 149 is integrally moved upward, the second member 150 is moved downward via the operation pinion 148. That is, while the rack member 106 moves between the contact position and the second position, the contact state between the rack member 106 and the first member 149 is maintained, and the third connection mechanism 91 moves along with the third connection mechanism 91. The linkage mechanism 93 moves integrally between the original position and the movable position.

前記第2連繋機構91により待機位置と作動位置との間を往復動する斜動第2可動体88の軌道は、前記第3連繋機構93により待機位置と作動位置との間を往復動する直動第2可動体89の軌道と一部が重なるように設定されている。すなわち、実施例では待機位置において斜動第2可動体88の下方に離間して位置する直動第2可動体89は、待機位置および作動位置の間の干渉位置と作動位置との間を移動する領域において、待機位置および作動位置の間の干渉位置と待機位置との間を移動する斜動第2可動体88と接触干渉する関係に設定されている。但し、実施例では第2連繋機構91のラック部材106が、第3連繋機構93の第1部材149と接触する接触位置まで移動する間に、該第2連繋機構91によって斜動第2可動体88が干渉位置より作動位置側に移動し、ラック部材106が第1部材149と接触した状態で第2連繋機構91と連動する第3連繋機構93により移動する直動第2可動体89が斜動第2可動体88と接触しないよう構成される。すなわち、斜動第2可動体88は、第2連繋機構91が接触位置と第2位置との間で移動する際には、直動第2可動体89の軌道から外れた位置を移動するようになっている。   The trajectory of the tilting second movable body 88 that reciprocates between the standby position and the operating position by the second linkage mechanism 91 is a straight line that reciprocates between the standby position and the operating position by the third linkage mechanism 93. The trajectory of the second movable body 89 is set so as to partially overlap. In other words, in the embodiment, the linearly movable second movable body 89 that is positioned below the tilting second movable body 88 in the standby position moves between the interference position and the operating position between the standby position and the operating position. In the region to be contacted, the relationship is set such that the second movable body 88 that contacts between the interference position between the standby position and the operation position and the standby position moves in contact with each other. However, in the embodiment, while the rack member 106 of the second linkage mechanism 91 moves to the contact position where the rack member 106 contacts the first member 149 of the third linkage mechanism 93, the second linkage mechanism 91 tilts the second movable body. 88 is moved from the interference position to the operating position side, and the linearly movable second movable body 89 moved by the third linkage mechanism 93 interlocked with the second linkage mechanism 91 in a state where the rack member 106 is in contact with the first member 149 is inclined. The movable second movable body 88 is configured not to contact. That is, when the second linkage mechanism 91 moves between the contact position and the second position, the tilting second movable body 88 moves so as to move away from the trajectory of the linear second movable body 89. It has become.

ここで、前記第3駆動部92(ソレノイド142)による第3連繋機構93の移動範囲は、第3駆動部92の第2作動体147が第3連繋機構93の第2部材150と接触した状態で上下動した際に、前記作動ピニオン148を介して第2部材150とは逆方向に上下動する第1部材149が、待機位置の第2連繋機構91のラック部材106と接触しないように設定される。また、第3駆動部92を作動したときの直動第2可動体89の移動範囲は、前記干渉位置より待機位置側に設定され、ソレノイド142の駆動時に直動第2可動体89と斜動第2可動体88とが接触しないよう構成される(図39参照)。   Here, the movement range of the third linkage mechanism 93 by the third drive unit 92 (solenoid 142) is such that the second operating body 147 of the third drive unit 92 is in contact with the second member 150 of the third linkage mechanism 93. Is set so that the first member 149 that moves up and down in the opposite direction to the second member 150 via the operating pinion 148 does not come into contact with the rack member 106 of the second linkage mechanism 91 in the standby position. Is done. Further, the movement range of the linearly movable second movable body 89 when the third drive unit 92 is operated is set to the standby position side from the interference position, and is tilted with the linearly movable second movable body 89 when the solenoid 142 is driven. It is comprised so that the 2nd movable body 88 may not contact (refer FIG. 39).

(第3可動演出装置について)
前記裏部材32の下対向面部35bには、図5に示す如く、第3可動体154を備えた第3可動演出装置39が配設されている。第3可動演出装置39は、第3可動体154を、前記表示部13aの下辺(第1の辺と平行な辺)の外側の待機位置(図5)と、表示部13aの前側に臨んで作動位置に至って左右方向に直線状に並んだ前記第1可動体43および第2可動体88,89の下側に並ぶ作動位置(図6)との間を、表示部13aの前面と平行な姿勢を保持して上下方向に往復動するよう構成される。また第3可動体154には、第1可動体43や第2可動体88,89と同様に、パチンコ機のモチーフに合わせた文字や図形等の第3図柄154aが形成されており、該第3図柄154aは、第3可動演出装置39に内蔵の第3発光基板(図示せず)のLEDを発光することで明輝し得るよう構成される。更に、第3図柄154aは、表示部13aの前側で直線状に並んだ第1可動体43の第1図柄43aおよび第2可動体88,89の第2図柄88a,89aの図柄列の下側に並んで、一連の図柄を形成し得るよう構成されている。
(About the third movable effect device)
As shown in FIG. 5, a third movable effect device 39 including a third movable body 154 is disposed on the lower facing surface portion 35 b of the back member 32. The third movable effect device 39 faces the third movable body 154 at the standby position (FIG. 5) outside the lower side (side parallel to the first side) of the display unit 13a and the front side of the display unit 13a. A space between the first movable body 43 and the second movable bodies 88 and 89 arranged under the first movable body 43 and the second movable bodies 88 and 89 arranged in a straight line in the left-right direction up to the operation position is parallel to the front surface of the display unit 13a. It is configured to reciprocate up and down while maintaining the posture. The third movable body 154 is provided with a third pattern 154a such as characters and figures that match the motif of the pachinko machine, as in the first movable body 43 and the second movable bodies 88 and 89. The three symbols 154a are configured to be bright by emitting light from an LED of a third light emitting substrate (not shown) built in the third movable effect device 39. Further, the third symbol 154a is a lower side of the symbol row of the first symbol 43a of the first movable body 43 and the second symbols 88a and 89a of the second movable members 88 and 89 arranged in a straight line on the front side of the display portion 13a. A series of symbols can be formed side by side.

〔実施例の作用〕
次に、前述した実施例に係るパチンコ機の作用につき説明する。
(Effects of Example)
Next, the operation of the pachinko machine according to the above-described embodiment will be described.

前記遊技領域18aに打ち出されたパチンコ球は、前記装飾部材28の外周囲を流下し、該パチンコ球が前記球導入部30に通入すると、該パチンコ球は前記ステージ29に通出され、該ステージ29を左右に転動した後に遊技領域18aに排出され、このパチンコ球は第1始動入賞装置23や普通入賞装置27等に入賞可能となる。そして、第1始動入賞装置23にパチンコ球が入賞すると、前記図柄表示装置13の図柄が変動開始され、所要の図柄組合わせゲームが展開される。図柄表示装置13で展開される図柄変動ゲームの結果、図柄表示装置13に所定の図柄組合わせで図柄が停止表示されたときに大当りが発生する。そして、大当りが発生すると、図柄表示装置13に表示された図柄組み合わせに応じて、前記遊技盤18の下方に設けられた特別入賞装置25の入賞口が開放され、多数の賞球の獲得が可能となる。   The pachinko balls launched into the game area 18a flow down around the outer periphery of the decorative member 28, and when the pachinko balls enter the ball introduction part 30, the pachinko balls are passed out to the stage 29, and After rolling the stage 29 left and right, it is discharged to the game area 18a, and this pachinko ball can be awarded to the first start winning device 23, the normal winning device 27, and the like. When a pachinko ball wins the first start winning device 23, the symbols on the symbol display device 13 start to fluctuate, and a required symbol combination game is developed. As a result of the symbol variation game developed on the symbol display device 13, a big hit occurs when symbols are stopped and displayed on the symbol display device 13 in a predetermined symbol combination. When a big hit occurs, according to the symbol combination displayed on the symbol display device 13, the winning opening of the special winning device 25 provided below the game board 18 is opened, and a large number of winning balls can be obtained. It becomes.

また、前記遊技領域18aを流下するパチンコ球が前記ゲート26を通過すると、前記制御装置は、ゲートセンサから入球検知信号が入力されたことを条件として、前記第2始動入賞装置24の開閉部材を開放するか否かの抽選を行なう。そして、抽選の結果、当りとなった場合は、第2始動入賞装置24の開閉部材が作動されて始動入賞口が開放され、該始動入賞口への入賞確率が高まる。また、第2始動入賞装置24の始動入賞口にパチンコ球が入賞した際には、第1始動入賞装置23にパチンコ球が入賞した場合と同様に、前記図柄表示装置13の図柄が変動開始され、所要の図柄組合わせゲームが展開された後、大当り、外れ等の何れかの結果が表示部13aに表示される。   When the pachinko ball flowing down the game area 18a passes through the gate 26, the control device opens and closes the opening / closing member of the second start winning device 24 on condition that a ball detection signal is input from the gate sensor. A lottery to determine whether or not to release. If the winning is determined as a result of the lottery, the opening / closing member of the second start winning device 24 is operated to open the start winning port, and the probability of winning the start winning port is increased. Further, when the pachinko ball wins the start winning opening of the second start winning device 24, the symbols of the symbol display device 13 start to fluctuate in the same manner as when the pachinko ball wins the first start winning device 23. After the required symbol combination game is developed, the result of either big hit or miss is displayed on the display unit 13a.

前記図柄表示装置13で展開される図柄変動ゲームの演出に応じて、前記可動演出装置37,38,39が作動制御されて、各可動体43,88,89,154が作動されて動的な演出により遊技の興趣が高められる。また、各可動体43,88,89,154に配設されている発光基板73,101,138のLED73a,101a,138aが、図柄変動ゲームの演出に応じて発光制御されて、各可動体43,88,89,154に形成されている図柄43a,88a,89a,154aが明輝する演出により遊技の興趣が向上される。   In accordance with the effect of the symbol variation game developed on the symbol display device 13, the movable effect devices 37, 38, 39 are controlled to operate, and the movable bodies 43, 88, 89, 154 are activated to be dynamic. The entertainment enhances the fun of the game. In addition, the LEDs 73a, 101a, and 138a of the light-emitting substrates 73, 101, and 138 disposed on the movable bodies 43, 88, 89, and 154 are controlled to emit light according to the effects of the symbol variation game, so that each movable body 43 is controlled. , 88, 89, 154, the entertainment of the game is improved by the effect that the symbols 43a, 88a, 89a, 154a are bright.

(第1可動演出装置の単独の作用について)
前記第1可動演出装置37は、第1モータ64の停止時(非通電時)に、該第1モータ64自体の機械的な保持トルクによって、前記可動部材41および第1可動体43の重量を第1伝達部46を介して支持して、可動部材41を待機位置で停止している(図5,図12,図20,図19参照)。また可動部材41の待機位置において、前記磁石49と金属片54との磁力吸着によっても可動部材41は補助的に待機位置に保持される。従って、第1可動演出装置37は、遊技盤18の振動やその他の予定しない力が可動部材41や第1可動体43に加わった際であっても、可動部材41および第1可動体43が待機位置から下降することを好適に防止できる。
(About the single action of the first movable effect device)
When the first motor 64 is stopped (non-energized), the first movable effect device 37 uses the mechanical holding torque of the first motor 64 itself to weight the movable member 41 and the first movable body 43. The movable member 41 is supported at the standby position by being supported via the first transmission portion 46 (see FIGS. 5, 12, 20, and 19). Further, at the standby position of the movable member 41, the movable member 41 is supplementarily held at the standby position by the magnetic force adsorption between the magnet 49 and the metal piece 54. Therefore, even when the vibration of the game board 18 and other unscheduled forces are applied to the movable member 41 and the first movable body 43, the first movable effect device 37 has the movable member 41 and the first movable body 43 connected to each other. Lowering from the standby position can be suitably prevented.

