M423886 包括一轉縣成(SWiteh assembly),其允料轉運動 盤之袋孔内所配置的硬幣,從該環狀 至一笛罘傳迗路杈切換 —%徑。該轉轍總成包括:至少-單向通行件 (繼-way member)及—路徑轉換件。路徑轉換件設於 傳:路徑之—入口且定位於_第一位置。路徑轉換件可受 硬:推動而自該第一位置彈性偏壓到—離開第二傳送路徑 之第二位置’以允許硬幣通過第二傳送路徑。The M423886 includes a SWiteh assembly that allows the coins placed in the pockets of the moving disc to switch from the ring to a flute to the % path. The switch assembly includes: at least a one-way pass member and a path switch member. The path conversion component is located at the entrance of the path and at the first position. The path changer can be forced to push from the first position to the second position away from the second transfer path to allow the coin to pass through the second transfer path.
根據本創作-較佳實施例,轉盤之袋孔在背側上設有導 肋,各導肋從袋孔之-位於環狀之第—傳送路徑内之一端 沿著袋孔邊緣向轉盤周緣延伸H另設有延伸穿過導肋 的槽道’以允許該單向通行件通過。各導肋之結構可與轉 撤總成的單向通行件及路徑轉換件組成-導引路徑;該導 引路徑連接於該第—傳送路徑及第二傳送路徑之間,且其 在轉盤順向旋轉時,導引硬幣從環狀之第—環送路徑轉向 至第二傳送路徑,通向硬幣之出口。According to the present invention, in a preferred embodiment, the pocket of the turntable is provided with guide ribs on the back side, and each of the guide ribs extends from the edge of the pocket at the end of the first transmission path along the edge of the pocket toward the periphery of the turntable. H is additionally provided with a channel ' extending through the guide ribs to allow the one-way pass to pass. The guiding ribs may be configured to form a guiding path with the one-way passing member and the path converting member of the retracting assembly; the guiding path is connected between the first conveying path and the second conveying path, and the guiding path is in the turntable When rotating, the guiding coin is diverted from the ring-to-loop path to the second path to the exit of the coin.
、本創作亦提供-可變換通道寬度之出口總成,以允許輸 送不同大小的硬帶。 本創作之進—步特徵,可藉由下列實施方式及圖式而進 一步瞭解。 【實施方式】 如圖1所示,本創作之出幣裝置10包括一收集斗20、一傳 送總成40及—出口總成100。 收集斗20包括—接收口 22及一送出口 24,其中該接收口 M423886 22可接收多數硬幣。如圖工之較佳實施例 -^ 接收口 22 車佳為一見闊之矩形開口。收集斗20較佳包括—相對於地 面傾斜之底面26,时便從接收Π22落下之”滑動= 出口 24。送出口 24之結構用以容納傳送總成4〇上之—轉、 6〇。送出口 24之形狀及大小以不會使落下之硬幣卡住= 宜,其較佳實施例為圓形且與轉盤6〇大小大致相同。μ 必=,可在送出口24内緣對應轉盤6G處設置如金屬等^ 材質或施以m以抵抗或降低送出σ24之壁面與轉盤 6〇間的磨損。收集斗20以一固定裝置固定於傳送總成扣 上。固定裝置較佳包括-或多個掛勾28,可與傳送總成 之對應孔84結合。固定裝置亦可包括一較佳設於收集斗2〇 一端之樞軸裝置之—第二部份,以允許收集斗2()與 她 成40之間的一樞轉運動。 傳送總成40與該收集斗20結合,用以將來自該收集斗⑽ 之該等硬幣施配而出。傳送總成4〇包括:一轉盤6〇及一底 座80,並較佳可包括一馬達M,以驅動轉盤6〇旋轉。 轉盤60與該收集斗20之送出口24連通,並設有形成一環 狀陣列之多數袋孔62,用以容納硬幣;該轉盤6〇之該旋轉 界定一環狀之第一傳送路徑。轉盤6〇設有軸孔64(參圖 3 A),可與馬達Μ之一軸結合,以受馬達M驅動。 根據本案一較佳實施例,前述轉盤60可沿一第一方向旋 轉,以傳送硬幣;並可沿一相反於第—方向之第二方向旋 轉以進行故障排除。詳而言之,在預設情況下,轉盤6〇 受馬達Μ驅動,沿第一方向旋轉(即順轉)以傳送硬幣時;若 M423886 旦硬幣阻塞,可經由一電子電路自動感應,使轉盤6〇沿 第一方向旋轉(即逆轉)達一預設的角位移,而後使轉盤6〇 順轉,重新傳送貨幣;若仍為阻塞狀況,則此一流程重覆, 直到阻塞狀況排除。此將於後文詳述。 底座80之結構較佳如圖丄及圖2所示,其具有一表面82, 可供轉盤60以可旋轉方式安裝及結合。該表面82可供收集 斗20之底面26安裝及固定,且較佳相對於地面傾斜,以使 收集斗20之底面20在安裝後相對於地面傾斜。此一傾斜不 但利於收集斗20之硬幣向位於送出口 24的轉盤6〇集中並 可助於落在各袋孔62的硬幣,經由重力而貼附於該底座8〇 之表面上。表面82上可設有孔84以與掛㈣結合。底座⑽ 之一端與該槁軸裝置之一第二部份32結合,藉由枢轴裝置 =2)之第-部份3〇及第二部份%相互結合可允許該收 集斗20與傳送總成4Qn樞轉運動。 :㈣進一步包括一轉轍總成9〇,其允 轉盤6〇之袋孔62内所配置的硬幣,從該環狀之第-二 2切換至—第二傳送路徑。該轉轍總成包括··至少叶 件92及-路徑轉換件94。稽件%之 擋 孔62之各該硬幣描徂抱祕 及,,,°構,在對各袋 ⑽供一偏•環狀之第_傳 力,以使所接觸之硬幣偏離該環狀之 =向 該第二傳送路徑移動。根據本案之較佳實朝向 -單向通行件,-方面在轉盤6。順: 擋轉盤60内之硬幣隨之通過、並導引 )轉動時,阻 送路徑,另方面在轉盤6〇逆向 向该第二傳 (第—方向)轉動時,允許轉盤 M423886 60之硬幣隨之通過4此,單向通行件形式之擋件9 具有不同結構之第一侧及第二側。該第—側面對該第—方 向且形成-擋壁,且較佳配置成接觸硬幣之略线轉盤的 内側之-下緣(參圖2),以使硬幣受阻擋後可轉向遠離 之方向繼續前進》該第二側面對第二方向,且較佳形成一 可向下偏Μ之斜面(參圖υ,以允許沿第二方向傳送之硬幣 通過。