200843827 九、發明說明 【發明所屬之.技術領域】 本發明係關於在遊戲區域內使物體運動的遊戲機。 【先前技術】 公知有例如,藉由玩家投入所謂代幣之遊藝媒體,執 行所定遊戲的遊戲機(例如,參照專利文獻1 )。在如此 之遊戲機,使遊藝媒體及抽選用媒體等之物體,在遊戲區 域內物理性移動,藉此執行遊戲。 [專利文獻1]日本特開2005 — 224326號公報 【發明內容】 [發明所欲解決之課題] 在利用物體之物理性移動的遊戲機,因爲藉由物體的 動作,遊戲內容會被左右,故因爲遊戲機之零件的組裝 等,在每台遊戲機產生些微之差時,有得獎率不同之虞。 爲此,有每台遊戲機的利益回收率會有偏差之虞。 在此,本發明的目的係提供可使每台遊戲機之得獎率 平均化的遊戲機。 [用以解決課題之手段] 本發明之一樣態的遊戲機,係具備:遊戲盤面,係妨 礙物體之移動的障壁設置於外周,利用前述物體的物理性 動作,可使得獎的機會重覆產生;排出調整手段,係從設 -4- 200843827 置於前述障壁之一部份的排出口,調整前述物體的排出; 及排出控制手段,係使前述排出調整手段動作,控制前述 物體之排出的難易度。藉此解決前述課題。 依據本發明的遊戲機,因爲在遊戲盤面內,重覆產生 得獎的機會,物體之在遊戲盤面內的存在機率越提高則得 獎之機會的產生次數越增加。利用控制來自物體之排出口 的排出難易度,可調整在遊戲盤面內之物體存在的時間。 遊戲機整體的得獎率較高時係控制爲物體較易被排出,得 獎率較低時係控制爲物體較難被排出,藉此可調整遊戲機 的得獎率。藉此,可使每台遊戲機的得獎率平均化。 於本發明之遊戲機的一樣態中,前述排出調整手段, 係變更前述排出口的寬度亦可。依據此樣態,利用變更排 出口的寬度,可調整物體的排出難易度。 於變更排出口的寬度之遊戲機的一樣態中,前述排出 調整手段,係爲可動構件亦可。依據此樣態,藉由可動構 件動作而變更排出口的寬度。藉此,可調整物體的排出難 易度。 於設置可動構件之遊戲機的一樣態中,於前述排出口 具備複數前述可動構件;前述排出控制手段,係前述複數 可動構件分別相互獨立,以出沒於前述物體的移動面之方 式控制亦可。依據此樣態’因爲設置於排出口之複數可動 構件係獨立出沒,可細微地調整排出口的寬度。藉此,可 進行在遊戲機整體之得獎率的微調整。所以,可提升遊戲 的僥倖心理性。 200843827 於設置可動構件之遊戲機的一樣態中’前述排出控制 手段,係依據對前述可動構件之前述物體的接觸’以前述 可動構件陷沒於前述移動面之方式控制亦可。依據此樣 態,例如進行第1次係可動構件反彈物體而持續在遊戲盤 面內之遊戲,在第2次物體移動至排出口時’可動構件陷 沒而排出物體之依據物體的接觸之可動構件的控制。藉 此,可提高遊戲的有趣性。 於設置可動構件之遊戲機的一樣態中,前述排出控制 手段,係依據前述可動構件出現於前述移動面的時間,以 前述可動構件陷沒於前述移動面之方式控制亦可。依據此 樣態,因爲依據可動構件的出現時間而可動構件陷沒,故 控制物體留在遊戲盤面一定時間。藉此,可提升一定時間 的得獎率,可提高遊戲的僥倖心理性。 [發明之效果] 如以上說明,依據本發明的遊戲機,因爲在遊戲盤面 內’重覆產生得獎的機會,物體之在遊戲盤面內的存在機 率越提高則得獎之機會的產生次數越增加。利用控制來自 物體之排出口的排出難易度,可調整在遊戲盤面內之物體 存在的時間。遊戲機整體的得獎率較高時係控制爲物體較 易被排出’得獎率較低時係控制爲物體較難被排出,藉此 可調整遊戲機的得獎率。藉此,可一邊提升遊戲的僥倖心 理性’一邊使每台遊戲機的得獎率平均化。 200843827 【實施方式】 分別於圖1揭示關於本發明一形態之遊戲機的俯瞰 圖,於圖2揭示執行遊戲之遊玩場域的俯視圖。圖1係便 利說明’省略遊戲機G之上部及側面部之一部份。遊戲機 G的遊玩場域係藉由以透明板等的間隔壁圍繞包圍,而對 於外部形成屏蔽。遊戲機G係作爲遊藝媒體利用代幣,亦 即所謂代幣遊戲機。遊戲機G係具有中央單元CN及4台 遊戲站單元ST。遊戲站單元ST係包夾中央單元CN,於 兩側並排配置各兩台。在遊戲站單元S T,係分別執行利 用代幣的所謂推幣遊戲及與該推幣遊戲建立關聯的數位抽 選遊戲。在中央單元CN,係與遊戲站單元ST之遊戲的遊 戲結果建立關聯而執行獎金遊戲。 遊戲站單元S T係具備:執行推幣遊戲之推幣場域部 PF ;排出代幣至該推幣場域部Pf的代幣投入部1 ;因應 推幣遊戲的結果,對玩家支付代幣的代幣支付口 2 ;在獎 金遊戲使用之操作按鍵3 ;作爲因應推幣遊戲的結果,將 代幣供給至推幣場域部PF之獎賞供給手段的代幣供給部 4 ;因應數位抽選遊戲的結果,將作爲抽選用媒體的球, 供給至推幣場域部PF的球供給部5 ;及顯示數位抽選遊 戲等的顯示部6。推幣場域部P F係具備貯留代幣的台盤7 及推幣台盤8。於台盤7及推幣台盤8係鋪上聚積般地貯 留有硬幣。推幣台盤8係前後(玩家所位於之側作爲前 方’以下相同)往返運動於台盤7上。代幣投入部1係具 有玩家投入代幣之代幣投入口 1 a及引導代幣,使被投入 200843827 之代幣供給至推幣台盤8的軌道1 b。代幣投入部1係可自 由旋動地設至於遊戲機,使玩家可適切選擇代幣的射出方 向。代幣投入部1係因爲在遊戲站單元S T各設置兩台, 故在1台之遊戲站單元ST可進行兩人爲止的玩家所致之 遊玩動作。代幣供給部4係具有設置於上部之作爲供給裝 置的斗4a (參照圖1 5 )及作爲承受獎賞構件的代幣承受 構件4b。從斗4a支付代幣時,代幣係落下至代幣承受構 件4b,被供給至推幣場域部pF。又,顯示部6係反射 鏡,反射顯示於設置於其上方之液晶顯示器裝置的畫面, 對玩家顯示。此時,可使液晶顯示器裝置與相反側的遊戲 站單元S T共有。再者,顯示部6係例如液晶顯示器裝置 等的顯示裝置亦可。 圖3係揭示推幣場域部PF的立體圖。於推幣台盤8 的前方係連續於推幣台盤8的代幣貯留面8 a,設置有傾斜 部1 1。於傾斜部1 1係設置有檢測代幣Μ之通過的複數機 會檢查器1 2。各機會檢查器1 2係分別具有因應代幣Μ的 檢測’點燈或消燈的燈1 2a。於台盤7的前方係連續於台 盤7的代幣貯留面7a,設置有傾斜部1 3。於傾斜部1 3係 具備檢測代幣Μ之進入的起始檢查器1 4及設置於起始檢 查器1 4的兩側’將代幣Μ引導至起始檢查器1 4之一對的 鰭桿(flipper ) 15。起始檢查器14係檢測設置於傾斜部 1 3之開口部14 a的代幣Μ之進入。一對的鰭桿1 5係因應 推幣遊戲及數位抽選遊戲的結果而開閉,使起始檢查器1 4 之代幣Μ的進入的難易度變化。再者,對於機會檢查器 -8- 200843827 1 2及起始檢查器i 4之代幣Μ的檢測,利用光電感測器等 之公知的感測器技術亦可。 接著’說明推幣場域部P F中代幣Μ之流程的槪略。 藉由玩家將代幣Μ投入至代幣投入口 1 a時,代幣Μ係被 引導至軌道lb,落下至推幣台盤8之代幣貯留面7a並貯 留於其’或者從推幣台盤8滾落至台盤7。貯留在推幣台 盤8上的代幣Μ群是藉由推幣台盤8的往返移動,與壁部 1 6接觸而被推進至前方,藉此從推幣台盤8的前端推出代 幣Μ,該被推出的代幣μ滑落傾斜部1 1,通過任一機會 檢查器12而移動至台盤7,並貯留在此處。 各機會檢查器1 2係分別設定代幣Μ的通過時所執行 之遊戲內容’藉由燈1 2a可使玩家認知地顯示。藉由機會 檢查器12的設定,鰭桿1 5會進行開閉。貯留於台盤7上 之代幣Μ群係藉由推幣台盤8的往返運動而被推進至前 方’從台盤7的前端,代幣Μ被推出,滑落傾斜部1 3而 落下。落下之代幣Μ係經由未圖示之計數斗,從代幣支付 口 2支付給玩家。 從台盤7的前端被推出之代幣Μ進入起始檢查器1 4 而被檢測出時,則開始數位抽選遊戲。數位抽選遊戲係一 種競爭在顯示部6上排列成橫向一列所顯示的3個圖案 (構圖、記號、數字等)的組合是否與所定中選獎項一致 的吃角子老虎遊戲。數位抽選遊戲係因應檢測出代幣Μ的 機會檢查器1 2之設定,與機會檢查器1 2連動,使抽選的 條件變更。又,於數位抽選遊戲中進行與鰭桿1 5連動之 200843827 表演亦可。抽選的結果,形成所定中選獎項而對玩家產生 獎賞時,其獎賞係從設置於顯示部6之上部的支付部1 7 被支付。被支付之代幣Μ係滾落顯示部6上,而落下至推 幣台盤8上。 作爲該數位抽選遊戲的中選獎項之一係準備有 「球」。例如,在球的構圖備齊3個時則當選「球」之獎 項。當選該獎項時,球Β1從球供給部5被供給至台盤 7。該球Β 1係例如以樹脂等形成。以複數顏色來區分亦 可 ° 被供給至台盤7上的球Β 1係藉由推幣台盤8的往返 移動,和代幣Μ同時朝台盤7的前方緩緩地被推出。球 Β 1從台盤7的前端落下時,該落下之球Β1係滾落傾斜部 1 3。滾落之球Β 1係藉由未圖示之檢測部檢測出,將所定 獎賞賦予玩家。其獎賞係從支付部17被支付。再者,檢 測部係利用各種光電感測器、近接感測器之公知的技術亦 可。該滾落之球Β 1係依據檢測結果而被計數,達到所定 數量時,則開始在中央單元CN之獎金遊戲。滾落之球Β 1 進入起始檢查器1 4時,開始獎金遊戲亦可。又,作爲數 位抽選遊戲的中選獎項之一係準備有「直接獎金遊戲」亦 可。例如,在字母之D的文字備齊3個時則當選「直接獎 金遊戲」之獎項。在當選該獎項時,在中央單元CN開始 獎金遊戲。 於圖4揭示中央單元CN的立體圖。中央單元CN係 具備作爲第1遊戲區域的獎金場域部BF、.作爲第2遊戲 -10- 200843827 區域的機會場域部c F。獎金場域部B F係執行獎金遊戲。 機會場域部CF係在圖示之例,對遊戲機G設置兩個’執 行與獎金遊戲的結果建立關聯之機會遊戲。在中央單元 CN,作爲物體利用球B2。球B2係以金屬形成。再者,因 爲各機會場域部CF係相同構造,在圖4僅揭示1個來說 明。 於獎金場域部BF係設置有投入球B2的球投入部 2 1 ;作爲藉由從球投入部2 1投入之球B2的物理性動作, 可產生得獎之機會的遊戲區域之獎金遊戲區域A1;從獎 金遊戲區域A1排出球B2而貯留之外側區帶A2 ;將球B2 從獎金場域部BF搬運至機會場域部CF的球搬運機構 22 ° 於圖5揭示球投入部21的詳細圖。球投入部21係具 備將球B2朝獎金遊戲區域A1發射的發射部3 1 ;及將發 射之球B2引導至獎金遊戲區域A1的軌道32。發射部31 係具備推出球B2的推頂構件33 ;及驅動推頂構件22的 電磁閥3 4。推頂構件3 3係Π字形狀,一方的端部係推出 球B2並發射。於推頂構件33之下側的屈曲部,設置有固 定於遊戲機G之軸3 3 a,藉由連結於另一方之電磁閥3 4 的動作,驅動推頂構件3 3,另一方的端部推出球B2。電 磁閥3 4係藉由內藏之電磁閥線圈的激勵及其激勵的解 除,使鐵心3 4 a往返驅動於上下方向。鐵心3 4 a係連結於 推頂構件3 3之另一方的端部。軌道3 2係具備軌道底3 5 ; 及於軌道底3 5兩側,分別對於軌道底3 5垂直形成之一對 -11 - 200843827 的軌道側板3 6 a、3 6b。藉由軌道底3 5、軌道側板3 6a 3 6b,形成球B 2的移動路徑。於軌道側板3 6b之一部份 設置供給用以發射之球B2的開口 36b 1。 的 球 圍 具 設 以 於 狀 應 例 球 作 顯 之 4 2 爲 上 開 段 5 5 於獎金遊戲區域A 1係設置作爲硏鉢狀之遊戲盤面 獎金遊戲盤面41;設置於獎金遊戲盤面41’作爲反彈 B2之第1遊戲手段或抽選機構的減震器42 ;及作爲包 獎金遊戲盤面41之外週的護欄43。獎金遊戲盤面41係 有設置於中央,旋轉驅動的旋轉盤4 1 a (參照圖2 )及 置於旋轉盤4 1 a周圍的複數凸部4 1 b。。旋轉盤4 1 a係 所定旋轉速度旋轉,使接觸之球B2的移動方向變化。 旋轉盤4 1 a的表面設置堤防亦可。例如,利用設置S字 的堤防4 1 c,接觸旋轉盤4 1 a之球B2的移動方向係因 旋轉盤4 1 a之旋轉的時機而變化。凸部4 1 b係在圖示之 設置有4個,爲半橢圓體形狀。凸部41 b係使接觸之 B2的移動方向變化。 減震器42係所謂被稱爲thumper bumper者,具備 爲檢測接觸之球B2之物體檢測裝置的球檢測部42a; 示已檢測出球B2的燈42b。於圖6揭示球檢測部42a 內部機構的詳細圖。球檢測部42a係具備:涵蓋減震器 之上下方向的桿5 1 ;設置於桿5 1之上部的支座52 ;作 支持桿4 1之彈簧的桿支持彈簧5 3 ;作爲對於減震器42 下滑動,將再往下滑動時所接觸之球B2,往外方向彈 之推頂構件的推頂板5 4 ;作爲驅動推頂板5 4之驅動手 的電磁閥55 ;上端固定於推頂板54,下端貫通電磁閥 -12- 200843827 內,在電磁閥5 5是通電狀態時,藉尤其吸引力來下降的 鐵心棒5 6 ;在電磁閥是非通電狀態時,使鐵心棒5 6上升 的彈簧5 7 ; —方的端部對於減震器42固定的搖桿5 8 ;及 作爲檢測搖桿5 8的變位之檢測部的減震器感測器5 9。桿 5 1係藉由桿支持彈簧5 3可搖動地被支持。支座5 2係圓盤 形狀,固定於桿5 1,可與桿5 1 —起搖動。支座52的上面 係越往減震器4 2的中心越高地傾斜。推頂板5 4的下面係 越往減震器4 2的中心越低地傾斜。亦即,支座5 2及推頂 板5 4的間隔係越向減震器4 2的中心越狹小。搖桿5 8係 具有作爲硏鉢形狀之中央部的搖桿中央部58a;固定一方 的端部,可搖動地支持部搖桿中央部 5 8 a的機械臂部 5 8 b ;及設置於另一方之端部的被檢測部5 8 c。搖桿中央部 5 8a係與桿5 1的端部接觸。減震器感測器59係檢測出被 檢測部5 8 c的變位。於圖7揭示減震器感測器5 9的立體 圖。減震器感測器5 9係利用各種反射型及透過型的光電 感測器。通常檢查光被遮住,但是,被檢測部5 8 c往下側 移動時則成爲非遮光狀態,輸出檢測被檢測部5 8 c之變位 的訊號。燈42b係依據來自減震器感測器59的檢測訊號 之輸出,點燈或消燈。藉此,球B 2的接觸對於玩家顯 示。 護欄43係防止球B2之從獎金遊戲區域A1的脫離, 設置於獎金遊戲盤面4 1之外周的一部份。護欄43係以樹 脂或橡膠、金屬等形成,反彈衝突之球B 2。再者,護欄 43係除了會反彈之牆壁之外,例如作爲傾斜較急之斜面亦 -13- 200843827 可。球B 2即使朝往外側,亦會利用重力加速而再次回到 中心側。護欄43係只要爲求球B2會再次回到獎金遊戲盤 面4 1的中心側之構造,作爲任一構造皆可。 外側區帶A2係鄰接獎金遊戲盤面4 1的外周而設置。 在圖示之例,係挾持獎金遊戲盤面41之中心而於兩側各 設置1個。於外側區帶A2係設置有可出沒於外側區帶 A2,作爲防止來自獎金遊戲區域A 1之球B 2之排出的排 出調整手段的外側阻擋器6 1 ;及貯留被排出之球的球貯留 部62。於圖8揭示外側阻擋器61的詳細圖。在圖示之 例,設置有4個外側阻擋器6 1。外側阻擋器61的個數係 不限於此,依據外側區帶A2之區域的大小來適切設置即 可。外側阻擋器6 1係設置於與獎金遊戲區域A 1之邊境附 近。外側阻擋器6 1係具備作爲妨礙球B2之排出的可動構 件之阻擋板63 ;驅動阻擋板的電磁閥64 ;連結阻擋板63 及電磁閥64的連結構件65 ;及檢測出球B2衝突阻擋板 63的阻擋感測器66。阻擋板63係設置於未設置護欄43 之排出口 63a,對於外側區帶A2之球移動面,出沒於上 下方向。電磁閥64係與球投入部21的電磁閥34相同構 造,往返驅動鐵心64a。於本實施例中,各個阻擋板63係 藉由未圖示之彈簧,時常被彈撥至沒入方向,在電磁閥64 未被通電時,藉由彈簧力,沒入至球移動面下。在電磁閥 64被通電時,抵抗彈簧力,出現於球移動面上。連結構件 6 5係以未圖示之軸爲中心,可自由旋動,其兩端與阻檔板 63及鐵心64a連結。該軸係共通於各外側阻擋器61而設 -14- 200843827 置。藉由電磁閥64的通電、非通電而驅動鐵心64a時, 連結構件65會連動而以軸爲中心旋動。藉此,阻擋板63 會被驅動而出沒於上下方向。阻擋感測器66係極限開 關,檢測出球B2衝突阻擋板63。再者,阻擋感測器66 係利用各種感測器、開關等之公知的技術亦可。球貯留部 62係藉由外側阻擋器6 3陷沒,貯留移動未被妨礙而通過 的球B2。如圖5所示,鄰接於球投入部21而設置球貯留 部62。構成球貯留部62,使貯留之球B2被導引至球投入 部21之軌道32的開口部36b 1。 圖9及圖1 0係揭不球搬運機構2 2的詳細圖。圖9係 從正面右前方觀看球搬運機構之圖,圖1 0係從正面右後 方觀看球搬運機構之圖。球搬運機構22係鄰接獎金遊戲 盤面41的外周而設置。球搬運機構22係具備球B2可落 下之落下洞71 ;將落下之球B2搬運至機會場域部CF的 搬運棒7 2 ;及於上下方向驅動搬運棒7 2的直線驅動機構 73。落下洞7 1係設置於與獎金遊戲盤面4 1之球移動連續 之面,從獎金遊戲區域A1移動來之球B2可落下於其。落 下洞7 1係具有檢測球B 2落下之未圖示的落下感測器。落 下感測器係例如利用光電感測器等之公知的感測器技術亦 可。搬運棒7 2係驅動於落下洞,出沒於落下洞71。搬運 棒7 2係位於較落下洞7 2下側,等待落下之球B 2,依據 落下感測器之檢測訊號的輸出,驅動於上方向,將球B2 搬運至機會場域部CF。