前記第1可動演出装置37は、通常状態において第1可動体43が待機位置にあり、前記図柄表示装置13の表示部13aで行なわれる図柄変動ゲームに連動して、または独立して、第1可動体43が待機位置と作動位置との間で往復動される。具体的には、第1可動演出装置37は、第1モータ64が駆動されて第1伝達部46を介して可動部材41が下方へ変位される。これにより、可動部材41は、前記転がり軸受51に支持されたもとで下降し、該可動部材41の下降に伴って第1連繋機構44によって第1可動体43が腕部53に沿って左方に移動する(図21,図22参照)。すなわち、図5に示すように表示部13aの上辺中央の待機位置に位置していた第1可動体43は、可動部材41の下降に伴って左方へ移動することで、表示部13aの前方を左斜め下方に向けて平行移動して該表示部13aの上下方向の中央において左辺側に偏倚した図6に示す作動位置に到来する。第1モータ64は、可動部材41および第1可動体43が作動位置に到来すると停止し、該可動部材41および第1可動体43は作動位置に保持される。   In the first movable effect device 37, the first movable body 43 is in the standby position in the normal state, and the first movable effect device 37 is linked with or independently of the symbol variation game performed on the display unit 13a of the symbol display device 13. The movable body 43 is reciprocated between the standby position and the operating position. Specifically, in the first movable effect device 37, the first motor 64 is driven and the movable member 41 is displaced downward via the first transmission unit 46. As a result, the movable member 41 is lowered while being supported by the rolling bearing 51, and the first movable body 43 is moved to the left along the arm portion 53 by the first linkage mechanism 44 as the movable member 41 is lowered. Move (see FIGS. 21 and 22). That is, as shown in FIG. 5, the first movable body 43 located at the standby position at the center of the upper side of the display unit 13a moves to the left as the movable member 41 descends, thereby moving the front of the display unit 13a. 6 is moved in a diagonally downward direction to the left and arrives at the operating position shown in FIG. The first motor 64 stops when the movable member 41 and the first movable body 43 arrive at the operating position, and the movable member 41 and the first movable body 43 are held at the operating position.

また、前記第1モータ64が逆転駆動されると、第1伝達部46を介して可動部材41が上方へ変位される。これにより、可動部材41は、前記転がり軸受51に支持されたもとで上昇し、該可動部材41の上昇に伴って第1連繋機構44によって第1可動体43が腕部53に沿って右方に移動する。すなわち、表示部13aの上下方向の中央において左辺側に偏倚した作動位置に位置していた第1可動体43は、可動部材41の上昇に伴って右方へ移動することで、表示部13aの前方を右斜め上方に向けて平行移動して該表示部13aの上辺中央の待機位置に戻る。そして、前記第1検知手段69が第1検知片70を検知してから所定のタイミングで第1モータ64を停止することで、第1可動体43が表示部13aの上側に退避した待機位置で停止保持される。前記第1装置本体部47に対して上下方向に移動する可動部材41は、前記可動基部52における右方に延在する腕部53が該第1装置本体部47の可動挿通口47aで前後が案内されると共に(図17参照)、可動基部52の左側に配設されたガイド部材52aが該第1装置本体部47の案内口47bで前後が案内される。すなわち、可動部材41は、可動基部52の左右両側で前後が夫々案内されることで、該可動部材41の前後方向のぶれは好適に抑制される。   When the first motor 64 is driven in reverse, the movable member 41 is displaced upward via the first transmission unit 46. As a result, the movable member 41 rises while being supported by the rolling bearing 51, and the first movable body 43 moves to the right along the arm portion 53 by the first linkage mechanism 44 as the movable member 41 rises. Moving. That is, the first movable body 43 located at the operation position biased to the left side at the center in the vertical direction of the display unit 13a moves to the right as the movable member 41 rises, so that the display unit 13a The front is moved in a diagonally upward right direction to return to the standby position at the center of the upper side of the display unit 13a. Then, by stopping the first motor 64 at a predetermined timing after the first detection means 69 detects the first detection piece 70, the first movable body 43 is in a standby position where it is retracted to the upper side of the display unit 13a. Holds stopped. The movable member 41 that moves in the vertical direction with respect to the first device main body 47 has an arm portion 53 that extends to the right of the movable base 52 at a movable insertion port 47 a of the first device main body 47. While being guided (see FIG. 17), the guide member 52 a disposed on the left side of the movable base 52 is guided back and forth by the guide port 47 b of the first apparatus main body 47. That is, the movable member 41 is guided forward and backward on both the left and right sides of the movable base 52, so that the movable member 41 is preferably prevented from shaking in the front-rear direction.

ここで、前記可動部材41が待機位置に到来したときには、図14および図18に示す如く、前記規制部材48が腕部53の前側に臨んで、該腕部53の前方への移動が規制される。すなわち、腕部53の前側には第1可動体43が配設されるため、該腕部53には第1可動体43の重量によって前方に傾く力が加わるが、前記規制部材48によって前方への移動は確実に防止される。従って、腕部53に配設される第1可動体43の前側への変位も防止され、該第1可動体43が装飾部材28等の前側に位置する部材と干渉するのを防止し得る。また、規制部材48は、上側から下側に向かうにつれて第1ベース部材40の延出部40aとの間隔が広くなる傾斜部48bを下端部に備えているから、作動位置から待機位置に移動する可動部材41の腕部53を、第1ベース部材40の延出部40aと当該規制部材48の平行部48aとの間に確実に導びくことができる。   Here, when the movable member 41 arrives at the standby position, as shown in FIGS. 14 and 18, the restricting member 48 faces the front side of the arm portion 53 and the forward movement of the arm portion 53 is restricted. The That is, since the first movable body 43 is disposed on the front side of the arm portion 53, a force that tilts forward due to the weight of the first movable body 43 is applied to the arm portion 53. Is reliably prevented. Therefore, the forward displacement of the first movable body 43 disposed on the arm portion 53 is also prevented, and the first movable body 43 can be prevented from interfering with a member positioned on the front side such as the decorative member 28. Moreover, since the regulating member 48 includes an inclined portion 48b at the lower end portion that increases in distance from the extending portion 40a of the first base member 40 from the upper side to the lower side, the regulating member 48 moves from the operating position to the standby position. The arm portion 53 of the movable member 41 can be reliably guided between the extending portion 40 a of the first base member 40 and the parallel portion 48 a of the regulating member 48.

前記第1可動演出装置37では、図16,図18,図19,図21および図22等に示す如く、第1装置本体部47に対し、可動部材41を移動自在に支持する転がり軸受51を挟んで腕部53の延出側とは反対側に第1伝達部46および第1モータ64からなる第1駆動部42を配置してある。従って、第1駆動部42が腕部53の動作の邪魔とならず、可動部材41を安定して移動することができる。また、可動部材41と第1可動体43とを連繋する第1連繋機構44は、可動部材41における腕部53の延出側に概ね配置されるため(図19,図22参照)、該第1連繋機構44の設計の自由度が第1駆動部42のために低くなるのを抑えることができる。   In the first movable effect device 37, as shown in FIGS. 16, 18, 19, 21, and 22, etc., a rolling bearing 51 that movably supports the movable member 41 with respect to the first device body 47 is provided. A first drive unit 42 including a first transmission unit 46 and a first motor 64 is disposed on the opposite side of the arm unit 53 from the extending side. Therefore, the first drive part 42 does not interfere with the operation of the arm part 53 and can move the movable member 41 stably. Moreover, since the 1st connection mechanism 44 which connects the movable member 41 and the 1st movable body 43 is substantially arrange | positioned on the extension side of the arm part 53 in the movable member 41 (refer FIG. 19, FIG. 22), this 1st It can suppress that the freedom degree of design of the 1 linkage mechanism 44 becomes low for the 1st drive part 42. FIG.

前記第1可動演出装置37は、固定側の第1カバー部材45に対して可動部材41の可動基部52が、滑り軸受構造と比べて摺動負荷が低い転がり軸受51を介して支持されているので、可動部材41を円滑に動作させることができると共に、第1駆動部42(第1モータ64)に対する負荷を軽減できる。第1可動演出装置37では、可動基部52から横方向に延びる腕部53に第1発光基板73を備えて比較的重量のある第1可動体43が設けられるので、可動基部52に対して斜め下方向に第1可動体43および腕部53の重量がかかる。しかしながら、転がり軸受51は、図17に示す如く、内受部59および中受部61が、転動体60によって左右から挟まれて支持されており、変位方向と交差する方向へ荷重がかかっても傾き難いので、第1可動体43の重量が斜めにかかっても転がり軸受51によって可動部材41の上下動を円滑に行ない得る。また転がり軸受51は、可動基部52に配設される内受部59の左右両側において、上下方向に離間する複数の転動体60により移動自在に支持されているから、可動部材41を安定して支持してより円滑に動作させることができる。   In the first movable effect device 37, the movable base 52 of the movable member 41 is supported by the fixed first cover member 45 via the rolling bearing 51 having a lower sliding load than the sliding bearing structure. Therefore, the movable member 41 can be operated smoothly, and the load on the first drive unit 42 (first motor 64) can be reduced. In the first movable effect device 37, the first movable body 43 that is provided with the first light emitting substrate 73 and is provided with the first light emitting substrate 73 on the arm portion 53 extending in the lateral direction from the movable base 52 is provided obliquely with respect to the movable base 52. The weights of the first movable body 43 and the arm portion 53 are applied downward. However, in the rolling bearing 51, as shown in FIG. 17, the inner receiving portion 59 and the inner receiving portion 61 are supported by being sandwiched from the left and right by the rolling elements 60, and even if a load is applied in a direction crossing the displacement direction. Since it is difficult to tilt, the movable member 41 can be smoothly moved up and down by the rolling bearing 51 even when the weight of the first movable body 43 is obliquely applied. Further, the rolling bearing 51 is supported movably by a plurality of rolling elements 60 spaced in the vertical direction on both the left and right sides of the inner receiving portion 59 disposed on the movable base 52, so that the movable member 41 is stably supported. It can be supported and operated more smoothly.

