201144052 六、發明說明: 【發明所屬之技術領域】 本發明係關於已成環形狀之輪胎中間體之外周面具有螺 旋狀捲繞簾線之敷貼器(捲繞裝置)之輪胎成形機。 【先前技術】 此種輪胎成形機廣為認知的是具有一面使已成環形狀之 輪胎中間體繞著轴線旋轉,一面經由供給滾輪(貼附滾 輪)’將簾線供給至該輪胎中間體之外周面,螺旋狀捲繞 之敷貼器。 且,使從配置於上述敷貼器之後方(與輪胎中間體成相 反之側)之外部施配裝置繞出之簾線,供給至設置於敷貼 器之後部之導引滾輪。 又’由於敷貼器會伴隨著簾線捲繞進行旋回移動,故從 外部施配裝置之出口,以俯視觀察對敷貼器之簾線之供給 角度時,以在捲繞之初期與末期直線軸(敷貼器之中心線) 為界,角度發生變化。 [先前技術文獻] [專利文獻] [專利文獻1]曰本專利第3020993號公報 【發明内容】 [發明所欲解決之問題] 然而,在上述之輪胎成形機中,由於供給至敷貼器之簾 線伴隨著簾線捲繞’從動於旋回移動之敷貼器,其結果, 從外部施配裝置至供給滾輪之簾線長度在1個輪胎成形期 152700.doc ⑤ 201144052 ]產生變化,且供給角度亦產生變化故會產生張力變 化,且於簾線會產生扭曲或反轉,從而有導致輪胎之品質 降低之問題。 即,若於輪胎成形中簾線產生長度變化、供給角度變 化,則在如圖5A所示之i條鋼線或纖維素材之單線或撚線s 包覆於橡膠R而成之剖面為大致正圓狀之簾線“中,導引 滾輪部會產生扭曲,而在複數條(在圖示例中為2條)之鋼線 或纖維素材之單線或撚線S包覆於橡膠R而成之帶狀簾線 b中導引滾輪部會產生上下面反轉等之不良。 再者在專利文獻1中,雖揭示有於移動敷貼器後端設 置可紅轉之簾線之引導滾輪,從而抑制簾線之張力變化之 技術仁該技術無法充分抑制伴隨著簾線之長度變化及角 度變化的張力之變化。 因此,本發明之目的在於提供一種能夠抑制輪胎成形中 之簾線之長度變化或角度變化,成形品質穩定之輪胎之輪 胎成形機。 [解決問題之技術手段] 為達成上述之目的之本發明之輪胎成形機係包含於環形 狀之輪胎中間體之外周面經由貼附滾輪將簾線捲繞成螺旋 狀之敷貼器者,且其特徵為: 上述貼附滾輪係與上述輪胎中間體之外周面相對向而可 前後移動、左右移動及旋回移動地被支持於敷貼器,且 將經由滾輪列從外部施配裝置對上述貼附滾輪供給之簾 線,相對於該貼附滾輪之向上述輪胎中間體之接點從上述 152700.doc 201144052 貼附滾輪之旋回軸線之延長線上供給,以此方式而構成上 述滾輪列。 又,在從上述貼附滾輪之旋回軸線之延長線上供給上述 簾線之則,為將上述貼附滾輪之左右移動時產生之簾線長 度變化設為最小,而以經由敷貼器之側方的方式構成上述 滾輪列。 又’上述敷貼器包含: 可在移動台基座上於前後方向移動之前後移動台; 可在上述前後移動台上於左右方向移動之左右移動台; 被支持於上述左右移動台上可旋回移動之旋回移動台;及 可在上述旋回移動台上於前後方向移動之壓抵移動台;且 於上述壓抵移動台上支持有上述貼附滚輪,且 上述滾輪列之各滾輪配設於上述前後移動台、上述左右 移動台及上述壓抵移動台。 [發明之效果] 根據本發明之輪胎成形機,可抑制輪胎成形中伴隨著簾 線之長度變化、供給角度變化之張力變化與剖面為大致正 圓狀之簾線之扭曲或帶狀簾線之反轉,從而形成品質更穩 定之輪胎。 【實施方式】 以下,使用圖式,藉由實施例詳細地說明本發明之輪胎 成形機。 [實施例] 圖1係顯示本發明之一實施例之輪胎成形機之敷貼器的 1527〇〇,(3〇q 201144052 侧視圖,圖2係相同之輪胎成形機之敷貼器之平面圖,圖3 係相同之輪胎成形機之敷貼器之正面圖,圖4 A至圖4D係 相同之輪胎成形機之敷貼器之作用說明圖,圖5八係剖面為 大致正圓狀之簾線之剖面圖’圖5 B係帶狀簾線之剖面圖。 如圖1至圖3所示,本輪胎成形機係藉由敷貼器(簾線捲 繞裝置)10 ’將從未圖示之線軸藉由外部施配裝置繞出且 由垂直旋轉之導引滾輪100所供給之簾線C,螺旋狀地捲繞 於經由圓柱10 3可繞著轴線自由旋轉地被支持於主軸箱1 〇 1 之主軸102上之環形狀之輪胎中間體T之圓弧狀外周面。 上述敷貼器10首先使前後移動台20在移動台基座11上於 前後方向(參照圖2之X軸方向)可移動地搭載。其次,使左 右移動台30在前後移動台20上於左右方向(參照圖2之γ轴 方向)可移動地搭載。其次’於左右移動台30上自由旋轉 (參照圖3之R軸方向)地支持旋回移動台40。最後,於旋回 移動台40上,在前後方向(參照圖2之X軸方向)可移動地搭 載壓抵移動台50。 前後移動台20係經由線性滑軌12而藉由未圖示之致動器 移動(參照圖1及圖3 )。左右移動台3 0係經由線性滑軌2 1而 藉由推進螺桿2 2移動(參照圖1及圖3 )。旋回移動台4 0係藉 由經由上下一對軸承31而自由轉動地支持於左右移動台3〇 之前部之旋回軸41,並藉由卷纏傳動機構32及旋回馬達33 而旋回(參照圖1及圖3) »壓抵移動台50係經由線性滑軌 42 ’藉由未圖示之致動器進行移動(參照圖1及圖3)。 且,於上述前後移動台20上’於右後端部立設有側視觀 152700.doc 201144052 察為倒L字狀之前後移動支柱23,於該前後移動支柱23之 垂直支柱部之上部,經由支架24而自由垂直旋轉地支持上 下一對導引滾輪26a、26b ’且上方之導引滾輪26b係藉由 馬達28予以驅動旋轉。 又,於垂直支柱部上,經由縱長之導軌23a而自由上下 移動且自由垂直旋轉地支持有活動滾輪26c。另一方面, 於前後移動支柱23之水平支柱部,於前後方向中間部自由 垂直旋轉地支持導引滾輪26d ’且於前端部經由支架25而 自由水平旋轉地支持轉向滚輪27。 又’於左右移動台30上’於左右方向中間部立設側視觀 察為倒L字狀之左右移動支柱34,且於該左右移動支柱34 之水平支柱部之前端部,經由支架35而自由垂直旋轉地支 持轉向滾輪36。 又’於上述壓抵移動台50上,於後方立設側視觀察為倒 L字狀之旋回移動支柱51,且於該旋回移動支柱51之水平 支柱部之前端,自由垂直旋轉地支持導引滾輪52a,又, 於垂直支柱部之上下方向中間部,自由垂直旋轉地支持導 引滾輪52b。