搬運棒72之球搬運面72a (參照 圖4 )係低於機會場域部CF側地斜面切斷。球B2係藉由 -15- 200843827 被沿著搬運棒7 2設置於機會場域部c F側的球支持構件 72b (參照圖4 )支持,安定地載置於球搬運面72a並被搬 運。直線驅動機構7 3係具備固定於上下方向之軌道7 3 a ; 可沿著軌道73a移動的滑件73b ;及驅動滑件73b的電動 機73c。電動機73c係利用各種市販的電動機亦可。又, 直線驅動機構7 3係適用線性致動器或線性馬達亦可。於 滑件7 3 b固定搬運棒7 2,藉由電動機7 3 c的動作,滑件 7 3 b沿著軌道7 3 a移動,驅動搬運棒7 2。 回到圖4,說明機會場域部c F的構造。機會場域部 C F係具備作爲可旋轉之第2遊戲手段的機會遊戲盤面81 及設置於機會遊戲盤面81之中央附近的複數抽選洞8 2。 機會遊戲盤面81係形成爲越向中央越低的斜面,藉由未 圖示之電動機等旋轉驅動。抽選洞8 2係球B 2可落下於其 之大小的洞,具有檢測落下之球B2的抽選洞感測器 82a。抽選洞感測器82a係例如利用光電感測器等之各種 公知的感測器技術亦可。因應球B 2落下之抽選洞8 2的設 定,遊戲內容會產生變化。 接著,說明中央單元CH中球B2之流程的槪略。開 始獎金遊戲時,球B2從球貯留部62被供給至球投入部 2 1。藉由玩家按下操作按鍵3時,球B2藉由發射部3 1發 射至獎金遊戲區域A 1。被發射之球B2係一邊在獎金遊戲 盤面4 1內接觸旋轉盤4 1 a及凸部4 1 b而使移動方向變 化,一邊重覆接觸及衝突減震器42及護欄43。球B2接 觸減震器42時,則產生對玩家的獎賞。所定枚數的代幣 -16 - 200843827 Μ會從代幣供給部4供給至台盤7。在獎金遊戲區域A1, 球B2可複數次接觸減震器42。 在獎金遊戲開始時,所定個數之外側阻擋器6 1的阻 擋板6 3出現於外側區帶A 2,防止球B 2的排出。球B 2接 觸阻擋板6 3時,阻擋板6 3係沒入外側區帶A2。爲此, 朝往外側區帶A2之球B2係第1次藉由外側阻擋器61, 避免至外側區帶A2的排出。但是,因爲該接觸而阻擋板 63會陷沒,球B2在第2次朝向外側區帶A2時,會藉由 外側阻擋器6 1,移動不被妨礙而直接移動至球貯留部 62,結束獎金遊戲。 在獎金遊戲,球B2落下球搬運機構22的落下洞71 時,球B 2會被搬運至機會場域部C F,開始機會遊戲。機 會遊戲係利用球B 2之所謂輪盤遊戲。在機會遊戲,被搬 運之球B2投入至機會遊戲盤面81,藉由機會遊戲盤面81 的旋轉驅動,一邊旋回一邊緩緩地朝中央移動,落下至任 一抽選洞8 2。因應落下之抽選洞8 2的設定,遊戲內容會 產生變化。又,對於玩家,使獎賞產生亦可。落下至抽選 洞71之球B2係從球回歸部83 (參照圖4 )再次回到獎金 遊戲區域A 1,再次開始獎金遊戲。藉由自球投入部2 1之 球B2的投入,再次開始獎金遊戲亦可。再者,藉由設 定,使球搬運機構22的搬運棒72成爲突出於落下洞71 之狀態亦可。此時,因爲球B 2不會進入落下洞7 1,可防 止轉移至機會遊戲。藉此,可進行抽選機率的調整。 接著,說明遊戲機G的控制系之構造。圖丨1係揭示 -17- 200843827 遊戲機G的構造之區塊圖。遊戲機G係具備爲了執行所 定遊戲,執行各種控制處理的控制單元9 1。作爲對控制單 元91之輸入手段,機會檢查器12、起始檢查器14、減震 器感測器57、抽選洞感測器82a與操作按鍵3分別與控制 單元9 1連接。作爲對控制單元9 1之控制對象,球供給部 5、顯示部6、支付部1 7、代幣供給部4、球投入部21與 外側阻擋器6 1分別與控制單元9 1連接。 參照圖12,說明控制單元91所執行之數位抽選遊 戲。數位抽選遊戲係以在起始檢查器1 4檢測出代幣μ作 爲條件而執行。控制單元9 1係首先在步驟S 1,執行吃角 子老虎抽選。3個圖案係分別利用亂數等來決定。在步驟 S2,控制單元9 1係判斷吃角子老虎抽選的結果是否形成 「球」的中選獎項。在形成「球」的中選獎項時,控制單 元9 1係前進至步驟S2,對球供給部5指示球Β1的供 給,而結束本次處理。在步驟S3「球」的中選獎項未形 成時,控制單元91係前進至步驟S 4,判斷是否形成「直 接獎金遊戲」的中選獎項。在形成「直接獎金遊戲」的中 選獎項時,控制單元9 1係前進至步驟S5,指示在獎金遊 戲區域A1之獎金遊戲的開始,而結束本次處理。在步驟 S4「直接獎金遊戲」的中選獎項未形成時,在下個步驟 S 6,控制單元9 1係進行因應吃角子老虎抽選之結果的處 理。在所定中選獎項任一皆未形成時,控制單元9 1係不 執行任何處理而結束本次處理。在形成所定中選獎項時, 控制單元9 1係因應當選之中選獎項,使遊戲內容變化而 18- 200843827 結束本次處理。 依據以上處理,依據數位抽選遊戲的抽選結果而轉移 至獎金遊戲。獎金遊戲係設定作爲數位抽選遊戲之優惠, 對於玩家來說是成爲數位抽選遊戲之遊藝的動機。 參照圖1 3,說明控制單元9 1所執行之機會遊戲。機 會遊戲係藉由球搬運機構22的落下感測器檢測出球B2, 以球B2從獎金場域部BF搬運至機會場域部CF爲條件來 執行。控制單元9 1係在步驟S 1 1,執行輪盤抽選。球B 2 落下至任一抽選洞82而藉由抽選洞感測器82a檢測出。 然後,控制單元9 1係在步驟S 1 2,執行因應輪盤抽選之 結果的處理,而結束本次的處理。控制單元9 1係依據被 檢測出之抽選洞感測器82a的設定,變更遊戲內容。作爲 得獎之例,進行使玩家抱有高獎賞之期待的抽選遊戲或代 幣Μ的支付亦可。又,執行所有遊戲站單元ST的玩家可 參加之中央單元CN的遊戲亦可。 依據以上處理,會在獎金遊戲中,開始與獎金遊戲不 同之其他機會遊戲。機會遊戲係設定作爲在獎金遊戲之優 惠,提供玩家更多的獎賞機會。藉此,可對於玩家賦予進 行獎金遊戲之遊藝的動機。 接著,參照圖1 4,針對獎金遊戲與機會遊戲的得獎間 隔加以說明。圖1 4係模式地揭示兩個遊戲之得獎間隔及 獎賞額的關係之圖。在獎金遊戲,利用球Β2接觸減震器 42而得獎,產生對玩家的獎賞。因爲減震器42會彈開接 觸之球Β2,故球Β2係可一邊移動於獎金遊戲盤面41,一 -19- 200843827 邊重覆接觸減震器42。爲此,從得獎至下次得獎爲止的 獎間隔Ρη會較小。獎賞額n係相較性較小亦可。亦即 利用使少額獎賞複數次產生,可一邊抑制獎賞,一邊提 玩家之持續性得獎的期待,也提高遊戲的有趣性。 在機會遊戲,從球Β2投入至機會遊戲盤面8 1到落 至抽選洞82爲止的抽選所需要之抽選時間Lm長於在獎 遊戲的得獎間隔Pn。獎賞額Μ也大於在獎金遊戲的獎 額Ν。藉此,在獎金遊戲中提供迅速的遊戲展開之外, 機會遊戲中執行較緩之抽選。因此,遊戲展開不會單調 可吸引玩家進行遊戲,提高遊戲的有趣性。 接著,參照圖4及圖8,說明外側阻擋器61的動作 外側阻擋器61係作爲調整從排出口 63a之球Β2的排出 排出調整手段而作用,控制單元9 1係作爲使外側阻擋 6 1動作,控制球B2之排出難易度的排出控制手段而 用。球B2接觸阻擋板63時,其球B2係藉由阻擋板63 彈回,在獎金遊戲區域 A1持續進行獎金遊戲。另一 面,阻擋板63係藉由阻擋感測器,檢測出球B2的接觸 輸出訊號。依據其輸出訊號,電磁閥64會動作,而驅 阻擋板63,使其陷沒獎金場域部BF的球移動面。阻擋 63陷沒之部份成爲可通過,球B2再次經過時,該球 係會被排出至外側區帶A2。複數阻擋板6 3係可個別進 動作。隨著阻擋板63陷沒,會難以在獎金遊戲區域A1 續進行遊戲。 獎金遊戲開始時之阻擋板6 3的出現個數係因應數 得 , 局 下 金 賞 在 之 器 作 被 方 而 動 板 B2 行 持 位 -20- 200843827 抽選遊戲的結果來決定亦可。例如,在通常狀態時’於獎 金遊戲開始時使兩個阻擋板63出現,在得獎機率被設定 較高之機率變動時,控制單元91控制外側阻擋器6 1 ’使 4個阻擋板63出現亦可。利用變更獎金遊戲開始時之阻擋 板63的出現個數,可控制在獎金遊戲的得獎機率。又, 控制單元9 1控制外側阻擋器6 1,使阻擋板63陷沒爲止之 球B2的接觸次數成爲複數次亦可。如藉由阻擋板63妨礙 球B2的移動的話,因爲球B2在獎金遊戲盤面41之存在 機率會提高,故得獎的機會會增加。除了限制接觸次數之 外,藉由控制單元9 1將阻擋板63的出現時間設定爲一定 時間,來控制在獎金遊戲的得獎機率亦可。如此,因藉由 外側阻擋器6 1的出現條件,可變動在獎金遊戲的得獎機 率,故可增加遊戲的僥倖心理性,提高遊戲的有趣性。 又,即使因構成遊戲機G的零件精度之不均,抽選率在各 遊戲機G不同之狀況,因爲如上所述,可以控制單元9 1 控制球B2的排出難易度,故可謀求抽選機率的調整。 接著,參照圖4及圖6,說明減震器42的動作。球 B2接觸減震器42,在球B2進入支座52及推頂板54之間 時,則將支座5 2推向下方向。桿5 1傾斜向球B 2的進入 方向,而桿5 1與搖桿5 8會移動,故搖桿5 8係搖桿中央 部68a被桿51推頂,機械臂部58b的部份彈性變形,被 檢測部5 8c係往下方向移動。被檢測部28c的變位利用藉 由減震器感測器5 9檢測出,而檢測出球B2接觸減震器 42。身爲與桿51之接點的搖桿中央部58a係因爲是硏鉢 -21 - 200843827 形狀,故可對應對於減震器4 2之自全方向的球b 2之 觸,即使從任一方向,搖桿5 8的被檢測部5 8 c係可往 方向移動。如此一來,與檢測出球B 2接觸減震器4 2 動,電磁閥5 5被通電,鐵心棒5 6被吸引至下方。然後 鐵心棒5 6被吸引至下方時,固定於鐵心棒5 6之上端的 頂板5 4係往下滑動移動,進入之球B 2係藉由推頂板 之周緣的斜面被推出,而彈飛至外方向。球B2被彈 時,支座52、桿5 1、搖桿5 8係回歸原來的位置,減震 感測器5 9沒檢測到被檢測部5 8 c的變位,解除電磁閥 的通電,鐵心棒5 6係以彈簧5 7的復原力而回到原來的 置,藉此推頂板5 4往上滑動移動而回歸原來的位置。 藉由減震器感測器5 9檢測出球B 2的接觸時,控帋ij 元9 1係對代幣供給部4指示代幣Μ的供給。圖1 5係代 供給部4的立體圖。代幣供給部4係設置於推幣場域 P F與獎金場域部B F之間。亦即,玩家觀看獎金場域 B F時,在進入視界的位置,設置有代幣供給部4。爲此 從斗4a支付代幣Μ時,表演出代幣Μ從玩家眼前下降 支付代幣Μ,經由代幣承受構件4b,供給代幣Μ至台 7。藉此,可對於玩家,有效果地表演出代幣Μ的支付 因此,可提高遊戲的有趣性。 本發明係並不限於上述之形態,亦可以各種之形態 施。在本形態,已將外側阻擋器6 1作爲排出調整手段 加以說明,但是並不限定於此。例如,使阻擋板滑動於 方向來進行妨礙亦可。即使是此狀況,也可變更排出口 接 下 連 推 54 出 器 55 位 單 幣 部 部 而 實 而 橫 的 -22- 200843827 寬度,控制排出難易度。但並不限定於變更排 者,例如,作爲球接觸設置於排出口之可開閉 倒下,或者開閉而排出球之構造亦可。如設置 爲從外觀無法知道是哪扇門妨礙排出,故可提 趣性。又,於排出口設置可開閉的洞,使球落 出亦可。藉由設置斜面而變更傾斜來調整排出 以電磁力吸住球之構造亦可。如此,只要是可 動’且可控制妨礙之程度的構造,作爲任一構: 又,在本形態,以將球B2排出至外側區爷 獎金遊戲,但是,並不限定於此,例如,; A2 ’執行使玩家期待高獎賞之遊戲亦可。此時 球B2’高獎賞的期待會提升,可提高遊戲的有 【圖式簡單說明】 [圖1 ]本發明的遊戲機之一形態的俯瞰圖。 [圖2]揭示執行之遊戲的遊玩場域之俯視圓 [圖3 ]揭示推幣場域部的立體圖。 [圖4]揭示中央單元的立體圖。 [圖5]球投入部的詳細圖。 [圖6]球檢測部之內部機構的詳細圖。 [圖7]減震器感測器的立體圖。 [圖8]外側阻擋器的詳細圖。 [圖9 ]球搬運機構的詳細圖。 [圖10]球搬運機構的詳細圖。 出口的寬度 之門時,門 複數門,因 升遊戲的有 下,藉此排 亦可,作爲 妨礙球的移 i皆可。 ^ A2而結束 5E外側區帶 ,利用排出 趣性。 -23- 200843827 [圖1 1 ]揭示遊戲機的控制系之構造的區塊圖。 [圖12]揭示數位抽選遊戲的流程圖。 [圖1 3 ]揭示機會遊戲的流程圖。 [圖1 4]揭示關於獎金遊戲與機會遊戲之得獎間隔的 圖。 [圖15]代幣供給部的立體圖。 【主要元件符號說明】 1 :代幣投入部 1 a :代幣投入口 lb, 32, 73a :軌道 2 :代幣支付口 3 :操作按鍵 4 :代幣供給部 4 a ··斗 4b :代幣承受構件 5 :球供給部 6 :顯示部 7 :台盤 8 :推幣台盤 7a,8a :代幣貯留面 1 1,1 3 :傾斜部 1 2 :機會檢查器 1 2 a :燈 -24- 200843827 1 4 :起始檢查器 1 4 a :開口部 1 5 :鰭桿 1 6 :壁部 1 7 :支付部 2 1 :球投入部 22 :球搬運機構 3 1 :發射部 33 :推頂構件 33a :軸 34, 55, 64:電磁閥 34a, 64a:鐵心 3 5 :軌道底 3 6a,3 6b :軌道側板 3 6 b 1 :開口 4 1 :獎金遊戲盤面 4 1 a :旋轉盤 4 1 b :凸部 4 1 c :堤防 42 :減震器 42a :球檢測部 42b :燈 43 :護欄 51 :桿 -25- 200843827 52 :支座 53 :桿支持彈簧 54 :推頂板 5 6 :鐵心棒 5 7 :彈簧 5 8 :搖桿 5 8 a :搖桿中央部 5 8b :機械臂部 5 8 c :被檢測部 59 :減震器感測器 6 1 :外側阻擋器 62 :球貯留部 63 :阻擋板 6 3 a :排出口 65 :連結構件 66 :阻擋感測器 71 :落下洞 72 :搬運棒 72a :球搬運面 72b :球支持構件 73 :直線驅動機構 73b :滑件 73c :電動機 8 1 :機會遊戲盤面 -26- 200843827 8 2 : 抽選洞 82a :抽選洞感測器 83 : 球回歸部 91 : 控制單元 BF : :獎金場域部 CN :中央單元 CF : :機會場域部 G : 遊戲機 ST : 遊戲站單元 PF : 推幣場域部 M : 代幣 B 1, B2 :球 A1 : :獎金遊戲區域 A2 : :外側區帶 Pn : 得獎間隔 L m :抽選時間 M, N :獎賞額 -27-200843827 IX. Description of invention [Invented by the invention. TECHNICAL FIELD The present invention relates to a gaming machine that moves an object within a game area. [Prior Art] For example, a game machine that executes a predetermined game by a player who inputs a so-called token game media is known (for example, refer to Patent Document 1). In such a game machine, an object such as a game medium and a selected medium is physically moved in the game area to execute the game. [Patent Document 1] Japanese Laid-Open Patent Publication No. 2005-224326. SUMMARY OF THE INVENTION [Problems to be Solved by the Invention] In a game machine that uses physical movement of an object, the game content is left and right by the movement of the object. Because of the assembly of the parts of the game machine, there is a difference in the winning rate when there is a slight difference in each game machine. For this reason, there is a discrepancy in the recovery rate of interest for each game console. Here, an object of the present invention is to provide a gaming machine which can average the winning rate of each gaming machine. [Means for