前記転がり軸受51を構成する外受部58は、上端部を第1カバー部材45に設けた上係合部45bに係合したもとで、該外受部58の下端部が、第1カバー部材45に対して着脱可能に固定される固定部材62により保持されている(図19参照)。すなわち、転がり軸受51の中受部61および内受部59を移動自在に支持する外受部58は、上端部と下端部とで第1カバー部材45に対して保持されて、中受部61および内受部59が移動する中間領域においては、当該外受部58を第1カバー部材45に固定するネジ等の手段が存在しない。従って、外受部58にネジ等の固定手段に対する固定部分を設けたり、中受部61や内受部59に固定手段と干渉しない構成を採用する必要がなく、各部品の構成を簡略化して製造コストを低廉にすることができる。また外受部58は、固定部材62を取外すだけで第1カバー部材45から簡単に取外すことができ、メンテナンス性が向上する。   The outer receiving portion 58 constituting the rolling bearing 51 is engaged with the upper engaging portion 45 b provided on the first cover member 45 at the upper end portion, and the lower end portion of the outer receiving portion 58 is the first cover. It is held by a fixing member 62 that is detachably fixed to the member 45 (see FIG. 19). That is, the outer receiving portion 58 that movably supports the intermediate receiving portion 61 and the inner receiving portion 59 of the rolling bearing 51 is held with respect to the first cover member 45 at the upper end portion and the lower end portion. In the intermediate region in which the inner receiving portion 59 moves, there is no means such as a screw for fixing the outer receiving portion 58 to the first cover member 45. Therefore, it is not necessary to provide a fixing portion for fixing means such as screws in the outer receiving portion 58, or to adopt a configuration that does not interfere with the fixing means in the intermediate receiving portion 61 or the inner receiving portion 59, and the configuration of each part is simplified. Manufacturing cost can be reduced. Further, the outer receiving portion 58 can be easily removed from the first cover member 45 simply by removing the fixing member 62, and the maintainability is improved.

前記腕部53に対して第1可動体43を移動自在に配設する前記可動連結部材78は、図19および図22に示す如く、腕部53に対して複数の案内ローラ57,57で支持されており、第1可動体43の移動時における抵抗は小さく、第1可動体43のスムーズな動作を達成し得る。また、可動連結部材78と共に第1連繋機構44を構成する第1作動杆79は、可動連結部材78および第1ベース部材40のカム溝84に対してローラ体81,83を介して回転および移動可能に連繋されており、第1連繋機構44の作動時における各連繋部で発生する抵抗を小さく抑えている。すなわち、前記第1モータ64により往復動される可動部材41の動作に連動して第1可動体43を動作させる第1連繋機構44の各支持部分や連繋部での抵抗が小さくなるよう構成しているから、第1モータ64に加わる負荷をより小さくすることができ、駆動力の小さなモータを用いることを可能として小型化を図り、コストの上昇を抑制し得る。   The movable connecting member 78 that displaces the first movable body 43 with respect to the arm portion 53 is supported by a plurality of guide rollers 57 and 57 with respect to the arm portion 53 as shown in FIGS. Thus, the resistance during movement of the first movable body 43 is small, and a smooth operation of the first movable body 43 can be achieved. Further, the first operating rod 79 constituting the first linkage mechanism 44 together with the movable connecting member 78 rotates and moves via the roller bodies 81 and 83 with respect to the movable connecting member 78 and the cam groove 84 of the first base member 40. It is connected so that the resistance which generate | occur | produces in each connection part at the time of the action | operation of the 1st connection mechanism 44 is restrained small. That is, it is configured such that the resistance at each support portion and the connecting portion of the first connecting mechanism 44 that operates the first movable body 43 in conjunction with the operation of the movable member 41 reciprocated by the first motor 64 is reduced. Therefore, the load applied to the first motor 64 can be further reduced, a motor with a small driving force can be used, the size can be reduced, and an increase in cost can be suppressed.

前記第1可動体43における第1発光基板73のソケット73bに接続された配線は、前記腕部53に配設された配線カバー86と第1発光基板73との間に画成される空間内でU字状に折曲された後に、該腕部53に画成された配線収容部55bに収容された状態で第1装置本体部47内に引き込まれ、前記第1ベース部材40の配線通口40cを介して裏側に引き出されている。すなわち、第1可動体43の裏側に臨む配線が、第1可動体43の移動に際して後方や上方に突出するように曲がるのは防止され、配線が他の部材に引掛かることで第1可動体43および可動部材41の移動を阻害するのは防止される。また、配線収容部55bの後方開口を閉じる配線蓋体85は、図12に示す如く、第1装置本体部47の外側と内側とに亘って延在し、該配線蓋体85が腕部53の後方への変位を規制するべく機能している。しかも、配線蓋体85の後方に突出する突条部85aは円弧状に形成されて(図14参照)、第1装置本体部47における第1ベース部材40との接触面積を小さく抑えるようになっているので、可動部材41の往復動時における第1ベース部材40との接触抵抗は小さく、可動部材41のスムーズな動作および第1モータ64に加わる負荷を低減するのに寄与している。   The wiring connected to the socket 73 b of the first light emitting substrate 73 in the first movable body 43 is in a space defined between the wiring cover 86 disposed on the arm portion 53 and the first light emitting substrate 73. After being bent into a U-shape, it is drawn into the first device main body 47 while being housed in the wiring housing portion 55b defined in the arm portion 53, and the wiring of the first base member 40 is passed through. It is pulled out to the back side through the opening 40c. That is, the wiring facing the back side of the first movable body 43 is prevented from bending so as to protrude rearward or upward when the first movable body 43 moves, and the first movable body is caught by the wiring being caught by another member. It is prevented that 43 and the movement of the movable member 41 are inhibited. Further, as shown in FIG. 12, the wiring lid body 85 that closes the rear opening of the wiring housing portion 55 b extends over the outer side and the inner side of the first device main body portion 47, and the wiring lid body 85 is connected to the arm portion 53. It functions to regulate the rearward displacement of the. Moreover, the protrusion 85a protruding rearward of the wiring lid 85 is formed in an arc shape (see FIG. 14), and the contact area of the first device main body 47 with the first base member 40 is kept small. Therefore, the contact resistance with the first base member 40 during the reciprocating motion of the movable member 41 is small, which contributes to the smooth operation of the movable member 41 and the load applied to the first motor 64.

前記第1可動演出装置37は、前記裏部材32に対して第1装置本体部47を単位とするユニット単位で着脱することができ、故障や部品交換等のメンテナンスは容易である。また、前記腕部53に対して第1可動体43を着脱位置に位置することで、図12および図16に示す如く、該第1可動体43と可動連結部材78とを固定する右端のネジ80は、腕部53の収容空間S外で後側に露出すると共に、左端および中間の2つのネジ80の夫々は、前記後支持部56に形成した対応する孔56aと前後で整列する。すなわち、収容空間Sに臨む2つのネジ80は、後支持部56の孔56aを介して挿入した工具で弛み外したり締付けることができるから、腕部53を分解することなく第1可動体43の着脱を行なうことが可能で、メンテナンスが容易となる。   The first movable effect device 37 can be attached to and detached from the back member 32 in units of the first device main body 47, and maintenance such as failure and component replacement is easy. Further, by positioning the first movable body 43 in the attaching / detaching position with respect to the arm portion 53, as shown in FIGS. 12 and 16, the right end screw for fixing the first movable body 43 and the movable connecting member 78 is secured. 80 is exposed to the rear side outside the accommodation space S of the arm portion 53, and each of the left end and the middle two screws 80 is aligned with a corresponding hole 56a formed in the rear support portion 56 in the front-rear direction. That is, the two screws 80 facing the accommodation space S can be loosened and tightened with a tool inserted through the hole 56a of the rear support portion 56, so that the first movable body 43 can be removed without disassembling the arm portion 53. It is possible to attach and detach, and maintenance becomes easy.

更に、前記配線蓋体85を腕部53に固定する2つのネジは、第1装置本体部47に対して可動部材41を待機位置に位置させた状態で、一方は第1装置本体部47の外側で後側に露出して位置すると共に、他方は前記配線通口40cに臨んで後側に露出しているから(図12参照)、該配線蓋体85については、第1装置本体部47を分解することなく取外したり取付けたりすることができる。また、前記配線カバー86を腕部53に固定するネジは後側に露出しているから、該配線カバー86についても腕部53を分解することなく着脱し得る。すなわち、前記第1発光基板73に接続する配線を後側から覆っている配線カバー86および配線蓋体85は、何れも他の部品を取外すことなく第1装置本体部47の後側からの操作で取外したり取付けることができるので、該配線の交換等のメンテナンスを容易に行ない得る。   Furthermore, the two screws for fixing the wiring lid 85 to the arm portion 53 are in a state where the movable member 41 is positioned at the standby position with respect to the first device main body portion 47, and one of the screws of the first device main body portion 47. Since the outer side is exposed and positioned on the rear side, and the other side is exposed to the rear side facing the wiring passage 40c (see FIG. 12), the first device main body 47 of the wiring lid 85 is provided. Can be removed and installed without disassembling. Further, since the screw for fixing the wiring cover 86 to the arm portion 53 is exposed to the rear side, the wiring cover 86 can be attached and detached without disassembling the arm portion 53. That is, the wiring cover 86 and the wiring cover body 85 covering the wiring connected to the first light emitting substrate 73 from the rear side can be operated from the rear side of the first apparatus main body 47 without removing other components. Therefore, maintenance such as replacement of the wiring can be easily performed.

(第2可動演出装置のみの作用について)
前記第2可動演出装置38は、第2モータ120を停止(非通電時)した待機位置では、図5に示す如く、前記斜動第2可動体88および直動第2可動体89が、前記図柄表示装置13の表示部13aの右辺側において、前記直線Lを挟んで上下の関係で並んでいる。第2可動演出装置38は、第2モータ120が駆動されて第2伝達部95を介して第2連繋機構91の作動部材105が下方へ変位されると、該作動部材105の第1カム孔105cおよび第2カバー部材94の第2カム孔94cにローラ部材119を介して一端が連繋されると共に他端が斜動第2可動体88に連繋されている第2作動杆107が押下げられ、図34に示す如く、前記平行リンク機構108で支持されている斜動第2可動体88が待機位置から左斜め下方に向けて平行移動する。また、前記第2連繋機構91のラック部材106が接触位置まで下降すると、該ラック部材106が、前記第3連繋機構93において原位置に位置する第1部材149の上端に接触し、該ラック部材106の下降に伴って第1部材149が前記圧縮コイルバネ152の弾力に抗して押下げられる。
(About the action of the second movable effect device only)
In the standby position where the second motor 120 is stopped (not energized), the second movable effect device 38 has the tilting second movable body 88 and the linearly movable second movable body 89, as shown in FIG. On the right side of the display unit 13 a of the symbol display device 13, they are lined up and down with the straight line L in between. When the second motor 120 is driven and the operation member 105 of the second linkage mechanism 91 is displaced downward via the second transmission unit 95, the second movable effect device 38 is moved to the first cam hole of the operation member 105. The second operating rod 107 having one end connected to the second cam hole 94c of the 105c and the second cover member 94 via the roller member 119 and the other end connected to the tilted second movable body 88 is pushed down. As shown in FIG. 34, the tilting second movable body 88 supported by the parallel link mechanism 108 moves in a diagonally downward left direction from the standby position. When the rack member 106 of the second linkage mechanism 91 is lowered to the contact position, the rack member 106 comes into contact with the upper end of the first member 149 located at the original position in the third linkage mechanism 93, and the rack member As 106 is lowered, the first member 149 is pushed down against the elasticity of the compression coil spring 152.