又’於壓抵移送台50之前部,經由支架54而 自由垂直旋轉地支持貼附滾輪53。 因此,來自外部施配裝置之導引滾輪1〇〇之簾線C在前後 移動台20之前後移動支柱23處’係環繞成導引滾輪26a— 導引滾輪26b—活動滾輪26c—導引滾輪26d—轉向滾輪27, 藉由活動滾輪26c吸收其鬆弛’且藉由轉向滾輪27將供給 方向(路徑)從前方送進切換成左方送進。 152700.doc 201144052 藉由上述轉向滾輪2 7切換路徑之簾線c環繞至左右移動 台30之左右移動支柱34之轉向滾輪刊,且藉由該轉向滾輪 36將供給方向(路徑)切換成下方送進,從而環繞至壓抵移 動台50之旋回移動支柱51之導引滾輪52a。 %繞至上述導引滾輪52a之簾線C向導引滾輪52b一度向 後方環繞後,向貼附滾輪53環繞’而藉由該貼附滾輪53螺 旋狀地捲繞(貼附)於輪胎中間體τ之圓弧狀外周面。 將此時之敷貼器10之動作顯示於圖4八至圖4D。即圖 4A係在相對於輪胎十間體τ之貼附面之初始位置,前後移 動台20定位於移動台基座u上之最後部,左右移動台⑽及 旋回移動台40定位於移動台基座n上之左右方向中央。此 時之左右移動台30及旋回移動台4〇之位置係位於輪胎中間 體T之與軸線正交之中心線之延長線上。 圖4B係在對輪胎中間體Τ之貼附面之貼附開始位置,貼 附滾輪53在環形狀之輪胎中間體τ之寬度方向一端部,以 朝向輪胎中間體T之大致外周部法線方向的方式,藉由前 後移動台20、左右移動台30及旋回移動台4〇予以定位。 圖4C係在對輪胎中間體T之貼附面之貼附中央位置,貼 附滾輪53之姿勢處於一面維持輪胎中間體τ之大致外周部 法線方向並藉由前後移動台20、左右移動台3〇及旋回移動 台40予以定位移動,一面通過環形狀之輪胎中間體τ之外 周面頂部之狀態。 圖4D係在對輪胎中間體T之貼附面之貼附完成位置,貼 附滾輪5 3之姿勢處於維持輪胎中間體τ之大致外周部法線 152700.doc 201144052 方向並藉由前後移動台20、左右移動台30及旋回移動台4〇 予以定位移動下,到達與環形狀之輪胎中間體丁之貼附開 始位置成相反側之寬度方向另一端部的狀態。 以上之3軸動作(前後移動台20之X軸、左右移動台3〇之 Y轴、旋回移動台40之R軸)係由各致動器(推進螺桿22、旋 回馬達33等)藉由未圖示之電腦或定序器等之控制裝置, 根據輪胎中間體T之尺寸予以驅動控制而實施。 如此,根據本實施例,由於從線軸側繞出之簾線c並非 如先前技術般「直接供給至支持於敷貼器之後部之導引滾 輪」,而是對由旋回軸41支持且旋回之貼附滾輪53與輪胎 中間體T相接之前端從上方供給,故可將成形丨個輪胎過程 中之簾線長度、簾線供給角度之變化抑制在最小限度。 又,由於在從上述之貼附滾輪53之上方供給簾線c之 前’無論左右移動台30之移動動作為何,均始終經由左右 移動台30之一側方(在圖示例中為右方)供給,故亦可將左 右移動台30相對於輪胎中間體τ之中心線平行移動時產生 之簾線長度變化抑制在最小限度。 該等之結果,可抑制於輪胎成形中伴隨著簾線c之長度 變化、供給角度變化之張力變化及剖面為大致正圓形之簾 線Ca之糾結或帶狀簾線Cb之反轉,從而進行品質更穩定之 輪胎成形。 再者,本發明並不限定於上述實施例,在不脫離本發明 之主旨之範圍内當可進行各種變更。例如,在前後移動台 20中’亦可使簾線c在左右移動台3〇之右方經由側方通 152700.doc 201144052 過。又,導引滾輪之數或配置(尤其在前後移動台20之前 後移動支柱23處)可適宜轉向。又,本發明亦可適用於經 由左右移動台之側方供給簾線C之機構,不僅對環形狀之 輪胎中間體T,亦對圓筒狀之輪胎中間體均勻地捲繞簾線ε 之情形。 [產業上之可利用性] 本發明之輪胎成形機較宜用於使用已成環形狀之輪胎之 一'輪車專之充氣輪胎之成形。 【圖式簡單說明】 圖1係顯示本發明之一實施例之輪胎成形機之敷貼器的 側視圖。 圖2係相同之輪胎成形機之敷貼器之平面圖。 圖3係相同之輪胎成形機之敷貼器之正面圖。 圖4A係相同之輪胎成形機之敷貼器之作用說明圖。 圖4 B係相同之輪胎成形機之敷貼器之作用說明圖。 圖4C係相同之輪胎成形機之敷貼器之作用說明圖。 圖4 D係相同之輪胎成形機之敷貼之作用說明圖。 圖5 A係剖面為大致正圓狀之簾線之剖面圖。 圖5B係帶狀簾線之剖面圖。 【主要元件符號說明】 10 敷貼器 11 移動台基座 12 線性滑軌 20 前後移動台 152700.doc 201144052 21 22 23 24 25 26a ' 26b ' 26d 26c 27 28 30 31 32 33 34 35 36 40 41 42 50 51 52a 、 52b 53 54 線性滑執 推進螺桿 前後移動支柱 支架 支架 導引滾輪 活動滚輪 轉向滾輪 馬達 左右移動台 軸承 卷纏傳動機構 旋回馬達 左右移動支柱 支架 轉向滾輪 旋回移動台 旋回軸 線性滑軌 壓抵移動台 旋回移動支柱 導引滾輪 貼附滾輪 支架 152700.doc -12- ⑤ 201144052 100 導引滾輪 101 主軸箱 102 主軸 103 圓筒 c 簾線 Ca 剖面為大致正圓狀之簾線 Cb 帶狀簾線 T 輪胎 152700.doc -13-[Technical Field] The present invention relates to a tire molding machine having an applicator (winding device) having a spirally wound cord on the outer circumferential surface of a tire intermediate body having a ring shape. [Prior Art] It is widely recognized that such a tire