根據本案實施例’此第二方向為進行阻塞排除時使 用,一旦電子電路感應硬幣阻塞時,電子電路自動令轉盤 60沿第二方向旋轉(即逆轉)達一預設的角位移,使硬幣退出 袋孔62,而後使轉盤6〇順轉,重新傳送貨幣;若仍為阻塞 狀況,則此一流程重覆,直到阻塞狀況排除。路徑轉換^ 第二傳送路徑之一入口處且定位於一第一位置。 圖1所示實施例中,路徑轉換件94設於該轉盤6〇外緣而鄰近 擋件92/單向通行件1有必要,路徑轉換件%可受硬繁推 動而自該第一位置彈性偏壓到一離開第二傳送路徑之第二 位置,以允許硬幣通過第二傳送路徑。圖示之示意性實 把例為硬幣由下向上推動路徑轉換件94。 圖3A至3F所示為轉盤60之詳細結構。轉盤6〇較佳於其上 表面設有從袋孔62邊緣向袋孔62傾斜之導面63,利於硬幣 落入袋孔62中。轉盤6〇包括一面向該底座8〇之背側66。各 敕孔62在該背側66上設有導肋68 ,各導肋68從袋孔62之一 位於環狀之第一傳送路徑内之一端沿著袋孔62邊緣向轉盤 6〇周緣延伸(參圖3E及圖3F)。導肋68較佳為弧形。如圖邛 及3F所示,背側66另設有延伸穿過導肋68的槽道70,以允 M423886 許亥擋件92/單向通行件通過。導肋68旁可設有大致沿導肋 68延伸之縱向槽69,可供位於袋孔62内之鐵肩在轉盤⑼ 的離。力下/α縱向槽69排出轉盤6〇。較佳如圖%及圖扣所 丁轉盤60之一上表面包括凸塊”及”,其分別形成有朝 向袋孔62傾斜之導面73及75,可幫助硬幣(尤如堆積成直立 狀的硬幣)輕易滑入袋孔62。_中所示意之凸塊取於轉盤 6〇之中心,為截頭圓錐狀,但實施本案時,並不限於此形 狀;只要形成有朝向袋孔62傾斜之導面者皆可達成前述功 效° 之路徑ρ顯示擔件92/單向通行件經過的路徑。 尤特別料,各導肋68之結射與該轉㈣㈣的擔件 92/單向通行件及路徑轉換件%組成—導引路徑;該導引路 挺連接於該第-傳送路徑及第二傳送路徑之間,用以在轉 盤60順向旋轉時,導引受擋件92/單向通行件阻擋的硬幣, 使硬幣從環狀之第一傳送路徑轉向至一第二傳送路徑。亦 即’隨著轉盤60轉動之硬幣,首先受到擋件%,單向通行件 的阻擋而轉向遠離轉盤之方向繼續前進;其後,硬帶接觸 位於第一位置之路徑轉換件94,且若有必要,將路徑轉換 件94推動到一離開硬幣路徑之第二位置,再沿著第二傳送 路徑向出口前進。播件92/單向通行件可受推動而自一第一 位置偏壓到一第二位置,並可自第二位置彈性偏壓到該第 一位置。路徑轉換件94可在彈 一 Α 下回到弟一位置。弧形的 =有助於硬幣更平滑地從袋孔以導引至第二傳送路 ^此—豹丨路彳!的設計,允許位於 狀之第-傳送路徑中的硬幣,在不需額外使用一轉換硬: 9 M423886 方向之第二馬達的情形下,即可轉向到第二傳送路徑。 再如圖1所示’第二傳送路徑之入口處較佳設有一供硬帶 進入之通道組件96,該通道組件96包括一板片97、第一側 片98及第二側片98' ’第一側片98及第二側片98,藉由螺絲等 固定物分別夾持於板片97兩側及底座80之表面82上,而在 内部形成一硬幣通道’為第二傳送路徑之第一部份。板片 97可設有一顯示窗,以供檢視通道組件96内的硬幣。圖1 及圖2之較佳貫施例所示板片9 7 —端有一缺口,係為容納路 徑轉換件94。圖1之較佳實施例中所示第一側片98之一端設 置該路徑轉換件94,故較第二側片98,略短。通道組件96較 佳以螺絲固定於底座8〇上。 出口總成100連接於通道組件96之背離第二傳送路徑之 入口處之一端,其包括:第一板片1〇2、第二板片1〇4、第 一侧片106及第二側片108 ;該第一側片1〇6及第二側片ι〇8 分別夹持於第一板片102及第二板片1〇4之間的兩側,以留 下一硬幣通道,該硬幣通道為該第二傳送路徑之一第二部 份。第二傳送路徑較佳是通往一硬幣出口且較佳為大致 直線狀之路徑0第一板片1〇2及第二板片1〇4可設有顯示窗 103’以供觀察/檢查該通道内之硬幣。 較佳如圖1所示,為使出口總成1〇〇具有多口徑組合之特 點:第-側片i 0 6設有多個安裝孔,第二側片⑽設㈣應 4夕個t裝孔之對應安裝孔,每一安裝孔與每一對庳安裝 孔組組安裝孔112,114,且每一安裝孔與每—編裝 孔至乂其中之一為多點式孔。圖1所示成組安裝孔112包括 10 梦 / 則片l〇6之—多點式孔(如長孔)及第二側片108(如圓 孔)之孔,成組安裝孔114則包括第一側片106之一孔及第 一側片108之一多點式孔。此處「多點式孔」指的是有多處 安裝位置以邊換通道寬度之孔;圖]於第二側片⑽所示之 女裝112為2點式孔。通道寬度大小代表可通過的硬幣的大 • 丨,而根據以上結構,在藉由螺絲固定時,只要選擇螺絲 鎖口於夕點式孔的位置’即可產生不同的通道寬度。 脅根據本案之較佳實施例,各組安裝孔之位置經配置成: 第側片及第二側片其中之一以180度旋轉後,第一側片及 第一側片上之對應位置之安裝孔仍存在相互對應關係。 岫述通道組件96的板片97、第一側片98及第二側片98,的 之間界定的通道,亦可藉由採取類似出口總成1的第一側片 106及第二側片1〇8的方式,而可變換通道寬度。 、上所有s兑明用以闡釋本創作之較佳實施例,而非用以 限制本創作。任何依照本創作之結構、特徵、主旨及申請 φ 專利範圍所施行之其他簡單變化的等效實施例,都應由本 案之申請專利範圍所涵蓋。 【圖式簡單說明】 圖1為本創作之分解圖。 圖2為傳送裝置之局部放大圖。 圖3A至圖3F為轉盤之結構示意圖。 【主要元件符號說明】 11 M423886 10 出幣裝置 20 收集斗 22 接收口 24 送出口 30 樞軸裝置之第- -部份 32 樞軸裝置之第二 二部份 40 傳送總成 60 轉盤 62 袋孔 63 導面 64 軸孔 66 背側 68 導肋 70 槽道 72 凸塊 73 導面 74 凸塊 75 導面 80 底座 82 表面 84 90 轉轍總成90 92 擋件 94 路徑轉換件 12This creation also provides an export assembly that converts the width of the channel to allow for the delivery of hardbands of different sizes. The advanced features of this creation can be further understood by the following embodiments and drawings. [Embodiment] As shown in Fig. 1, the coin dispensing device 10 of the present invention includes a collecting bucket 20, a conveying assembly 40, and an outlet assembly 100. The collection hopper 20 includes a receiving port 22 and a delivery port 24, wherein the receiving port M423886 22 can receive a plurality of coins. The preferred embodiment of the figure - ^ receiving port 22 Che Jia is a rectangular opening. The collection hopper 20 preferably includes a "sliding = outlet 24 that is lowered from the receiving cymbal 22 with respect to the bottom surface 26 inclined with respect to the ground. The delivery outlet 24 is configured to accommodate