前記第1部材149の下降に伴って該第1部材149が噛合する前記作動ピニオン148が回転し、該作動ピニオン148に第1部材149とは反対側で噛合する第2部材150は、下端が前記第3伝達部設置部144の上壁144b,144bに当接した原位置から上昇する。これにより、該第2部材150に配設される前記直動第2可動体89が待機位置から作動位置に向けて上昇する。前記ラック部材106が第1部材149に当接した状態で第2連繋機構91が第2位置に向けて移動することで、斜動第2可動体88が左斜め下方に移動しつつ直動第2可動体89が垂直上方に移動する。このとき、直動第2可動体89が干渉位置に至る前に、斜動第2可動体88が干渉位置より作動位置側に移動するので、両可動体88,89が接触して動作が阻害されることはない。   As the first member 149 is lowered, the operating pinion 148 engaged with the first member 149 rotates, and the second member 150 engaged with the operating pinion 148 on the side opposite to the first member 149 has a lower end. Ascending from the original position in contact with the upper walls 144b, 144b of the third transmission portion installation portion 144. As a result, the linearly movable second movable body 89 disposed on the second member 150 rises from the standby position toward the operating position. With the rack member 106 in contact with the first member 149, the second linkage mechanism 91 moves toward the second position, so that the tilting second movable body 88 moves linearly while moving diagonally downward to the left. 2 The movable body 89 moves vertically upward. At this time, before the linearly movable second movable body 89 reaches the interference position, the tilting second movable body 88 moves from the interference position to the operating position side, so that both the movable bodies 88 and 89 come into contact with each other and the operation is hindered. It will never be done.

そして、前記第2連繋機構91が第2位置に到来することで、図6に示す如く、前記斜動第2可動体88が、前記図柄表示装置13の表示部13aの前側であって、略中央の作動位置に到来する。また、前記ラック部材106と第1部材149とが接触した状態で第3連繋機構93が可動位置に至り、これによって直動第2可動体89が、斜動第2可動体88の右側に並ぶ作動位置に到来する(図36〜図38参照)。前記第2モータ120は、前記斜動第2可動体88が作動位置(第2連繋機構91が第2位置)に到来すると停止し、該斜動第2可動体88および直動第2可動体89は作動位置に保持される。   When the second linkage mechanism 91 arrives at the second position, as shown in FIG. 6, the tilted second movable body 88 is on the front side of the display unit 13a of the symbol display device 13, and is substantially Arrives at the central operating position. Further, the third linkage mechanism 93 reaches the movable position in a state where the rack member 106 and the first member 149 are in contact with each other, whereby the linearly movable second movable body 89 is arranged on the right side of the tilted second movable body 88. The operating position is reached (see FIGS. 36 to 38). The second motor 120 stops when the tilting second movable body 88 arrives at the operating position (the second linkage mechanism 91 is in the second position), and the tilting second movable body 88 and the linearly movable second movable body. 89 is held in the operating position.

前記第2モータ120が逆転駆動されると、作動部材105は第1位置に向けて上昇すると共に、第2連繋機構91を介して作動位置の斜動第2可動体88は右斜め上方に向けて平行移動する。また、第2連繋機構91のラック部材106が第1位置に向けて上昇するのに伴い、前記圧縮コイルバネ152で付勢されている第3連繋機構93の第1部材149はラック部材106に接触した状態で、該ラック部材106の上昇に伴って上昇する。これにより、第1部材149に作動ピニオン148を介して噛合する第2部材150が可動位置から原位置に向けて下降することで、作動位置の直動第2可動体89は下方に向けて平行移動する。このとき、斜動第2可動体88が干渉位置に至る前に、直動第2可動体89が干渉位置より待機位置側に移動するので、両可動体88,89が接触して動作が阻害されることはない。   When the second motor 120 is driven in reverse, the actuating member 105 rises toward the first position, and the tilting second movable body 88 at the actuating position is directed diagonally upward to the right via the second linkage mechanism 91. Move in parallel. Further, as the rack member 106 of the second linkage mechanism 91 rises toward the first position, the first member 149 of the third linkage mechanism 93 biased by the compression coil spring 152 contacts the rack member 106. In this state, the rack member 106 rises as the rack member 106 rises. As a result, the second member 150 that meshes with the first member 149 via the operating pinion 148 descends from the movable position toward the original position, so that the direct-acting second movable body 89 at the operating position is parallel downward. Moving. At this time, since the linearly movable second movable body 89 moves from the interference position to the standby position side before the tilting second movable body 88 reaches the interference position, both the movable bodies 88 and 89 come into contact with each other and the operation is hindered. It will never be done.

そして、前記第2部材150の下端が第3伝達部設置部144の上壁144b,144bに当接して下降が規制されて第2部材150および第1部材149が原位置に保持されることで、引続き上昇する前記ラック部材106が第1部材149から離間し、直動第2可動体89は待機位置に保持される(図32参照)。また、前記第2検知手段134が第2検知片135を検知してから所定のタイミングで第2モータ120を停止することで、斜動第2可動体88が表示部13aの右辺側に退避した待機位置に保持される。前記第2装置本体部96に対して上下方向に移動するラック部材106は、図31に示す如く、前記前突部106aおよび後突部106bが対応する前長孔94eおよび後長孔87aに夫々案内されることで、左右方向にぶれることなく上下動する。また、第2装置本体部96の前側および後側で前突部106aおよび後突部106bに配設される作動部材105および第2検知片135によってラック部材106の前後方向のぶれも抑制される。   Then, the lower end of the second member 150 abuts against the upper walls 144b and 144b of the third transmission portion installation portion 144 so that the lowering is restricted and the second member 150 and the first member 149 are held in their original positions. The rack member 106 that continues to rise is separated from the first member 149, and the linearly movable second movable body 89 is held at the standby position (see FIG. 32). In addition, the second movable body 88 is retracted to the right side of the display unit 13a by stopping the second motor 120 at a predetermined timing after the second detection means 134 detects the second detection piece 135. It is held at the standby position. As shown in FIG. 31, the rack member 106 that moves in the vertical direction with respect to the second apparatus main body 96 has a front long hole 94e and a rear long hole 87a corresponding to the front protrusion 106a and the rear protrusion 106b, respectively. By being guided, it moves up and down without shaking in the left-right direction. Further, the movement of the rack member 106 in the front-rear direction is also suppressed by the operation member 105 and the second detection piece 135 disposed on the front protrusion 106a and the rear protrusion 106b on the front side and the rear side of the second device main body 96. .

ここで、前記第2連繋機構91が第2位置から第1位置に移動する際には、前記平行リンク機構108を構成する第1リンク杆109と第2装置本体部96との間に張設したねじりコイルバネ116により、該第1リンク杆109が第2位置に向けて回転するよう付勢される。従って、前記斜動第2可動体88の動きに追従して平行リンク機構108がスムーズに移動し、該斜動第2可動体88は姿勢を保持したまた待機位置まで確実に移動する。また、第1リンク杆109に設けた案内突部109aによって、該第1リンク杆109は前記第2カバー部材94の上部延出部94dの裏側に案内され、第1リンク杆109が上部延出部94dに引掛かって第2位置への移動が妨げられるのは防止される。   Here, when the second linkage mechanism 91 moves from the second position to the first position, it is stretched between the first link rod 109 constituting the parallel link mechanism 108 and the second device main body 96. The torsion coil spring 116 biases the first link rod 109 to rotate toward the second position. Accordingly, the parallel link mechanism 108 smoothly moves following the movement of the tilting second movable body 88, and the tilting second movable body 88 moves to the standby position while maintaining its posture. The first link rod 109 is guided to the back side of the upper extension portion 94d of the second cover member 94 by the guide projection 109a provided on the first link rod 109, and the first link rod 109 extends upward. It is prevented that the movement to the second position is hindered by being caught by the portion 94d.

すなわち、前記第2可動演出装置38では、1つの第2モータ120により、2つの第2可動体88,89を動作させることができる。また、斜動第2可動体88に連繋される第2連繋機構91と機械的に接触する第3連繋機構93により直動第2可動体89を移動するよう構成してあるから、斜動第2可動体88の軌道の一部を、直動第2可動体89の軌道の一部と重なるように構成して2つの第2可動体88,89を限られたスペースに配設した場合であっても、両第2可動体88,89が移動途中で干渉することはなく、両第2可動体88,89で意図した動作演出を行ない得る。しかも、2つの第2可動体88,89を独立したモータで夫々動作するものではないから、モータを2つ設けた場合に比ベて部品点数を低減し得ると共に設置スペースを小さくでき、かつ制御装置にかかる負担を軽減し得る。   That is, in the second movable effect device 38, the two second movable bodies 88 and 89 can be operated by one second motor 120. In addition, since the second movable body 89 is configured to move by the third linkage mechanism 93 that mechanically contacts the second linkage mechanism 91 linked to the tilted second movable body 88, When a part of the orbit of the two movable bodies 88 overlaps with a part of the orbit of the second movable body 89, the two second movable bodies 88 and 89 are arranged in a limited space. Even if it exists, both the 2nd movable bodies 88 and 89 do not interfere in the middle of a movement, but the operation | movement effect intended by both 2nd movable bodies 88 and 89 can be performed. Moreover, since the two second movable bodies 88 and 89 are not operated by independent motors, respectively, the number of parts can be reduced and the installation space can be reduced and controlled as compared with the case where two motors are provided. The burden on the apparatus can be reduced.

また、前記第2可動演出装置38においては、図30に示す如く、両第2可動体88,89の待機位置では両第2可動体88,89が上下方向に直線的に並んでおり、この状態から両第2可動体88,89が図6に示す左右方向に並ぶ作動位置に変化するので、動作に面白みがあり、興趣のある演出を行ない得る。   In the second movable effect device 38, as shown in FIG. 30, the second movable bodies 88 and 89 are linearly arranged in the vertical direction at the standby position of the second movable bodies 88 and 89. Since both the second movable bodies 88 and 89 change from the state to the operation positions arranged in the left-right direction shown in FIG. 6, the operation is interesting and an interesting production can be performed.

前記第2可動演出装置38では、2つの第2可動体88,89を待機位置と作動位置の間で大きく往復動する動作とは別に、斜動第2可動体88のみを待機位置と接触位置との間の一部範囲で往復動する動作を行なうことができる。すなわち、前記第2検知手段134が第2検知片135を検知している状態から斜動第2可動体88を下降する際の第2モータ120の駆動ステップ数が、前記第2連繋機構91のラック部材106が、第3連繋機構93の第1部材149に接触しない値までの間で第2モータ120を正逆駆動することで、斜動第2可動体88が待機位置と接触位置に至る前の範囲で、該斜動第2可動体88のみが往復動する。   In the second movable effect device 38, apart from the operation of reciprocating the two second movable bodies 88 and 89 largely between the standby position and the operating position, only the tilted second movable body 88 is contacted with the standby position and the contact position. The reciprocating motion can be performed in a partial range between. That is, the number of driving steps of the second motor 120 when the second detecting means 134 detects the second detection piece 135 and descends the tilting second movable body 88 is determined by the second linkage mechanism 91. When the rack member 106 drives the second motor 120 forward and backward until the rack member 106 does not contact the first member 149 of the third linkage mechanism 93, the tilting second movable body 88 reaches the standby position and the contact position. In the previous range, only the tilting second movable body 88 reciprocates.