building machine has a side in which a tire-shaped intermediate body is rotated about an axis, and a cord is supplied to the tire intermediate body via a supply roller (attach roller) Outside the circumference, a spirally wound applicator. Further, the cord which is wound out from the external dispensing device disposed behind the applicator (opposite the tire intermediate) is supplied to the guide roller provided at the rear portion of the applicator. In addition, since the applicator rotates along with the cord winding, the exit angle of the applicator is viewed from the exit of the external dispensing device, and the straight line is at the beginning and end of the winding. The axis (the center line of the applicator) is bounded and the angle changes. [Prior Art Document] [Patent Document 1] [Patent Document 1] Japanese Patent No. 3020993 [Disclosure] [Problems to be Solved by the Invention] However, in the above-described tire molding machine, since it is supplied to the applicator The cord is accompanied by the cord winding 'according to the applicator for the reciprocating movement, and as a result, the length of the cord from the external application device to the supply roller is changed in one tire forming period 152700.doc 5 201144052], and There is also a change in the supply angle, which causes a change in the tension, and the cord is twisted or reversed, which causes a problem in that the quality of the tire is lowered. In other words, when the length of the cord changes and the supply angle changes during the tire molding, the cross section of the i-stripe or the fiber material or the twisted wire s as shown in FIG. 5A is substantially positive. In the circular cord "in the guide roller portion, distortion occurs, and in the plurality of strips (two in the illustrated example), the steel wire or the single material or the twisted wire S of the fiber material is coated with the rubber R. In the belt cord b, the guide roller portion has a defect such as an inversion of the upper and lower sides. Further, in Patent Document 1, a guide roller that is provided with a red-turnable cord at the rear end of the movable applicator is disclosed. The technique for suppressing the change in the tension of the cord does not sufficiently suppress the change in the tension accompanying the change in the length of the cord and the change in the angle. Therefore, it is an object of the present invention to provide a method for suppressing the change in the length of the cord during tire formation or [Technical