Solving the Problem] The game machine of the same aspect of the present invention includes a game disk surface on which a barrier that hinders the movement of an object is provided on the outer circumference, and the physical action of the object allows the chance of the prize to be repeated. The discharge adjustment means is to adjust the discharge of the object from the discharge port of the part of the barrier wall from -4-200843827; and the discharge control means to operate the discharge adjustment means to control the discharge of the object degree. This solves the aforementioned problems. According to the gaming machine of the present invention, since the chance of winning the prize is repeatedly generated in the face of the game, the chance of the chance of winning the object increases as the probability of existence of the object in the face of the game increases. By controlling the ease of discharge from the discharge port of the object, the time of existence of the object in the game surface can be adjusted. When the overall winning rate of the game machine is high, it is controlled that the object is more easily discharged, and when the winning rate is low, it is controlled that the object is difficult to be discharged, thereby adjusting the winning rate of the gaming machine. Thereby, the winning rate of each game machine can be averaged. In the same state of the game machine of the present invention, the discharge adjusting means may change the width of the discharge port. According to this aspect, the difficulty in discharging the object can be adjusted by changing the width of the discharge port. In the same state as the game machine in which the width of the discharge port is changed, the discharge adjusting means may be a movable member. According to this aspect, the width of the discharge port is changed by the movement of the movable member. Thereby, the difficulty of discharging the object can be adjusted. In the same state as the game machine in which the movable member is provided, the discharge port is provided with a plurality of movable members, and the discharge control means is configured such that the plurality of movable members are independent of each other and can be controlled by the moving surface of the object. According to this aspect, the width of the discharge port can be finely adjusted because the plurality of movable members provided at the discharge port are independently formed. Thereby, fine adjustment of the winning rate of the entire game machine can be performed. Therefore, it can improve the luck of the game. 200843827 In the same state as the game machine in which the movable member is provided, the above-described discharge control means may be controlled such that the movable member is trapped in the moving surface in accordance with the contact with the object of the movable member. According to this aspect, for example, a game in which the first movable member rebounds and continues to play in the game surface, and when the second object moves to the discharge port, the movable member that is displaced by the movable member and discharges the object depending on the object is movable. control. By doing so, the fun of the game can be improved. In the same state as the game machine in which the movable member is provided, the discharge control means may be controlled such that the movable member is trapped in the moving surface in accordance with the time during which the movable member appears on the moving surface. According to this aspect, since the movable member is trapped depending on the appearance time of the movable member, the control object remains on the game board for a certain period of time. In this way, the winning rate of a certain period of time can be improved, and the game's luck can be improved. [Effects of the Invention] As described above, according to the game machine of the present invention, since the chance of winning the prize is repeated in the game surface, the probability of occurrence of the object in the game surface is increased, and the number of chances of winning the prize is increased. increase. By controlling the ease of discharge from the discharge port of the object, the time of the object in the face of the game can be adjusted. When the overall winning rate of the gaming machine is high, it is controlled that the object is easily discharged. When the winning rate is low, it is controlled that the object is difficult to be discharged, thereby adjusting the winning rate of the gaming machine. In this way, the game's luck and rationality can be improved while averaging the winning rate of each game machine. [Embodiment] An overhead view of a game machine according to an aspect of the present invention is disclosed in Fig. 1, and a plan view of a play field in which a game is executed is disclosed in Fig. 2 . Fig. 1 is a convenient illustration of omitting part of the upper and side portions of the gaming machine G. The play field of the gaming machine G is surrounded by a partition wall such as a transparent plate to form a shield for the outside. The game machine G is used as a game media to use tokens, that is, so-called token game machines. The game machine G has a central unit CN and four game station units ST. The game station unit ST is a central unit CN, and two units are arranged side by side on both sides. In the station unit S T , a so-called push coin game using tokens and a digital lottery game associated with the push coin game are respectively executed. At the central unit CN, a bonus game is executed in association with the game result of the game of the station unit ST. The game station unit ST is provided with: a push-pull field unit PF that executes the push-pull game; a token input unit that discharges the token to the push-pull field portion Pf; and pays the token to the player in response to the result of the push-pull game Token payment port 2; operation button 3 used in the bonus game; as a result of the push coin game, the token is supplied to the token supply unit 4 of the reward supply means of the push field field PF; in response to the digital lottery game As a result, the ball as the pumping medium is supplied to the ball supply unit 5 of the pusher field unit PF; and the display unit 6 such as a digital drawing game is displayed. The push field unit P F has a table 7 for storing tokens and a pusher table 8 . Coins are stored on the tray 7 and the push-pull tray 8 in a pile. The coin dial 8 is reciprocated on the table 7 before and after (the side on which the player is located is the same as the front side). The token input unit 1 has a token input slot for the player to put in the token 1 a and guides the token, so that the token put into 200843827 is supplied to the track 1 b of the push coin tray 8. The token input unit 1 can be freely rotatably set to the game machine, so that the player can appropriately select the direction in which the token is emitted. Since the token input unit 1 is provided in each of the game station units ST, it is possible to perform a play operation by a player of two players in one game station unit ST. The token supply unit 4 has a bucket 4a (see Fig. 15) as a supply device provided on the upper portion, and