また前記第2可動演出装置38では、2つの第2可動体88,89を待機位置と作動位置の間で大きく往復動する動作および斜動第2可動体88のみを往復動する動作とは更に別に、直動第2可動体89のみを待機位置と作動位置との間の一部範囲で上下方向に往復動する動作を行なうことができる。すなわち、斜動第2可動体88を待機位置に保持した状態で第2モータ120を駆動停止したもとで、前記ソレノイド142の励磁・消磁(通電・非通電)を反復することで、第3伝達部143により直動第2可動体89のみが上下動する。すなわち、ソレノイド142を励磁してプランジャ142aを本体内に引き込むことで、図39に示す如く、前記第1作動体145およびシーソー部材146を介して第2作動体147が上昇し、前記上壁144b,144bに下端を当接している原位置の第3連繋機構93の第2部材150を押上げ、直動第2可動体89を上昇する。そして、ソレノイド142を消磁することで、前記圧縮コイルバネ152の弾力および直動第2可動体89自身の重量によって該直動第2可動体89が下降して、第2部材150が上壁144b,144bに当接することで直動第2可動体89は待機位置に保持される。このように、ソレノイド142の励磁・消磁を反復するだけで、直動第2可動体89は上下動する。   In the second movable effect device 38, the operation of reciprocating the two second movable bodies 88 and 89 largely between the standby position and the operating position and the operation of reciprocating only the tilting second movable body 88 are further described. Separately, only the linearly movable second movable body 89 can be reciprocated in the vertical direction within a partial range between the standby position and the operating position. That is, by repeating the excitation / demagnetization (energization / non-energization) of the solenoid 142 with the second motor 120 stopped driving while the tilting second movable body 88 is held at the standby position, the third Only the linearly movable second movable body 89 is moved up and down by the transmission portion 143. That is, by exciting the solenoid 142 and pulling the plunger 142a into the main body, as shown in FIG. , 144b is pushed up the second member 150 of the third linkage mechanism 93 in the original position with the lower end in contact with the lower end, and the linearly movable second movable body 89 is raised. Then, by demagnetizing the solenoid 142, the linearly movable second movable body 89 is lowered by the elasticity of the compression coil spring 152 and the weight of the linearly movable second movable body 89 itself, and the second member 150 is moved to the upper wall 144b, By abutting against 144b, the linearly movable second movable body 89 is held at the standby position. In this way, the direct-acting second movable body 89 moves up and down simply by repeating excitation and demagnetization of the solenoid 142.

すなわち、前記第2可動演出装置38では、第2連繋機構91を移動させる範囲により、第2モータ120の駆動により斜動第2可動体88のみを動作する演出と、斜動第2可動体88および直動第2可動体89の2つの可動体88,89を連動して動作する演出とを行なうことができ、興趣のある演出を少ない部品で実施し得る。また、第2連繋機構91と第3連繋機構93とを機械的に接離可能な構成としたので、連繋機構の機械的な構成によって1つの可動体のみを動作させる状態と2つの可動体を同期して動作させる状態とに変化する構成に比べ、機構の簡略化を図ることができ、コストを低廉に抑え得る。   That is, in the second movable effect device 38, an effect of operating only the tilting second movable body 88 by driving the second motor 120 and a tilting second movable body 88 within the range in which the second linkage mechanism 91 is moved. Further, it is possible to perform an effect in which the two movable bodies 88 and 89 of the linearly movable second movable body 89 operate in conjunction with each other, and an interesting production can be implemented with a small number of parts. In addition, since the second linkage mechanism 91 and the third linkage mechanism 93 are configured to be mechanically connectable / separable, the state in which only one movable body is operated by the mechanical configuration of the linkage mechanism and the two movable bodies are arranged. The mechanism can be simplified and the cost can be reduced as compared with a configuration that changes to a state of operating in synchronization.

更にまた、前記第2可動演出装置38では、直動第2可動体89をソレノイド142により動作し得るから、直動第2可動体89を単独で動作して演出を行なうことができ、多様な動作パターンでの演出を行なうことで、興趣をより向上し得る。また、ソレノイド142により直動第2可動体89が動作する範囲は、該直動第2可動体89が斜動第2可動体88と干渉することのない干渉位置より待機位置側で、かつ第3連繋機構93の第1部材149が、第1位置の第2連繋機構91におけるラック部材106に接触しない範囲で第3連繋機構93を移動するよう構成してあるから(図39参照)、直動第2可動体89を単独で動作させる際に、直動第2可動体89が斜動第2可動体88と干渉してしまったり、第3連繋機構93が第2連繋機構91と接触して斜動第2可動体88が意図しない動作を行なってしまうのを防止し得る。なお、ソレノイド142の制御は、モータを制御するのに比べて制御負担は軽く、第2モータ120とソレノイド142の両方を駆動する場合の制御装置にかかる負担は、2つのモータを用いる場合に比べて小さく抑えることができる。   Furthermore, in the second movable effect device 38, the direct-acting second movable body 89 can be operated by the solenoid 142, so that the direct-acting second movable body 89 can be operated alone to produce effects. The entertainment can be further improved by performing the action pattern. Further, the range in which the linearly movable second movable body 89 is operated by the solenoid 142 is the standby position side from the interference position where the linearly movable second movable body 89 does not interfere with the inclined second movable body 88 and Since the first member 149 of the three linkage mechanism 93 is configured to move the third linkage mechanism 93 within a range that does not contact the rack member 106 in the second linkage mechanism 91 at the first position (see FIG. 39), When the movable second movable body 89 is operated alone, the linearly movable second movable body 89 interferes with the tilted second movable body 88, or the third linkage mechanism 93 comes into contact with the second linkage mechanism 91. Thus, the tilted second movable body 88 can be prevented from performing an unintended operation. The control of the solenoid 142 is lighter than the control of the motor, and the load on the control device when driving both the second motor 120 and the solenoid 142 is less than when using two motors. Can be kept small.

前記第2可動演出装置38では、第2連繋機構91の第1位置および第3連繋機構93の原位置で、両機構91,93のラック部材106と第1部材149とが離間し(図33参照)、第2連繋機構91の接触位置から第2位置までの間でラック部材106が第1部材149に接触するよう構成されている(図34,図35,図37,図38参照)。また、第3連繋機構93の原位置で、第3伝達部143の第2作動体147と第2部材150とが接触可能な状態となっている。そして、図34に示すようにラック部材106が第1部材149と接触して第3連繋機構93が原位置から可動位置に移動する際には、該第3連繋機構93の第2部材150が、第3伝達部143の第2作動体147から離間する方向に移動するよう構成されている。すなわち、第2モータ120の駆動によって直動第2可動体89を待機位置から作動位置に移動する際には、第3伝達部143から第2部材150を機械的に切離すから、このときに第3伝達部143やソレノイド142に負荷が加わることはない。   In the second movable effect device 38, the rack member 106 and the first member 149 of both the mechanisms 91 and 93 are separated at the first position of the second linkage mechanism 91 and the original position of the third linkage mechanism 93 (FIG. 33). The rack member 106 is configured to contact the first member 149 between the contact position of the second linkage mechanism 91 and the second position (see FIGS. 34, 35, 37, and 38). Further, the second operating body 147 of the third transmission unit 143 and the second member 150 are in contact with each other at the original position of the third linkage mechanism 93. As shown in FIG. 34, when the rack member 106 contacts the first member 149 and the third linkage mechanism 93 moves from the original position to the movable position, the second member 150 of the third linkage mechanism 93 moves. The third transmission unit 143 is configured to move in a direction away from the second operating body 147. That is, when the second movable body 89 is moved from the standby position to the operating position by driving the second motor 120, the second member 150 is mechanically separated from the third transmission portion 143. No load is applied to the third transmission unit 143 or the solenoid 142.

また、前記第1部材149とラック部材106とが接触した状態で、図34に示すように第2部材150が第3伝達部143の第2作動体147と接触可能な位置に臨んでいる際に、前記ソレノイド142が励磁されて第2作動体147が第2部材150に接触してこれを押上げた際には、第1部材149がラック部材106から離間する方向に移動するから、この場合であっても第2連繋機構91を介して第2モータ120に負荷が加わることはない。すなわち、第2連繋機構91と第3連繋機構93、および第3連繋機構93と第3伝達部143との何れもが機械的に切離し可能な構成で、かつ第2連繋機構91と第3連繋機構93とが連繋されて第2モータ120の駆動力が第3連繋機構93に加わっているときには、該第3連繋機構93が第3伝達部143から離間する方向に移動し、また第3伝達部143と第3連繋機構93とが連繋されてソレノイド142の駆動力が第3伝達部143に加わっているときには、第3連繋機構93が第2連繋機構91から離間する方向に移動するよう構成されているから、第2モータ120およびソレノイド142が意図していないときに駆動された場合であっても、該第2モータ120、ソレノイド142、第2連繋機構91、第3連繋機構93および第3伝達部143等に無用な負荷が加わらず、これら部材の故障等の発生を防止し得る。   Further, when the first member 149 and the rack member 106 are in contact with each other, as shown in FIG. Furthermore, when the solenoid 142 is excited and the second operating body 147 contacts and pushes up the second member 150, the first member 149 moves in a direction away from the rack member 106. Even in this case, no load is applied to the second motor 120 via the second linkage mechanism 91. That is, the second linkage mechanism 91 and the third linkage mechanism 93, and the third linkage mechanism 93 and the third transmission portion 143 can be mechanically separated from each other, and the second linkage mechanism 91 and the third linkage are connected. When the mechanism 93 is linked and the driving force of the second motor 120 is applied to the third linkage mechanism 93, the third linkage mechanism 93 moves away from the third transmission portion 143, and the third transmission is performed. When the driving force of the solenoid 142 is applied to the third transmission unit 143 when the part 143 and the third connection mechanism 93 are connected, the third connection mechanism 93 moves in a direction away from the second connection mechanism 91. Therefore, even when the second motor 120 and the solenoid 142 are driven when not intended, the second motor 120, the solenoid 142, the second linkage mechanism 91, and the third linkage mechanism 93 are driven. Preliminary unnecessary load is not applied to the third transmission unit 143, etc., can prevent the occurrence of failure of these members.

(第1、第2および第3可動演出装置の相互の作用について)
前記第1可動体43は、待機位置と作動位置とで同じ姿勢を保持しており、該第1可動体43に形成されている第1図柄43aは、待機位置と作動位置とで同じ図柄として認識できる。また、前記斜動第2可動体88および直動第2可動体89も、待機位置と作動位置とで同じ姿勢を保持しており、該両第2可動体88,89に形成されている第2図柄88a,89aは、待機位置と作動位置とで同じ図柄として認識できる。なお、前記第3可動体154も、待機位置と作動位置とで同じ姿勢を保持しており、該第3可動体154に形成されている第3図柄154aは、待機位置と作動位置とで同じ図柄として認識できる。但し、第3可動体154は、待機位置では前記装飾部材28におけるステージ29および透明壁31の裏側に一部が前側から視認可能に臨んでいるだけであり、該第3可動体154に形成されている第3図柄154aの全体を遊技者が明確に認識することはできない。
(About the interaction between the first, second and third movable effect devices)
The first movable body 43 maintains the same posture at the standby position and the operating position, and the first pattern 43a formed on the first movable body 43 has the same pattern at the standby position and the operating position. Can be recognized. Further, the tilting second movable body 88 and the linearly movable second movable body 89 also maintain the same posture at the standby position and the operating position, and the second movable bodies 88 and 89 formed on the second movable bodies 88 and 89 have the same posture. The two symbols 88a and 89a can be recognized as the same symbol in the standby position and the operating position. The third movable body 154 also maintains the same posture at the standby position and the operating position, and the third symbol 154a formed on the third movable body 154 is the same at the standby position and the operating position. It can be recognized as a symbol. However, the third movable body 154 is only partially visible on the back side of the stage 29 and the transparent wall 31 of the decorative member 28 at the standby position, and is formed on the third movable body 154. The player cannot clearly recognize the entire third symbol 154a.