means for solving the problem] The tire molding machine of the present invention for achieving the above object is included in the outer peripheral surface of the ring-shaped tire intermediate body via the attaching roller The wire is wound into a spiral applicator, and the attaching roller is supported by the applicator so as to be movable forward and backward, to the left and right, and to the reciprocating movement, so as to face the outer peripheral surface of the tire intermediate body. And the cord supplied to the attaching roller from the external dispensing device via the roller row, and the contact point of the attaching roller to the tire intermediate body from the above-mentioned 152700.doc 201144052 attached to the rotation axis of the roller The supply of the cord row is configured in such a manner that the cord is supplied from the extension line of the rotation axis of the attachment roller, and the length of the cord generated when the attachment roller is moved to the right or left is set to The above-mentioned applicator includes: a movable platform that can be moved in the front-rear direction on the base of the mobile station before being moved to the side of the applicator; a left and right moving table that moves in the left and right direction; a revolving mobile station that is supported on the left and right moving stages and can be rotated back; and can be in the front and rear direction on the revolving mobile station And pressing the moving table; and supporting the attaching roller on the pressing and moving table, and the rollers of the roller row are disposed on the front and rear moving table, the left and right moving table, and the pressing and moving table. According to the tire molding machine of the present invention, it is possible to suppress the change in the tension accompanying the change in the length of the cord and the change in the supply angle during the tire molding, the twist of the cord having a substantially round cross section, or the reversal of the cord cord. In the following, the tire molding machine of the present invention will be described in detail by way of embodiments with reference to the drawings. [Embodiment] FIG. 1 is a tire molding showing an embodiment of the present invention. 