a token accepting member 4b as a receiving member. When the token is paid from the bucket 4a, the token is dropped to the token accepting member 4b, and is supplied to the pusher field portion pF. Further, the display unit 6 is a mirror and is reflected and displayed on the screen of the liquid crystal display device provided above it, and is displayed on the player. At this time, the liquid crystal display device can be shared with the game station unit SET on the opposite side. Further, the display unit 6 may be a display device such as a liquid crystal display device. Fig. 3 is a perspective view showing the pusher field portion PF. The front side of the pusher table 8 is continuous with the token storage surface 8a of the pusher table 8, and the inclined portion 11 is provided. The plurality of machine checkers 1 2 for detecting the passage of the tokens are provided in the inclined portion 1 1 . Each of the chance checkers 1 2 has a lamp 1 2a for detecting or turning off the lights in response to the tokens. The front side of the table 7 is continuous with the token storage surface 7a of the table 7, and the inclined portion 13 is provided. The inclined portion 13 is provided with an initial inspector 14 for detecting the entry of the tokens, and a fin provided on both sides of the initial inspector 14 to guide the tokens to one of the pair of initiating inspectors 14. Rod (flipper) 15. The initial inspector 14 detects the entry of the tokens provided in the opening portion 14a of the inclined portion 13. The pair of fins 15 are opened and closed in response to the results of the push-pull game and the digital lottery game, and the difficulty of entering the tokens of the first checker 14 is changed. Further, the detection of the token checker -8-200843827 1 2 and the token of the initial checker i 4 can be performed by a known sensor technique such as a photodetector. Next, the strategy of the process of transferring tokens in the field field P F will be described. When the player puts the token into the token input port 1 a, the token is guided to the track lb, and drops to the token storage surface 7a of the coin tray 8 and is stored in the 'or push coin table The tray 8 rolls down to the tray 7. The token group stored on the pusher table 8 is pushed forward to the front side by contact with the wall portion 16 by the reciprocating movement of the pusher table 8, thereby pushing the token from the front end of the pusher tray 8. That is, the introduced token μ slipping inclined portion 1 1 is moved to the tray 7 by any chance checker 12 and stored therein. Each of the chance checkers 1 2 sets the game content executed when the tokens are passed, respectively. The player 1 2a allows the player to display the recognition. The fins 15 are opened and closed by the setting of the chance checker 12. The token group stored on the tablen 7 is advanced to the front by the reciprocating movement of the pusher table 8 from the front end of the table 7, the token is pushed out, and the inclined portion 13 is slid down. The tokens that are dropped are paid to the player from the token payment port 2 via a counter that is not shown. When the token that has been pushed out from the front end of the table 7 enters the start checker 14 and is detected, the digital lottery game is started. The digital drawing game is a slot game in which a combination of three patterns (patterns, symbols, numbers, etc.) displayed in a horizontal column arranged on the display unit 6 is matched with the selected winning prize. The digital lottery game is linked to the chance checker 12 in response to the setting of the chance checker 12 for detecting the token, so that the conditions of the lottery are changed. In addition, the 200843827 performance in conjunction with the fins 15 is also performed in the digital drawing game. As a result of the lottery, when a predetermined winning prize is formed and a prize is awarded to the player, the prize is paid from the paying unit 17 provided on the upper portion of the display unit 6. The paid tokens are rolled onto the display unit 6 and dropped onto the coin tray 8. As one of the winning prizes for this digital lottery game, there is a "ball". For example, when the ball's composition is ready for 3, it is elected as the "ball" prize. When the prize is selected, the ball 1 is supplied from the ball supply unit 5 to the table 7. The ball Β 1 is formed, for example, of a resin or the like. The ball Β 1 which is supplied to the table 7 by a plurality of colors can be gradually pushed out toward the front of the table 7 by the reciprocating movement of the coin table 8 by the coin. When the ball Β 1 is dropped from the front end of the table 7, the falling ball Β 1 is rolled down the inclined portion 13 . The falling ball Β 1 is detected by a detecting unit (not shown), and the designated prize is given to the player. The reward is paid from the payment unit 17. Further, the detecting unit may be a well-known technique using various photodetectors and proximity sensors. The rolling ball Β 1 is counted according to the detection result, and when the predetermined amount is reached, the bonus game in the central unit CN is started. Rolling the ball Β 1 When you enter the start checker 1 4, you can start the bonus game. Also, as one of the winning prizes for the digital lottery game, a "direct bonus game" is also available. For example, when the letter D of the letter is prepared for 3, it is elected as the "Direct Prize Game" award. When the award is elected, the bonus game is started in the central unit CN. A perspective view of the central unit CN is disclosed in FIG. The central unit CN system has the bonus field area BF as the first game area. As the second game -10- 200843827 The opportunity field area of the area c F. Bonus Field Department B F is a bonus game. In the example of the illustration, the chance field unit CF sets two chance games for the game machine G to perform the association with the result of the bonus game. In the central unit CN, the ball B2 is used as an object. The ball B2 is formed of a metal. Furthermore, since each of the opportunistic field portions CF has the same structure, only one of them will be disclosed in Fig. 4 . In the bonus field portion BF, the ball input portion 2 1 of the input ball B2 is provided, and as the physical action of the ball B2 input from the ball input portion 2 1 , the bonus game area of the game area where the chance of winning is generated is generated. A1; the ball B2 is discharged from the bonus game area A1 to store the outer side zone A2; and the ball transport mechanism 22 of the ball field B2 is transported from the bonus field area BF to the chance field area CF. The details of the ball input unit 21 are disclosed in FIG. Figure. The ball input unit 21 has a transmitting unit 3 1 that emits the ball B2 toward the bonus game area A1; and a track 32 that guides the emitted ball B2 to the bonus game area A1. The transmitting portion 31 includes an ejector member 33 that pushes the ball B2, and a solenoid valve 34 that drives the ejector member 22. The ejector member 3 3 has a U-shape, and one end pushes the ball B2 and emits it. The bent portion on the lower side of the ejector