前記第1可動演出装置37において、前記第1可動体43を待機位置から作動位置に向けて移動すると、該第1可動体43は、前記図柄表示装置13の表示部13aの上辺略中央から表示部13aの前側を左斜め下方に向けて平行移動し、表示部13aの上下方向の中央において左辺側に偏倚した作動位置に到来する(図6参照)。また、前記第2可動演出装置38において、両第2可動体88,89を待機位置から作動位置に向けて夫々移動すると、直動第2可動体89は、図柄表示装置13の表示部13aの右辺下部から直上に向けて平行移動すると共に、斜動第2可動体88は、表示部13aの右辺上部から表示部13aの前側を左斜め下方に向けて平行移動する。そして、直動第2可動体89が、表示部13aの上下方向の中央において作動位置の前記第1可動体43に対して上辺に沿って直線状に並ぶ作動位置に到来すると共に、斜動第2可動体88が、表示部13aの上下方向の中央において作動位置の第1可動体43および直動第2可動体89との間において上辺に沿って直線状に並ぶ作動位置に到来する(図6参照)。第1可動体43および2つの第2可動体88,89が表示部13aの前側で直線状に並んだ状態で、各可動体43,88,89に形成されている第1図柄43a、斜動用第2図柄88aおよび直動用第2図柄89aが一連の意味のある図柄を形成する。更に、前記第3可動演出装置39において、前記第3可動体154を待機位置から作動位置に向けて移動すると、該第3可動体154は、前記図柄表示装置13の表示部13aの前側で直線状に並んでいる第1可動体43および第2可動体88,89の下側に並ぶ作動位置に到来する(図6参照)。この第3可動体154に形成されている第3図柄154aは、直線状に並ぶ第1図柄43a、斜動用第2図柄88aおよび直動用第2図柄89aと共に意味のある一連の図柄を形成する。   In the first movable effect device 37, when the first movable body 43 is moved from the standby position toward the operating position, the first movable body 43 is displayed from the substantially upper center of the display unit 13a of the symbol display device 13. The front side of the part 13a is translated in a diagonally downward left direction, and arrives at the operating position biased to the left side at the center in the vertical direction of the display part 13a (see FIG. 6). Moreover, in the said 2nd movable production | presentation apparatus 38, if both the 2nd movable bodies 88 and 89 move toward a working position from a stand-by position, the direct-acting 2nd movable body 89 of the display part 13a of the symbol display apparatus 13 will be shown. The second movable body 88 is moved in parallel from the lower right side toward the upper side, and the second movable body 88 is moved in parallel from the upper right side of the display unit 13a toward the lower left side of the display unit 13a. Then, the linearly movable second movable body 89 arrives at the operation position that is linearly aligned along the upper side with respect to the first movable body 43 at the operation position at the center in the vertical direction of the display unit 13a. The two movable bodies 88 arrive at the operation position that is linearly arranged along the upper side between the first movable body 43 and the linearly movable second movable body 89 at the operation position at the center in the vertical direction of the display unit 13a (see FIG. 6). The first symbol 43a formed on each movable body 43, 88, 89 in a state where the first movable body 43 and the two second movable bodies 88, 89 are arranged in a straight line on the front side of the display portion 13a. The second symbol 88a and the second linear motion symbol 89a form a series of meaningful symbols. Further, in the third movable effect device 39, when the third movable body 154 is moved from the standby position toward the operating position, the third movable body 154 is straight on the front side of the display portion 13a of the symbol display device 13. The first movable body 43 and the second movable bodies 88 and 89 that are arranged in a line arrive at the operating position arranged below the second movable bodies 88 and 89 (see FIG. 6). The third symbol 154a formed on the third movable body 154 forms a meaningful series of symbols together with the first symbol 43a, the second symbol 88a for tilting, and the second symbol 89a for linear motion arranged in a straight line.

すなわち、前記図柄表示装置13の表示部13aの前側で一連の図柄を形成する際に、該表示部13aの複数の辺から可動体43,88,154が表示部13aの前側に出てくるので、面白みがあり、遊技の興趣を向上し得る。特に、第1可動体43と斜動第2可動体88とは、単に対応する辺と直交する方向に移動するのではなく、斜めに移動するから一連の図柄を形成する際に該可動体43,89の動きが単調でなく複雑で面白みがあり、興趣を高めることができる。しかも、斜動第2可動体88は、作動位置の第1可動体43および直動第2可動体89の間に斜め上方から入り込むように移動するから、可動体の動きに面白みがあり、より興趣を高めることができる。更に、直線状に並ぶ第1可動体43と2つの第2可動体88,89は、図6に示すように、表示部13aの上下方向の中央において横方向の全体に一連で位置するから、遊技者に大きなインパクトを与えることができ、他の機種に対する差別化を図り得る。   That is, when a series of symbols is formed on the front side of the display unit 13a of the symbol display device 13, the movable bodies 43, 88, and 154 come out from the plurality of sides of the display unit 13a to the front side of the display unit 13a. It is interesting and can improve the fun of the game. In particular, the first movable body 43 and the tilted second movable body 88 do not move in a direction orthogonal to the corresponding side, but move obliquely, so that the movable body 43 is formed when forming a series of symbols. , 89's movement is not monotonous, complicated and interesting, and can enhance interest. Moreover, since the tilting second movable body 88 moves so as to enter obliquely from above between the first movable body 43 and the linearly movable second movable body 89 at the operating position, the movement of the movable body is interesting, and more It can enhance interest. Further, as shown in FIG. 6, the first movable body 43 and the two second movable bodies 88 and 89 arranged in a straight line are located in a series in the entire horizontal direction at the center in the vertical direction of the display unit 13a. It can have a big impact on the player and can be differentiated from other models.

また実施例では、左右方向に直線的に並ぶ3つの可動体43,88,89に形成されている図柄43a,88a,89aのみによって意味のある一連の図柄を形成しているが、更に前記第3可動体154が下側に並ぶことで、該第3可動体154に形成されている第3図柄154aと合わせて意味のある一連の図柄が形成される。この場合に、第3可動体154の第3図柄154aは、前述したように待機位置では全体が前側から明確に認識することができないので、第3可動体154が待機位置から作動位置に移動して前側から全体が認識し得るようになった第3図柄154aが、上側で直線的に並ぶ一連の図柄に合体して一連の図柄を形成することでの興趣を高めることができる。   In the embodiment, a meaningful series of symbols is formed only by the symbols 43a, 88a, 89a formed on the three movable bodies 43, 88, 89 linearly arranged in the left-right direction. By arranging the three movable bodies 154 on the lower side, a meaningful series of symbols is formed together with the third symbols 154a formed on the third movable body 154. In this case, since the third symbol 154a of the third movable body 154 cannot be clearly recognized from the front side as a whole at the standby position as described above, the third movable body 154 moves from the standby position to the operating position. The third symbol 154a, which can be recognized from the front side as a whole, is combined with a series of symbols linearly arranged on the upper side to form a series of symbols, thereby enhancing the interest.

ここで、前記第1可動体43を移動する第1連繋機構44において、前記カム溝84における曲率の小さな湾曲部84bを第1作動杆79の第2ローラ体83が案内される際には、第1可動体43は左右方向へ殆ど変位することなく上下方向に略直線的に移動する。すなわち、前記表示部13aの右辺側から作動位置に斜めに移動してくる前記斜動第2可動体88に対し、第1可動体43を干渉することなく作動位置に移動することができると共に、作動位置において斜動第2可動体88と第1可動体43とを近接して位置させることができる。これにより、左右方向に直線的に並んだ第1可動体43と斜動第2可動体88との間が大きく離間して一連で形成される図柄に違和感を与えるのを抑制し得る。   Here, in the first linkage mechanism 44 that moves the first movable body 43, when the second roller body 83 of the first operating rod 79 is guided through the curved portion 84b having a small curvature in the cam groove 84, The first movable body 43 moves substantially linearly in the vertical direction with almost no displacement in the horizontal direction. That is, the first movable body 43 can be moved to the operating position without interfering with the tilting second movable body 88 that moves obliquely from the right side of the display unit 13a to the operating position, and In the operating position, the tilting second movable body 88 and the first movable body 43 can be positioned close to each other. Thereby, it is possible to suppress a sense of discomfort in a series of symbols formed in a series with a large separation between the first movable body 43 and the tilted second movable body 88 that are linearly arranged in the left-right direction.

前記作動位置から待機位置に移動した第1可動体43は、図5に示す如く、図柄表示装置13の表示部13aの上辺中央に位置すると共に、作動位置から待機位置に移動した2つの第2可動体88,89は、表示部13aの右辺側において上下方向に並んで位置する。このとき、表示部13aの上辺に位置する第1可動体43の第1図柄43aと、表示部13aの右辺側に位置する2つの第2可動体88,89の第2図柄88a,89aは、鉤形に並んで、作動位置において形成した一連の図柄と共通する図柄を形成する。すなわち、第1可動体43および第2可動体88,89の待機状態においても、各図柄43a,88a,89aで意味のある図柄を表示することができ、装飾効果を向上し得る。   As shown in FIG. 5, the first movable body 43 that has moved from the operating position to the standby position is located at the center of the upper side of the display unit 13a of the symbol display device 13, and two second movable bodies 43 that have moved from the operating position to the standby position. The movable bodies 88 and 89 are positioned side by side in the vertical direction on the right side of the display unit 13a. At this time, the first symbol 43a of the first movable body 43 located on the upper side of the display unit 13a and the second symbols 88a and 89a of the two second movable bodies 88 and 89 located on the right side of the display unit 13a are: A pattern common to the series of symbols formed at the operating position is formed side by side in the bowl shape. That is, even in the standby state of the first movable body 43 and the second movable bodies 88 and 89, meaningful symbols can be displayed on the symbols 43a, 88a, and 89a, and the decoration effect can be improved.

ここで、前記各可動体43,88,89,154の図柄43a,88a,89a,154aで形成される一連の図柄の構成をより具体的に説明する。例えば、第1図柄43aとして「パチ」、斜動用第2図柄88aとして「ン」、直動用第2図柄89aとして「コ」、第3図柄154aとして「ゲーム」の文字が夫々形成されているとする。この場合は、第1可動体43、斜動第2可動体88および直動第2可動体89の3つの可動体が作動位置に移動することで、前記表示部13aの前側において、左右方向に並んだ「パチンコ」の図柄が一連で形成され、遊技者の興趣を向上することができる。また、左右方向に並んだ3つの可動体43,88,89の下側の作動位置に第3可動体154が移動することで、表示部13aの前側において、上下2段で「パチンコゲーム」の図柄が一連で形成され、遊技者の興趣をより向上し得る。更に、待機位置において第1可動体43が表示部13aの上辺側に位置し、第2可動体88,89が表示部13aの右辺側において上下に並んで位置することで、この待機状態においても、上辺から右辺に亘って「パチンコ」の図柄が一連で形成されて、各可動体43,88,89は個々が意味のない図柄を表示するのみでなく、一連で意味のある図柄を表示しており、第1可動体43、斜動第2可動体88および直動第2可動体89の待機状態での装飾性を高めることができる。   Here, the configuration of a series of symbols formed by the symbols 43a, 88a, 89a, 154a of the movable bodies 43, 88, 89, 154 will be described more specifically. For example, the characters “Pachi” as the first symbol 43a, “N” as the second symbol 88a for tilting, “ko” as the second symbol 89a for linear motion, and “Game” as the third symbol 154a are formed. To do. In this case, the first movable body 43, the tilted second movable body 88, and the linearly movable second movable body 89 move to the operating position, so that the front side of the display unit 13a is moved in the left-right direction. Lined up “Pachinko” symbols are formed in a series, which can improve the interest of the player. Further, by moving the third movable body 154 to the lower operating position of the three movable bodies 43, 88, and 89 arranged in the left-right direction, the “pachinko game” can be played in two steps on the front side of the display unit 13a. A series of symbols is formed, which can further enhance the interest of the player. Further, in the standby position, the first movable body 43 is positioned on the upper side of the display unit 13a, and the second movable bodies 88 and 89 are positioned side by side on the right side of the display unit 13a. A series of “Pachinko” patterns are formed from the upper side to the right side, and each movable body 43, 88, 89 not only displays a meaningless design but also a series of meaningful designs. Thus, the decorativeness of the first movable body 43, the tilted second movable body 88, and the linearly movable second movable body 89 in the standby state can be improved.