the transfer assembly 4 - turn, 6 〇. The shape and size of the outlet 24 are such that the fallen coins are not caught. The preferred embodiment is circular and substantially the same size as the turntable 6 。. μ must be = at the inner edge of the delivery opening 24 corresponding to the turntable 6G Set the material such as metal or apply m to resist or reduce the abrasion between the wall surface of the sending σ24 and the turntable 6. The collecting hopper 20 is fixed to the transport assembly buckle by a fixing device. The fixing device preferably includes - or more The hook 28 can be combined with the corresponding hole 84 of the transport assembly. The fixing device can also include a second portion of the pivot device preferably disposed at one end of the collecting hopper 2 to allow the collecting bucket 2() to She is in a pivotal motion between 40. The transfer assembly 40 is coupled to the collection hopper 20 for dispensing the coins from the collection hopper (10). The delivery assembly 4 includes: a turntable 6 And a base 80, and preferably includes a motor M for driving the turntable 6〇 to rotate. The outlet 24 of the collecting hopper 20 is in communication, and is provided with a plurality of pockets 62 forming an annular array for accommodating coins; the rotation of the dial 6 defines an annular first conveying path. A shaft hole 64 (refer to FIG. 3A) is coupled to one of the shafts of the motor to be driven by the motor M. According to a preferred embodiment of the present invention, the turntable 60 is rotatable in a first direction to convey coins; Rotating in a second direction opposite to the first direction for troubleshooting. In detail, in a preset case, the turntable 6 is driven by the motor , to rotate in the first direction (ie, to rotate) to transfer coins If the M423886 coin is blocked, it can be automatically sensed via an electronic circuit to rotate the turntable 6〇 in the first direction (ie, reverse) to a predetermined angular displacement, and then the turntable 6 is rotated to retransmit the currency; In order to block the condition, the process is repeated until the blocking condition is eliminated. This will be described later. The structure of the base 80 is preferably as shown in FIG. 2 and FIG. 2, and has a surface 82 for the turntable 60. Rotatable mounting and bonding. The surface 82 can be The bottom surface 26 of the collecting bucket 20 is mounted and fixed, and is preferably inclined with respect to the ground so that the bottom surface 20 of the collecting bucket 20 is inclined relative to the ground after installation. This tilting is advantageous for the coin of the collecting bucket 20 to be located at the delivery opening 24. The turntable 6〇 is concentrated and can assist the coins falling in the pockets 62 to be attached to the surface of the base 8 by gravity. The surface 82 can be provided with holes 84 for coupling with the hanging (4). One end of the base (10) The second portion 32 of the boring device is coupled, and the combination of the first portion 3 〇 and the second portion 5% of the pivot device = 2) allows the collection hopper 20 and the transmission assembly 4Qn to pivotally move. (4) Further comprising a switch assembly 9 that allows the coins disposed in the pockets 62 of the turntable to be switched from the second to