member 33 is provided with a shaft 3 3 a fixed to the gaming machine G, and the ejector member 3 3 is driven by the action of the other electromagnetic valve 34, and the other end is driven. The department launched the ball B2. The electromagnetic valve 34 is driven by the excitation of the built-in solenoid valve coil and the excitation thereof to drive the core 34 4 to the up and down direction. The core 3 4 a is coupled to the other end of the ejector member 3 3 . The track 3 2 has a track bottom 3 5 ; and on both sides of the track bottom 35, a pair of track side plates 3 6 a, 3 6b of a pair -11 - 200843827 are formed perpendicularly to the track bottom 35, respectively. The path of movement of the ball B 2 is formed by the track bottom 35 and the track side plates 3 6a 3 6b. An opening 36b 1 for supplying the ball B2 for emission is provided in a portion of the rail side plate 36b. The ball enclosure is set to be in the form of a ball. 4 2 is the upper segment 5 5 in the bonus game area A 1 is set as the game board face bonus game face 41; set on the bonus game face 41' as The first game means of the rebound B2 or the damper 42 of the drawing mechanism; and the guardrail 43 as the outer periphery of the bonus game board 41. The bonus game disk surface 41 has a rotary disk 4 1 a (see Fig. 2) which is disposed at the center and is rotationally driven, and a plurality of convex portions 4 1 b placed around the rotary disk 4 1 a. . The rotating disk 4 1 a is rotated at a predetermined rotational speed to change the moving direction of the contact ball B2. The surface of the rotating disk 4 1 a may be provided with a dike. For example, with the bank 4 1 c provided with the S word, the moving direction of the ball B2 contacting the rotating disk 4 1 a changes due to the timing of the rotation of the rotating disk 4 1 a . The convex portions 4 1 b are provided in four as shown in the figure, and have a semi-ellipsoidal shape. The convex portion 41b changes the moving direction of the contact B2. The damper 42 is a so-called thumper bumper, and includes a ball detecting portion 42a for detecting an object B2 contacting the object B2, and a lamp 42b for detecting the ball B2. A detailed view of the internal mechanism of the ball detecting portion 42a is shown in Fig. 6 . The ball detecting portion 42a includes a rod 5 1 covering the upper and lower directions of the damper, a holder 52 provided at the upper portion of the rod 5 1 , and a rod supporting spring 5 3 serving as a spring for the supporting rod 4 1 as a damper for the damper 42 slides down, the ball B2 that is touched when sliding down again, the pusher plate 5 of the pusher member that is bounced outward; the solenoid valve 55 that drives the driver of the pusher plate 5 4; the upper end is fixed to the pusher plate 54, In the lower end of the solenoid valve -12- 200843827, when the solenoid valve 55 is in the energized state, the iron rod 5 6 which is lowered by the attraction is particularly attractive; when the solenoid valve is in the non-energized state, the spring 5 7 which raises the core rod 5 6 ; the end of the square is a rocker 5 8 fixed to the damper 42; and a damper sensor 59 as a detecting portion for detecting the displacement of the rocker 58. The rod 5 1 is rotatably supported by the rod support spring 5 3 . The support 52 is in the shape of a disc, fixed to the rod 5 1, and can be rocked together with the rod 5 1 . The upper surface of the holder 52 is inclined toward the center of the damper 42. The lower surface of the ejector plate 5 4 is inclined toward the center of the damper 42. That is, the spacing between the support 52 and the ejector plate 5 is narrower toward the center of the damper 42. The rocker 580 has a rocker central portion 58a as a central portion of the cymbal shape; one end portion is fixedly rotatably supported by the mechanical arm portion 580b of the central portion of the rocker 5 8 a; and The detected portion 5 8 c at the end of one of the ends. The center portion of the rocker 5 8a is in contact with the end of the rod 51. The damper sensor 59 detects the displacement of the detected portion 58c. A perspective view of the damper sensor 59 is disclosed in FIG. The damper sensor 5 9 utilizes various reflective and transmissive photoelectric sensors. Normally, the inspection light is blocked. However, when the detection portion 5 8 c moves to the lower side, the light is blocked, and a signal for detecting the displacement of the detection portion 58 c is output. The lamp 42b is turned on or off depending on the output of the detection signal from the damper sensor 59. Thereby, the contact of the ball B 2 is displayed to the player. The guard rail 43 prevents the ball B2 from being detached from the bonus game area A1 and is provided on a part of the outer circumference of the bonus game board face 41. The guard rail 43 is formed of resin, rubber, metal, or the like, and bounces the ball B 2 of the conflict. Furthermore, the guardrail 43 is in addition to the wall that will bounce, for example, as a slope that is more inclined, it is also -13-200843827. Even if the ball B 2 faces outward, it is accelerated by gravity and returns to the center side again. The guard rail 43 may be any structure as long as the ball B2 is returned to the center side of the bonus game surface 41. The outer zone A2 is disposed adjacent to the outer periphery of the bonus game deck 41. In the example shown in the figure, the center of the bonus game board 41 is held and one on each side. The outer zone belt A2 is provided with an outer side blocker 6 that can be present in the outer zone zone A2 as a discharge adjusting means for preventing discharge of the ball B2 from the bonus game area A1; and a ball storage for storing the discharged ball Section 62. A detailed view of the outer barrier 61 is disclosed in FIG. In the illustrated example, four outer stoppers 6 1 are provided. The number of the outer stoppers 61 is not limited thereto, and may be appropriately set depending on the size of the region of the outer zone A2. The outer blocker 61 is disposed near the border with the bonus game area A1. The outer stopper 61 is provided with a blocking plate 63 as a movable member that hinders discharge of the ball B2, a solenoid valve 64 that drives the blocking plate, a coupling member 65 that connects the blocking plate 63 and the electromagnetic valve 64, and a collision blocking plate that detects the ball B2. Blocking sensor 66 of 63. The blocking plate 63 is provided at the discharge port 63a where the guard rail 43 is not provided, and the ball moving surface of the outer zone A2 is absent from the upper and lower directions. The solenoid valve 64 is constructed in the same manner as the solenoid valve 34 of the ball input portion 21, and drives the core 64a back and forth. In the present embodiment, each of the blocking plates 63 is plucked to the idling direction by a spring (not shown), and is immersed in the moving surface of the ball by the spring force when the electromagnetic valve 64 is not energized. When the solenoid valve 64 is energized, it acts on the moving surface of the ball against the spring force. The connecting member 65 is rotatably centered on an axis (not shown), and its both ends are coupled to the retarder 63 and the core 64a. The shaft is common to each of the outer stoppers 61 and is set to -14-200843827. When the core 64a is driven by energization or non-energization of the electromagnetic valve 64, the connecting member 65 is interlocked and rotated about the axis. Thereby, the blocking plate 63 is driven to be in the up and down direction. The blocking sensor 66 is a limit switch that detects the ball B2 collision blocking plate 63. Further, the blocking sensor 66 may be a known technique using various sensors, switches, or the like. The ball storage portion 62 is recessed by the outer stopper 63, and the ball B2 through which the movement is not hindered is stored. As shown in Fig. 5, a ball storage portion 62 is provided adjacent to the ball input portion 21. The ball storage portion 62 is formed such that the stored ball B2 is guided to the opening portion 36b of the rail 32 of the ball input portion 21. 