(変更例)
本願は前述した実施例の構成に限定されるものではなく、その他の構成を適宜に採用することができる。
(1) 実施例では、遊技盤を木製の板部材から構成したが、アクリル等の透明な材料で形成した透明板から構成したものであってもよい。
(2) 実施例では、第1可動演出装置の可動部材を往復動する機構としてラックアンドピニオン機構を採用したが、リンク機構等、その他の機構を用いることができる。
(3) 実施例では、第1可動演出装置において可動部材に配設した第1可動体を、待機位置では表示部の上辺側において左右方向の中央に位置して作動位置では表示部の左辺側に偏倚して位置するよう構成したが、作動位置で表示部の右辺側に偏倚して位置するよう構成したものであってもよい。また、第1可動体は、待機位置で表示部の上辺側において左右何れかの辺側に偏倚して位置し、作動位置では表示部の左右方向の中央に位置するよう構成してもよい。
(4) 実施例では、第1可動演出装置において可動部材に配設した第1可動体に関し、表示部の上辺側を待機位置としたが、表示部の下辺側を待機位置としてもよく、この場合における表示部に対する待機位置および作動位置の左右方向の関係は、上記(3)の変更例のようにすることが可能である。
(5) 実施例では、第1可動演出装置の第1装置本体部を表示部の左辺側に配置したが、表示部の右辺側に配置する構成を採用し得る。
(6) 実施例では、第1可動演出装置の第1装置本体部に磁石を配設すると共に可動部材に金属板を配設したが、磁石および金属板の配設対象は実施例と逆であってもよく、また両方に磁石を設けたものであってもよい。
(7) 実施例では、第2可動演出装置に配設した2つの第2可動体に関し、一方を上下方向に直線的(垂直)に往復動すると共に、他方を一方の移動方向と交差する斜めに往復動するよう構成したが、2つの第2可動体の移動方向は、平行であってもよい。
(8) 実施例では、第2可動演出装置の第3連繋機構を原位置に向けて付勢する復帰手段として圧縮コイルバネを用いたが、引張りコイルバネやその他各種形式のバネあるいはゴム等の弾性を有する弾性手段を採用し得る。また、実施例のように直動第2可動体の重量が、第3連繋機構を原位置に向けて付勢するよう作用する構成であれば、バネやゴム等の弾性手段を省略して直動第2可動体の重量のみを復帰手段として利用することができる。
(9) 実施例では、第2可動演出装置を、表示部の右辺側に配置したが、表示部の左辺側、上辺側あるいは下辺側に配置する構成を採用し得る。
(10) 実施例では、第2可動演出装置における2つの第2可動体の軌動が一部重なるよう構成したが、2つの第2可動体の軌動が全く重ならない構成を採用することができる。なお、2つの第2可動体の軌動が一部重なる構成では、各第2可動体が待機位置と作動位置との間を移動する際に、両第2可動体が干渉しないように動作すればよく、他方の第2可動体が一方の第2可動体の軌道から離間する位置まで移動した後に、一方の第2可動体が移動を開始するものでなくてもよい。
(11) 実施例では、第2可動演出装置のソレノイドの駆動力を第3伝達部を介して第3連繋機構に間接的に伝えるよう構成したが、ソレノイドのプランジャで第3連繋機構を直接作動するよう構成してもよい。
(12) 実施例では、第2可動演出装置の直動第2可動体を単独で移動する駆動手段としてソレノイドを用いたが、モータを用いることができる。例えば、モータを用いる場合は、該モータで回転されるカムによって第3伝達部を作動したり、あるいは第3連繋機構を直接移動する構成等、第3連繋機構と接離可能な構成であれば、その他の構成を採用し得る。
(13) 実施例では、第1可動体が表示部の上辺の外側で待機し、第2可動体が表示部の右辺の前側に重なった状態で上下に並んで待機するよう構成したが、第1可動体を表示部の上辺の前側に重なった状態で待機したり、第2可動体を表示部の右辺の外側で待機するようにしてもよい。
(14) 実施例では、表示部の右辺側で上下に並ぶ2つの第2可動体の内の下側の第2可動体を右辺に沿って上下方向に直線的に移動したが、上側の第2可動体を右辺に沿って上下方向に直線的に移動し、下側の第2可動体を左斜め上方に移動する構成を採用し得る。
(15) 実施例では、待機位置において表示部の上辺側に第1可動体を位置させると共に、2つの第2可動体を表示部の右辺側に並んで位置させたが、待機位置において第1可動体および第2可動体が位置する辺は交差する2辺であればよく、例えば以下の(a)〜(c)の構成が採用可能である。
(a) 第1可動体を表示部の上辺中央から右辺に偏った作動位置に移動する構成では、第2可動体を表示部の左辺側で上下に並んで配置する。この場合において、左辺に沿って上下方向に直線的に移動する第2可動体は上側のものでも下側のものでもよい。
(b) 第1可動体を表示部の下辺中央から左辺または右辺に偏った作動位置に移動する構成では、第2可動体を表示部の右辺側または左辺側で上下に並んで配置する。この場合における右辺または左辺に沿って上下方向に直線的に移動する一方の第2可動体は上側のものでも下側のものでもよく、他方の第2可動体が、作動位置に至った第1可動体および一方の第2可動体との間に入って左右方向に直線状に並ぶ位置に移動するよう構成すればよい。
(c) 第1可動体を表示部の右辺中央または左辺中央から上辺または下辺に偏った作動位置に移動する構成では、第2可動体を表示部の上辺側または下辺側で左右方向に並んで配置する。この場合における上辺または下辺に沿って左右方向に直線的に移動する一方の第2可動体は右側のものでも左側のものでもよく、他方の第2可動体が、作動位置に至った第1可動体および一方の第2可動体との間に入って上下方向に直線状に並ぶ位置に移動するよう構成すればよい。
(16) 実施例の第2可動演出装置において第2可動体を2つ備えた場合で説明したが、第2可動体は3つ以上であってもよく、待機位置で対応する辺に沿って並んでいた複数の第2可動体の夫々が作動位置に移動することで、第1可動体が待機していた辺に沿って直線状に並ぶように変化するものであればよい。
(17) 実施例では、第1可動体および第2可動体に形成される各図柄として文字を挙げて説明したが、例えばパチンコ機のモチーフとなるキャラクタの図形、その他のものであって、複数の図柄が並ぶことで意味のある一連の図柄を形成するものであればよい。
(18) 遊技機としては、パチンコ機に限られるものではなく、アレンジボール機やパチンコ球を用いたスロットマシン等、その他各種の遊技機であってもよい。
(Example of change)
The present application is not limited to the configuration of the above-described embodiment, and other configurations can be appropriately employed.
(1) In the embodiment, the game board is made of a wooden board member, but it may be made of a transparent board made of a transparent material such as acrylic.
(2) In the embodiment, the rack and pinion mechanism is adopted as the mechanism for reciprocating the movable member of the first movable effect device, but other mechanisms such as a link mechanism can be used.
(3) In the embodiment, the first movable body arranged on the movable member in the first movable effect device is positioned at the center in the left-right direction on the upper side of the display unit at the standby position and on the left side of the display unit at the operating position. However, it may be configured to be biased and positioned on the right side of the display unit at the operating position. Further, the first movable body may be configured to be biased and positioned on either the left or right side on the upper side of the display unit at the standby position, and to be positioned at the center in the left-right direction of the display unit at the operating position.
(4) In the embodiment, regarding the first movable body arranged on the movable member in the first movable effect device, the upper side of the display unit is set as the standby position, but the lower side of the display unit may be set as the standby position. In this case, the horizontal relationship between the standby position and the operating position with respect to the display unit can be as in the modified example (3).
(5) In the embodiment, the first device main body of the first movable effect device is arranged on the left side of the display unit. However, a configuration of arranging the first device main unit on the right side of the display unit may be adopted.
(6) In the embodiment, the magnet is disposed on the first device main body of the first movable effect device and the metal plate is disposed on the movable member. However, the objects to be disposed of the magnet and the metal plate are opposite to those of the embodiment. It may be provided, or both may be provided with magnets.
(7) In the embodiment, regarding the two second movable bodies arranged in the second movable effect device, one of them is reciprocated linearly (vertically) in the vertical direction, and the other is diagonally intersecting with the one movement direction. However, the moving directions of the two second movable bodies may be parallel to each other.
(8) In the embodiment, the compression coil spring is used as the return means for urging the third linkage mechanism of the second movable effect device toward the original position, but the elasticity of the tension coil spring, various types of springs, rubber, etc. is used. It is possible to adopt an elastic means having. Further, if the weight of the linearly movable second movable body acts so as to bias the third linkage mechanism toward the original position as in the embodiment, the elastic means such as a spring and rubber are omitted. Only the weight of the movable second movable body can be used as the return means.
(9) In the embodiment, the second movable effect device is arranged on the right side of the display unit. However, a configuration in which the second movable effect device is arranged on the left side, the upper side, or the lower side of the display unit may be adopted.
(10) In the embodiment, the trajectories of the two second movable bodies in the second movable effect device are configured to partially overlap. However, it is possible to employ a configuration in which the trajectories of the two second movable bodies do not overlap at all. it can. In the configuration in which the trajectories of the two second movable bodies partially overlap, when the second movable bodies move between the standby position and the operating position, the second movable bodies are operated so as not to interfere with each other. What is necessary is that the second movable body does not have to start moving after the other second movable body moves to a position away from the track of the one second movable body.
(11) In the embodiment, the driving force of the solenoid of the second movable effect device is configured to be indirectly transmitted to the third linkage mechanism via the third transmission portion, but the third linkage mechanism is directly operated by the solenoid plunger. You may comprise.
(12) In the embodiment, the solenoid is used as the driving means for moving the linearly movable second movable body of the second movable effect device alone, but a motor can be used. For example, in the case of using a motor, any configuration that can be connected to and separated from the third linkage mechanism, such as a configuration in which the third transmission unit is operated by a cam rotated by the motor or the third linkage mechanism is moved directly, is used. Other configurations may be employed.
(13) In the embodiment, the first movable body waits outside the upper side of the display unit, and the second movable body waits side by side in a state where it overlaps the front side of the right side of the display unit. The first movable body may wait in a state where it overlaps the front side of the upper side of the display unit, or the second movable body may wait on the outer side of the right side of the display unit.
(14) In the embodiment, the lower second movable body among the two second movable bodies arranged vertically on the right side of the display unit is linearly moved in the vertical direction along the right side. It is possible to adopt a configuration in which the two movable bodies are linearly moved in the vertical direction along the right side, and the lower second movable body is moved obliquely upward to the left.
(15) In the embodiment, the first movable body is positioned on the upper side of the display unit at the standby position and the two second movable bodies are positioned side by side on the right side of the display unit. The side on which the movable body and the second movable body are located may be two sides that intersect, and for example, the following configurations (a) to (c) can be employed.
(a) In the configuration in which the first movable body is moved from the center of the upper side of the display unit to the operating position biased to the right side, the second movable body is arranged side by side on the left side of the display unit. In this case, the second movable body that moves linearly in the vertical direction along the left side may be an upper one or a lower one.
(b) In the configuration in which the first movable body is moved from the center of the lower side of the display unit to the operating position biased to the left side or the right side, the second movable body is arranged vertically on the right side or the left side of the display unit. In this case, one of the second movable bodies moving linearly in the vertical direction along the right side or the left side may be the upper one or the lower one, and the other second movable body is the first one that has reached the operating position. What is necessary is just to comprise so that it may enter between a movable body and one 2nd movable body, and may move to the position located in a line in the left-right direction.
(c) In the configuration in which the first movable body is moved to the operation position biased from the center of the right side or the left side of the display unit toward the upper side or the lower side, the second movable body is arranged in the left-right direction on the upper side or the lower side of the display unit. Deploy. In this case, one of the second movable bodies moving linearly in the left-right direction along the upper side or the lower side may be the right one or the left one, and the other second movable body is the first movable body that has reached the operating position. What is necessary is just to comprise so that it may enter between a body and one 2nd movable body, and may move to the position located in a line in the up-down direction.
(16) In the second movable effect device according to the embodiment, the case where two second movable bodies are provided has been described. However, the number of the second movable bodies may be three or more, along the corresponding side at the standby position. Any one of the plurality of second movable bodies arranged side by side moves to the operating position, so long as the first movable body changes so as to be arranged in a straight line along the side on which the first movable body is waiting.
(17) In the embodiment, the description has been given by using characters as the symbols formed on the first movable body and the second movable body, but for example, a figure of a character that becomes a motif of a pachinko machine, and the like, As long as the symbols are arranged, a meaningful series of symbols may be formed.
(18) The gaming machine is not limited to a pachinko machine, and may be various other gaming machines such as an arrangement ball machine or a slot machine using a pachinko ball.