the second transmission path to the second transmission path. The switch assembly includes at least a leaf member 92 and a path transition member 94. Each of the coins of the retaining member 62 is provided with a eccentric force of a partial/ring to each bag (10) so that the contacted coin deviates from the ring. = Move to the second transfer path. According to the preferred real orientation of the case - a one-way pass, - in the turntable 6. Shun: When the coin in the stop dial 60 passes and guides, the path is blocked, and when the turntable 6 is reversed to the second pass (the first direction), the coin of the turntable M423886 60 is allowed to follow. By this, the one-way pass member 9 has a first side and a second side of different configurations. The first side faces the first direction and forms a blocking wall, and is preferably configured to contact the inner side of the coin to the lower edge of the coin (refer to FIG. 2), so that the coin can be turned away from the blocked direction. The second side faces the second direction, and preferably forms a downwardly sloping slope (refer to the figure to allow the coins conveyed in the second direction to pass. According to the embodiment of the present invention, the second direction is performed When the blocking is excluded, the electronic circuit automatically rotates (ie, reverses) the turntable 60 in a second direction to a predetermined angular displacement once the electronic circuit senses the coin jam, causing the coin to exit the pocket 62, and then the turntable 6 is rotated. Retransmission of the currency; if it is still blocked, the process is repeated until the blocking condition is excluded. The path is converted to one of the entrances of the second transmission path and positioned at a first location. In the embodiment shown in FIG. The path conversion member 94 is disposed on the outer edge of the turntable 6 而 adjacent to the stop member 92 / the one-way pass member 1 is necessary, the path conversion member % can be hardly pushed and elastically biased from the first position to a second transfer Second place of the path In order to allow the coin to pass through the second conveying path, the schematic illustration of the illustration shows that the coin pushes the path converting member 94 from the bottom up. Fig. 3A to Fig. 3F show the detailed structure of the turntable 60. The turntable 6 is preferably above it. The surface is provided with a guiding surface 63 inclined from the edge of the pocket hole 62 toward the pocket hole 62, so that the coin falls into the pocket hole 62. The turntable 6A includes a back side 66 facing the base 8〇. The pupil 62 is on the back side. 66 is provided with guide ribs 68, and each of the guide ribs 68 extends from one of the pocket holes 62 at one end of the annular first conveying path along the edge of the pocket hole 62 toward the periphery of the turntable 6 (refer to Figs. 3E and 3F). The guide ribs 68 are preferably curved. As shown in Figures 3 and 3F, the back side 66 is further provided with a channel 70 extending through the guide ribs 68 to allow the M423886 Shield member 92/one-way passage member to pass. A longitudinal groove 69 extending substantially along the guide rib 68 may be disposed beside the rib 68, and the iron shoulder located in the pocket hole 62 may