9 and 10 show a detailed view of the ball transport mechanism 2 2 . Fig. 9 is a view of the ball transport mechanism viewed from the front right front side, and Fig. 10 is a view of the ball transport mechanism viewed from the front right rear side. The ball transport mechanism 22 is provided adjacent to the outer circumference of the bonus game disk surface 41. The ball transport mechanism 22 includes a drop hole 71 through which the ball B2 can fall, a transport bar 7 2 that transports the dropped ball B2 to the chance field portion CF, and a linear drive mechanism 73 that drives the transport bar 7 2 in the vertical direction. The drop hole 7 1 is disposed on the side of the ball movement of the bonus game board face 41, and the ball B2 moved from the bonus game area A1 can fall thereon. The drop hole 71 has a drop sensor (not shown) that detects the drop of the ball B 2 . The drop sensor is also known by a known sensor technique such as a photodetector. The handling rod 7 2 is driven to drop the hole and is present in the falling hole 71. The transport bar 7 2 is located below the lower hole 7 2 and waits for the falling ball B 2 to be driven in the upward direction according to the output of the detection signal of the drop sensor to carry the ball B2 to the chance field portion CF. The ball conveying surface 72a (see Fig. 4) of the conveying rod 72 is cut obliquely below the chance field portion CF side. The ball B2 is supported by the ball supporting member 72b (see Fig. 4) provided on the side of the field portion c F along the transport bar 7 2 by -15-200843827, and is placed on the ball carrying surface 72a in a stable manner and transported. The linear drive mechanism 173 includes a rail 7 3 a fixed in the vertical direction, a slider 73b movable along the rail 73a, and a motor 73c for driving the slider 73b. The electric motor 73c can be used by various commercially available electric motors. Further, the linear drive mechanism 713 may be a linear actuator or a linear motor. The carriage 7 2 is fixed to the slider 7 3 b, and the slider 7 3 b moves along the rail 7 3 a by the operation of the motor 7 3 c to drive the carrier rod 72. Returning to Fig. 4, the construction of the chance field portion c F will be described. The chance field portion C F includes a chance game disk surface 81 as a second rotatable game means and a plurality of drawing holes 8 2 provided near the center of the chance game disk surface 81. The chance game disk surface 81 is formed as a slope that is lower toward the center, and is rotationally driven by a motor or the like (not shown). The drawing hole 8 2 is a hole in which the ball B 2 can fall, and has a drawing hole sensor 82a for detecting the falling ball B2. The lottery hole sensor 82a is, for example, a variety of well-known sensor technologies such as photodetectors. In response to the setting of the selection hole 8 2 where the ball B 2 falls, the game content will change. Next, the outline of the flow of the ball B2 in the central unit CH will be described. When the bonus game is started, the ball B2 is supplied from the ball storage unit 62 to the ball input unit 2 1 . When the player presses the operation button 3, the ball B2 is transmitted to the bonus game area A 1 by the transmitting unit 31. The launched ball B2 touches the rotating disk 4 1 a and the convex portion 4 1 b in the bonus game disk surface 41 to change the moving direction, and repeatedly contacts and collides with the damper 42 and the guard rail 43. When the ball B2 contacts the damper 42, a reward is given to the player. The predetermined number of tokens -16 - 200843827 will be supplied from the token supply unit 4 to the tray 7. In the bonus game area A1, the ball B2 can contact the damper 42 multiple times. At the beginning of the bonus game, a predetermined number of baffles 63 of the outer side blocker 6 1 appear in the outer zone A 2 to prevent the discharge of the ball B 2 . When the ball B 2 contacts the blocking plate 63, the blocking plate 63 is immersed in the outer zone A2. For this reason, the ball B2 toward the outer zone A2 is prevented from being discharged to the outer zone A2 by the outer stopper 61 for the first time. However, since the blocking plate 63 is trapped by the contact, the ball B2 moves to the ball storage portion 62 without being hindered by the outer stopper 61 when the second side faces the outer zone A2, and the bonus is ended. game. In the bonus game, when the ball B2 drops the drop hole 71 of the ball transport mechanism 22, the ball B 2 is carried to the chance field portion C F to start the chance game. The game game uses the so-called roulette game of the ball B 2 . In the game of chance, the ball B2 to be transported is put into the game board 81, and by the rotation of the game board 81, the center is slowly moved toward the center and dropped to any of the drawing holes 82. The game content will change in response to the setting of the selection hole 8 2 . Also, for the player, the prize can be generated. The ball B2 that has fallen to the drawing hole 71 is returned to the bonus game area A1 from the ball returning portion 83 (refer to FIG. 4), and the bonus game is started again. The bonus game can be started again by the input of the ball B2 from the ball input unit 2 1 . Further, by the setting, the conveyance bar 72 of the ball transfer mechanism 22 may be in a state of protruding from the drop hole 71. At this time, since the ball B 2 does not enter the drop hole 7 1, the transfer to the chance game can be prevented. Thereby, the adjustment of the sampling probability can be performed. Next, the configuration of the control system of the game machine G will be described. Fig. 1 is a block diagram showing the construction of the game machine G of -17-200843827. The gaming machine G is provided with a control unit 91 that executes various control processes for executing a predetermined game. As an input means for the control unit 91, the chance checker 12, the start checker 14, the damper sensor 57, the drawing hole sensor 82a, and the operation button 3 are respectively connected to the control unit 91. As a control target of the control unit 91, the ball supply unit 5, the display unit 6, the payment unit 17, the token