本願発明は、以下に示す構成に限定することができる。
(付記1)
請求項2または3記載の遊技機において、
前記外受部(58)は、上下方向の一端部が、装置本体部(47)に設けた係合部(45b)に係合して位置決めされると共に、上下方向の他端部が、装置本体部(47)に対して着脱可能に固定された固定部材(62)で保持されている。
付記1に係る発明によれば、中受部が移動する領域においてネジ等の固定手段による固定部分を設けたり、該固定手段と干渉しない構成を採用する必要がない。
This invention can be limited to the structure shown below.
(Appendix 1)
In the gaming machine according to claim 2 or 3,
The outer receiving portion (58) is positioned by engaging one end portion in the vertical direction with an engaging portion (45b) provided in the device main body portion (47) and the other end portion in the vertical direction. It is held by a fixing member (62) that is detachably fixed to the main body (47).
According to the invention according to Supplementary Note 1, it is not necessary to provide a fixing portion by a fixing means such as a screw or to adopt a configuration that does not interfere with the fixing means in the region where the intermediate receiving portion moves.

(付記2)
請求項1〜5または付記1の何れか一項に記載の遊技機において、
前記腕部(53)は、前支持部(55)と後支持部(56)とを備え、両支持部(55,56)の間に、可動連結部材(78)が左右方向に移動可能に支持されると共に、前支持部(55)には前後方向に貫通する長孔(55a)が左右方向に延在するよう形成され、
前記前支持部(55)の前側に位置する前記可動体(43)は、該可動体(43)に設けた突部(75)が該前支持部(55)の長孔(55a)に左右方向に移動可能に挿通されると共に、前記可動連結部材(78)に形成した前後方向に貫通する通孔(78a)に後側から挿通したネジ(80)を、前記突部(75)に設けたネジ孔(75a)に螺挿することで、可動連結部材(78)と可動体(43)とが着脱可能に固定され、
前記後支持部(56)には、前記可動体(43)が左右方向の所定位置に位置した際に前記通孔(78a)の後側に整列する孔(56a)が設けられている。
付記2に係る発明によれば、後支持部の孔を介して可動連結部材と可動体とを固定するネジを着脱し得るから、腕部を分解することなく可動体の着脱を行ない得る。
(Appendix 2)
In the gaming machine according to any one of claims 1 to 5 or appendix 1,
The arm part (53) includes a front support part (55) and a rear support part (56), and a movable connecting member (78) is movable in the left-right direction between the support parts (55, 56). While being supported, a long hole (55a) penetrating in the front-rear direction is formed in the front support part (55) so as to extend in the left-right direction,
The movable body (43) located on the front side of the front support portion (55) has a protrusion (75) provided on the movable body (43), which The protrusion (75) is provided with a screw (80) inserted through the through-hole (78a) penetrating in the front-rear direction formed in the movable connecting member (78) from the rear side. The movable connecting member (78) and the movable body (43) are detachably fixed by being screwed into the screw holes (75a),
The rear support portion (56) is provided with a hole (56a) aligned with the rear side of the through hole (78a) when the movable body (43) is positioned at a predetermined position in the left-right direction.
According to the second aspect of the present invention, since the screw for fixing the movable connecting member and the movable body can be attached / detached through the hole of the rear support portion, the movable body can be attached / detached without disassembling the arm portion.

(付記3)
請求項1〜5または付記1,2の何れか一項に記載の遊技機において、
前記装置本体部(47)には、上側の待機位置に臨む前記可動部材(41)の腕部(53)の前側に、該腕部(53)の前方への移動を規制する規制部材(48)が設けられている。
付記3に係る発明によれば、可動部材の待機位置において可動体が前側に変位して前側に位置する部材と干渉するのを防止し得る。
(Appendix 3)
In the gaming machine according to any one of claims 1 to 5 or appendices 1 and 2,
The device main body (47) includes a regulating member (48) that regulates the forward movement of the arm (53) on the front side of the arm (53) of the movable member (41) facing the upper standby position. ) Is provided.
According to the third aspect of the invention, it is possible to prevent the movable body from being displaced forward and interfering with a member located on the front side at the standby position of the movable member.

37 第1可動演出装置(可動演出装置)
41 可動部材
42 第1駆動部(駆動部)
43 第1可動体(可動体)
44 第1連繋機構(連繋機構)
47 第1装置本体部(装置本体部)
49 磁石(磁力吸着部材)
51 転がり軸受
52 可動基部
53 腕部
54 金属片(被磁力吸着部材)
58 外受部
59 内受部
60 転動体
61 中受部
64 第1モータ(モータ)
67 ピニオン
68 ラック
37 First movable effect device (movable effect device)
41 Movable member 42 1st drive part (drive part)
43 1st movable body (movable body)
44 First linkage mechanism (linkage mechanism)
47 1st device body (device body)
49 Magnet (Magnetic adsorption member)
51 Rolling bearing 52 Movable base 53 Arm 54 Metal piece (member to be magnetized)
58 Outer receiving portion 59 Inner receiving portion 60 Rolling element 61 Intermediate receiving portion 64 First motor (motor)
67 pinions 68 racks

Claims (5)

可動部材の動作により演出を行なう可動演出装置を備えた遊技機において、
前記可動演出装置は、
装置本体部と、
前記装置本体部に設けられ、前記可動部材を該装置本体部に対して上下方向に往復動可能に支持する転がり軸受と、
前記可動部材に連繋され、該可動部材を上下方向に往復動する駆動部と、
前記可動部材に設けられて側方に延在する腕部に左右方向に移動可能に配設された可動体と、
前記可動体と前記可動部材とに連繋され、該可動部材の上下動に伴って可動体を左右方向に変位させる連繋機構とを備えた
ことを特徴とする遊技機。
In a gaming machine equipped with a movable effect device that produces an effect by the operation of a movable member,
The movable effect device is:
The device body,
A rolling bearing that is provided in the apparatus main body and supports the movable member so as to reciprocate in the vertical direction with respect to the apparatus main body;
A drive unit connected to the movable member and reciprocating the movable member in the vertical direction;
A movable body provided on the movable member and arranged to move laterally on an arm portion extending laterally;
A gaming machine comprising: a linking mechanism that is linked to the movable body and the movable member, and that displaces the movable body in the left-right direction as the movable member moves up and down.
前記転がり軸受は、前記装置本体部に対して固定された外受部と、前記可動部材に対して固定された内受部と、外受部と内受部との間に位置し、該外受部および内受部に接触する複数の転動体を上下方向に離間して転動可能に保持する中受部とを有し、前記外受部に対して中受部が前記転動体によって上下方向に往復動可能に支持されると共に、前記中受部に対して内受部が前記転動体によって上下方向に往復動可能に支持される請求項1記載の遊技機。   The rolling bearing is positioned between an outer receiving portion fixed to the apparatus main body, an inner receiving portion fixed to the movable member, and the outer receiving portion and the inner receiving portion. A plurality of rolling elements that are in contact with the receiving part and the inner receiving part, and a middle receiving part that holds the rolling elements apart in the vertical direction so that the rolling elements can roll. The intermediate receiving part is vertically moved by the rolling elements with respect to the outer receiving part. The gaming machine according to claim 1, wherein the game machine is supported so as to be capable of reciprocating in a direction, and an inner receiving part is supported so as to be capable of reciprocating in the vertical direction by the rolling elements with respect to the middle receiving part. 前記可動部材は、上下方向に延在する可動基部と、該可動基部の上端部から側方に延出する前記腕部とを有し、前記可動基部に前記内受部が固定されると共に、前記中受部には、内受部の左右両側に、前記外受部および内受部に接触する複数の前記転動体が上下方向に離間して転動可能に保持される請求項2記載の遊技機。   The movable member has a movable base portion extending in the vertical direction and the arm portion extending laterally from an upper end portion of the movable base portion, and the inner receiving portion is fixed to the movable base portion, The plurality of rolling elements that are in contact with the outer receiving portion and the inner receiving portion are held in the middle receiving portion so as to be capable of rolling apart in the vertical direction on both left and right sides of the inner receiving portion. Gaming machine. 前記可動部材の上端部と、前記装置本体部における可動部材の上端部に上側で対向する部位との何れか一方に磁力吸着部材が設けられると共に他方に被磁力吸着部材が設けられ、前記可動部材の上側の待機位置において磁力吸着部材が被磁力吸着部材を磁力吸着するよう構成した請求項1〜3の何れか一項に記載の遊技機。   A magnetic force adsorbing member is provided at one of the upper end portion of the movable member and a portion facing the upper end portion of the movable member in the apparatus main body portion at the upper side, and a magnetically attracted member is provided at the other, and the movable member The gaming machine according to any one of claims 1 to 3, wherein the magnetic force adsorbing member is configured to magnetically adsorb the magnetically attracted member at the standby position on the upper side. 前記駆動部は、前記装置本体部における前記転がり軸受を挟んで前記可動部材における前記腕部の延在側とは反対側に設けられたモータと、前記可動部材におけるモータ側の側部に設けられたラックと、該ラックと噛合して前記モータにより回転駆動されるピニオンとを有する請求項1〜4の何れか一項に記載の遊技機。   The drive unit is provided on a motor provided on a side opposite to the extending side of the arm part in the movable member across the rolling bearing in the apparatus main body part, and on a motor side side of the movable member. The gaming machine according to any one of claims 1 to 4, further comprising a rack and a pinion that meshes with the rack and is rotationally driven by the motor.
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