be discharged from the turntable (9). The force/α longitudinal groove 69 is discharged from the turntable 6〇. And one of the upper surfaces of the buckle turntable 60 includes a bump "and" which are respectively formed with guide surfaces 73 and 75 which are inclined toward the pocket hole 62 to help the coin (especially stacked) The erected coin is easily slid into the pocket 62. The bulge shown in _ is taken from the center of the turntable 6〇 and is frustoconical, but in the present case, it is not limited to this shape; 62 inclined guides can achieve the aforementioned effect ° path ρ shows the path of the support member 92 / one-way pass through. Especially, the guide ribs 68 and the transfer (four) (four) of the support 92 / one-way The passage member and the path conversion member % constitute a guiding path; the guiding path is connected between the first conveying path and the second conveying path for guiding the receiving member 92/ when the turntable 60 rotates in the forward direction. The coin blocked by the one-way passer causes the coin to be diverted from the first conveying path of the ring to a second conveying path. That is, the coin that rotates with the turntable 60 is first blocked by the blocking member and the one-way passing member. Steering forwards away from the turntable; thereafter, the hardband contacts the path transition 94 at the first position and, if necessary, pushes the path switch 94 to a second position away from the coin path, and then along the second The transfer path advances toward the exit. The broadcast member 92/one-way pass member is biased to be biased from a first position to a second position and is resiliently biased from the second position to the first position. The path conversion member 94 can be returned to the position of the younger one by one. The curved shape helps the coin to pass smoothly from the pocket to the second transmission path. The design allows the coin located in the first-transport path to be diverted to the second transfer path without the need for an additional conversion: 9 M423886 in the direction of the second motor. Further, as shown in FIG. 1, the entrance of the second transmission path is preferably provided with a channel assembly 96 for hardband access. The channel assembly 96 includes a plate 97, a first side panel 98 and a second side panel 98'. The first side piece 98 and the second side piece 98 are respectively clamped on both sides of the plate piece 97 and the surface 82 of the base 80 by screws and the like, and a coin passage is formed inside as the second conveying path. a part. The sheet 97 can be provided with a display window for viewing coins within the channel assembly 96. The preferred embodiment of the embodiment of Figures 1 and 2 has a notch at the end of the plate, which is adapted to receive the path conversion member 94. The path conversion member 94 is disposed at one end of the first side panel 98 as shown in the preferred embodiment of Fig. 1, and is therefore slightly shorter than the second side panel 98. Preferably, the channel assembly 96 is screwed to the base 8 。. The outlet assembly 100 is coupled to one end of the channel assembly 96 away from the entrance of the second transmission path, and includes: a first plate 1〇2, a second plate 1〇4, a first side piece 106, and a second