supply unit 4, the ball input unit 21, and the outer stopper 61 are connected to the control unit 91, respectively. Referring to Fig. 12, a digital drawing game executed by the control unit 91 will be described. The digital drawing game is executed on the condition that the initial checker 14 detects the token μ. The control unit 91 first performs the slot slap selection in step S1. The three patterns are determined by random numbers or the like. In step S2, the control unit 91 determines whether the result of the slot machine lottery forms a winning prize for the "ball". When the winning prize is formed in the "ball", the control unit 91 advances to step S2, and the ball supply unit 5 instructs the supply of the ball 1 to end the current process. When the winning prize of the "ball" in step S3 is not formed, the control unit 91 proceeds to step S4 to determine whether or not the winning prize of the "direct bonus game" is formed. When the winning prize is formed in the "direct bonus game", the control unit 91 advances to step S5 to instruct the start of the bonus game in the bonus game area A1, and ends the present process. When the winning prize of the "direct bonus game" in step S4 is not formed, in the next step S6, the control unit 9 1 performs processing in response to the result of the slot machine lottery. When none of the selected winning prizes is formed, the control unit 9 1 ends the current processing without performing any processing. In the formation of the selected winning prize, the control unit 9 1 ends the processing by changing the content of the game due to the selection of the winning prize 18-200843827. According to the above processing, the bonus game is transferred according to the lottery result of the digital lottery game. The bonus game system is set as a discount for the digital lottery game, and is a motivation for the player to become a game of the digital lottery game. Referring to Fig. 13, a chance game executed by the control unit 91 will be explained. The game game is detected by the drop sensor of the ball transport mechanism 22, and the ball B2 is transported from the bonus field portion BF to the chance field portion CF. The control unit 91 performs the roulette lottery in step S11. The ball B 2 is dropped to any of the drawing holes 82 and detected by the drawing hole sensor 82a. Then, the control unit 91 performs the processing corresponding to the result of the roulette selection in step S12, and ends the current processing. The control unit 191 changes the game content in accordance with the setting of the selected lottery hole sensor 82a. As an example of the prize, it is also possible to make a payment of a lottery game or a token that allows the player to have a high prize. Further, the game of the central unit CN in which the players of all the station unit ST can participate can also be played. According to the above processing, in the bonus game, other chance games that are different from the bonus game will be started. The chance game system is set as a bonus game, providing players with more reward opportunities. Thereby, the player can be given the motivation to play the bonus game. Next, the winning interval between the bonus game and the chance game will be described with reference to Fig. 14. Fig. 1 is a diagram showing the relationship between the prize interval and the prize amount of the two games. In the bonus game, the ball Β 2 is contacted with the damper 42 to win the prize, and a prize for the player is generated. Since the damper 42 bounces the ball Β 2, the bat 2 can be moved over the bonus game surface 41, -19-200843827 to repeatedly contact the damper 42. For this reason, the prize interval Ρη from the award to the next prize will be smaller. The reward amount n is relatively small. In other words, the use of a small number of prizes is generated in a plurality of times, and the player's expectation of winning the prize is improved while suppressing the prize, and the fun of the game is also improved. In the chance game, the lottery time Lm required for the lottery from the player 2 to the chance game board 8 1 to the lottery hole 82 is longer than the prize interval Pn of the prize game. The prize amount is also greater than the prize amount in the bonus game. In this way, in addition to providing a quick game play in the bonus game, a slow draw is performed in the chance game. Therefore, the game expansion will not be monotonous to attract players to play games and improve the fun of the game. 4 and 8, the operation outer stopper 61 of the outer stopper 61 functions as a discharge discharge adjustment means for adjusting the ball cartridge 2 from the discharge port 63a, and the control unit 91 operates as the outer barrier 61. It is used to control the discharge control means of the discharge difficulty of the ball B2. When the ball B2 contacts the blocking plate 63, the ball B2 is bounced back by the blocking plate 63, and the bonus game is continued in the bonus game area A1. On the other hand, the blocking plate 63 detects the contact output signal of the ball B2 by blocking the sensor. Based on the output signal, the solenoid valve 64 acts to drive the blocking plate 63 to trap the ball moving surface of the bonus field portion BF. The portion of the barrier 63 is made to pass, and when the ball B2 passes again, the ball is discharged to the outer zone A2. The plurality of blocking plates 63 can be individually operated. As the blocking plate 63 is trapped, it may be difficult to continue the game in the bonus game area A1. At the beginning of the bonus game, the number of occurrences of the blocking board 6 3 is counted accordingly, and the gold medal in the game is held by the player and the board is held in the B2 line. -20- 200843827 The result of the lottery game is determined. For example, in the normal state, two barrier plates 63 are caused to appear at the start of the bonus game, and when the probability of the prize is set to a high probability, the control unit 91 controls the outer stopper 6 1 'to cause the four barrier plates 63 to appear. Also. By using the number of appearances of the blocking board 63 at the beginning of the change bonus game, the chance of winning the bonus game can be controlled. Further, the control unit 91 controls the outer stopper 6 1 so that the number of times of contact of the ball B2 until the blocking plate 63 is recessed may be plural. If the movement of the ball B2 is hindered by the blocking plate 63, since the probability of the existence of the ball B2 on the bonus game surface 41 is increased, the chance of winning the prize increases. In addition to limiting the number of contacts, the control unit 91 sets the appearance time of the blocking plate 63 to a certain time to control the chance of winning in the bonus game. In this way, since the appearance condition of the bonus game can be changed by the appearance condition of the outer blocker 61, the luck of the game can be increased, and the fun of the game can be improved. Further, even if the accuracy of the components constituting the gaming machine G is uneven, the lottery rate is different for each of the gaming machines G. Since the control unit 9 1 can control the ejecting