side piece 108; the first side panel 1〇6 and the second side panel ι8 are respectively clamped on both sides between the first panel 102 and the second panel 1〇4 to leave a coin passage, the coin The channel is a second portion of one of the second transmission paths. Preferably, the second transport path is a path to a coin outlet and is preferably substantially linear. The first panel 1〇2 and the second panel 1〇4 may be provided with a display window 103' for viewing/inspecting the Coins in the channel. Preferably, as shown in FIG. 1 , in order to make the outlet assembly 1 〇〇 have a multi-caliber combination, the first side panel i 0 6 is provided with a plurality of mounting holes, and the second side panel (10) is provided with (4) 4 s. The corresponding mounting holes of the holes, each mounting hole and each pair of mounting holes, the mounting holes 112, 114, and each of the mounting holes and each of the mounting holes to the one of the plurality of holes. The set of mounting holes 112 shown in FIG. 1 includes 10 holes of a dream piece, a multi-point hole (such as a long hole) and a second side piece 108 (such as a round hole), and the set of mounting holes 114 includes One of the holes of the first side piece 106 and one of the first side pieces 108 are multi-point holes. Here, "multi-point hole" refers to a hole having a plurality of mounting positions for changing the width of the channel; Fig. 4 is a 2-point hole in the women's 112 shown in the second side panel (10). The width of the channel represents the size of the coin that can pass, and according to the above structure, when the screw is fixed, the position of the screw is selected at the position of the dot hole to produce different channel widths. According to a preferred embodiment of the present invention, the positions of the mounting holes of each group are configured to: after the one of the first side panel and the second side panel is rotated by 180 degrees, the corresponding positions on the first side panel and the first side panel are installed. The holes still have a corresponding relationship. The channel defined between the plate 97, the first side panel 98 and the second side panel 98 of the channel assembly 96 can also be defined by adopting a first side panel 106 and a second side panel similar to the outlet assembly 1. 1〇8 way, but the channel width can be changed. All of the above are intended to illustrate the preferred embodiment of the creation, and are not intended to limit the creation. Any equivalent embodiments that follow the structure, features, and spirit of the present invention and other simple variations of the scope of the application of the φ patent shall be covered by the scope of the patent application of this application. [Simple description of the diagram] Figure 1 is an exploded view of the creation. Figure 2 is a partial enlarged view of the conveying device. 3A to 3F are schematic structural views of a turntable. [Main component symbol description] 11 M423886 10 Coin device 20 Collecting bin 22 Receiving port 24 Feeding port 30 Pivot device - Part 32 Pivot device second part 40 Transfer assembly 60 Turntable 62 Pocket hole 63 Guide 64 Shaft hole 66 Back side 68 Guide rib 70 Channel 72 Bump 73 Guide 74 Bump 75 Guide 80 Base 82 Surface 84 90 Turn assembly 90 92 Block 94 Path changer 12