difficulty of the ball B2 as described above, the sampling probability can be obtained. Adjustment. Next, the operation of the damper 42 will be described with reference to Figs. 4 and 6 . The ball B2 contacts the damper 42. When the ball B2 enters between the holder 52 and the ejector plate 54, the holder 52 is pushed downward. The rod 5 1 is inclined toward the entering direction of the ball B 2, and the rod 5 1 and the rocking rod 58 are moved, so that the rocker 58 is rocker central portion 68a is pushed up by the rod 51, and the portion of the mechanical arm portion 58b is elastically deformed. The detected portion 58c moves downward. The displacement of the detected portion 28c is detected by the damper sensor 59, and the ball B2 is detected to contact the damper 42. The rocker central portion 58a, which is the contact point with the rod 51, is in the shape of 硏钵-21 - 200843827, so it can correspond to the ball b 2 from the omnidirectional direction of the damper 4 2 even from any direction The detected portion 5 8 c of the rocker 58 is movable in the forward direction. As a result, the contact with the detected ball B 2 contacts the damper 4 2 , the solenoid valve 55 is energized, and the core rod 56 is attracted downward. Then, when the iron core rod 56 is attracted to the lower side, the top plate 54 fixed to the upper end of the iron core rod 65 is slid downward, and the entering ball B 2 is pushed out by the inclined surface of the periphery of the ejector plate, and the fly is flew to Outside direction. When the ball B2 is bounced, the support 52, the rod 5 1 and the rocker 58 are returned to the original position, and the damper sensor 59 does not detect the displacement of the detected portion 5 8 c, and the solenoid valve is energized. The iron core rod 5 6 is returned to the original position by the restoring force of the spring 57, whereby the top plate 5 4 is slid upward and returned to the original position. When the contact of the ball B 2 is detected by the damper sensor 59, the control unit ij element 9 1 instructs the token supply unit 4 to supply the token Μ. Fig. 1 is a perspective view of the supply unit 4. The token supply unit 4 is disposed between the push field field P F and the bonus field portion B F . That is, when the player views the bonus field B F , the token supply unit 4 is provided at the position where the view is entered. For this reason, when paying the tokens from the bucket 4a, the tokens are paid out from the player's eyes to pay the tokens, and the tokens are supplied to the counters via the token accepting member 4b. Thereby, it is possible to perform the payment of the tokens effectfully for the player, thereby improving the fun of the game. The present invention is not limited to the above embodiments, and may be embodied in various forms. In the present embodiment, the outer stopper 61 is explained as the discharge adjusting means, but the invention is not limited thereto. For example, it is also possible to prevent the blocking plate from sliding in the direction. Even in this case, it is possible to change the width of the -22-200843827, which is the cross-section of the 55-bit single-coin unit, and control the discharge difficulty. However, it is not limited to the change of the arranging. For example, it may be a structure in which the ball is placed in contact with the discharge port to be opened and closed, or the ball is opened and closed to discharge the ball. If it is set to see from the outside that it is impossible to know which door hinders the discharge, it is interesting. Further, a hole that can be opened and closed is provided at the discharge port to allow the ball to fall out. It is also possible to adjust the discharge by changing the inclination by setting a slope, and it is also possible to absorb the ball by electromagnetic force. In this way, as long as it is movable and can control the degree of obstruction, the configuration is as follows: In the present embodiment, the ball B2 is discharged to the outer zone bonus game, but the present invention is not limited thereto, for example, A2 'Execute a game that allows players to expect high rewards. At this time, the expectation of the ball B2' high prize will be improved, and the game can be improved. [Simplified description of the drawing] [Fig. 1] A bird's-eye view of one form of the game machine of the present invention. [Fig. 2] A plan view showing a field of play field of the executed game [Fig. 3] A perspective view showing a push field portion. Fig. 4 is a perspective view showing a central unit. Fig. 5 is a detailed view of a ball input unit. Fig. 6 is a detailed view of the internal mechanism of the ball detecting portion. [Fig. 7] A perspective view of a damper sensor. [Fig. 8] A detailed view of the outer stopper. [Fig. 9] A detailed view of the ball transport mechanism. [Fig. 10] A detailed view of the ball transport mechanism. When the door of the width of the exit is closed, the door of the door is plural, and because of the lowering of the game, the row can be arranged as a hindrance to the movement of the ball. ^ A2 and the end of the 5E outer zone, the use of discharge fun. -23- 200843827 [Fig. 1 1] A block diagram showing the construction of the control system of the gaming machine. [Fig. 12] A flowchart showing a digital lottery game. [Fig. 13] A flowchart showing the game of chance. [Fig. 14] A diagram showing the winning interval between the bonus game and the chance game. [Fig. 15] A perspective view of a token supply unit. [Main component symbol description] 1 : Token input unit 1 a : Token input port lb, 32, 73a: Track 2: Token payment port 3: Operation button 4: Token supply unit 4 a ·· bucket 4b: Generation Coin receiving member 5: Ball supply portion 6: Display portion 7: Table 8: Pusher table 7a, 8a: Token storage surface 1 1, 1 3: Inclined portion 1 2 : Opportunity checker 1 2 a : Lamp - 24-200843827 1 4 : Start checker 1 4 a : Opening 1 5 : Fin rod 1 6 : Wall portion 1 7 : Payment portion 2 1 : Ball input portion 22 : Ball transport mechanism 3 1 : Emitter portion 33 : Push Top member 33a: shaft 34, 55, 64: solenoid valve 34a, 64a: core 3 5: track bottom 3 6a, 3 6b: track side plate 3 6 b 1 : opening 4 1 : bonus game disk surface 4 1 a : rotating disk 4 1 b : convex portion 4 1 c : embankment 42 : shock absorber 42 a : ball detecting portion 42 b : lamp 43 : guard rail 51 : rod - 25 - 200843827 52 : holder 53 : rod support spring 54 : push plate 5 6 : core Rod 5 7 : Spring 5 8 : Rocker 5 8 a : Rocker center 5 8b : Robot arm 5 8 c : Detection part 59 : Shock absorber sensor 6 1 : Outer blocker 62 : Ball reserve 63: blocking plate 6 3 a : discharge port 65 : connecting member 66 : blocking Detector 71: drop hole 72: transport bar 72a: ball transport surface 72b: ball support member 73: linear drive mechanism 73b: slide 73c: motor 8 1 : chance game disk surface -26- 200843827 8 2 : lottery hole 82a: lottery Hole sensor 83: Ball return unit 91: Control unit BF: : Bonus field unit CN: Center unit CF: : Opportunity field unit G: Game machine ST: Game station unit PF: Push field unit M: Generation Coin B 1, B2 : Ball A1 : : Bonus Game Area A2 : : Outer Zone Pn : Winning Interval L m : Lottery Time M, N : Reward -27-