1527〇〇 of the applicator of the machine, (3〇q 201144052 side view, Fig. 2 is the plan view of the applicator of the same tire building machine, Fig. 3 is the front view of the same applicator of the tire forming machine, Fig. 4A to 4D are diagrams of the action of the applicator of the same tire building machine, and Fig. 5 is a cross-sectional view of the substantially straight circular cord in the cross section of Fig. 5B. Fig. 5 is a cross-sectional view of the B-belt cord. As shown in FIG. 1 to FIG. 3, the tire molding machine is guided by an external applicator by an applicator (cord winding device) 10' and guided by vertical rotation. The cord C supplied from the roller 100 is spirally wound around an arc of a ring-shaped tire intermediate body T which is supported by the main shaft 102 of the headstock 1 〇1 so as to be rotatable about the axis via the cylinder 103 Shaped outer surface. The applicator 10 first movably mounts the front and rear moving table 20 on the moving table base 11 in the front-rear direction (see the X-axis direction in Fig. 2). Next, the left and right moving stages 30 are movably mounted on the front and rear moving stages 20 in the left-right direction (see the γ-axis direction in Fig. 2). Next, the rotary moving table 40 is supported by freely rotating on the right and left moving stages 30 (refer to the R-axis direction of Fig. 3). Finally, the rotary table 40 is movably loaded against the moving table 50 in the front-rear direction (refer to the X-axis direction of Fig. 2). The front and rear moving table 20 is moved by an actuator (not shown) via the linear slide rail 12 (see Figs. 1 and 3). The left and right moving stages 30 are moved by the push screw 22 via the linear slides 2 1 (see Figs. 1 and 3). The reciprocating mobile station 40 is rotatably supported by the revolving shaft 41 at the front portion of the left and right moving table 3 by the pair of upper and lower bearings 31, and is rotated by the winding transmission mechanism 32 and the revolving motor 33 (refer to FIG. 1). And Fig. 3) » The press-fitting mobile station 50 is moved by an actuator (not shown) via the linear slide 42' (refer to Figs. 1 and 3). Further, on the front and rear moving table 20, a side view 152700.doc 201144052 is set up on the right rear end portion, and the pillar 23 is moved before and after the inverted L shape, and the upper pillar portion of the pillar 23 is moved forward and backward. The upper and lower pair of guide rollers 26a, 26b' are supported by the bracket 24 so as to be vertically rotatable, and the upper guide roller 26b is driven to rotate by the motor 28. Further, on the vertical pillar portion, the movable roller 26c is supported by the vertically long guide rail 23a so as to be freely movable up and down and freely rotatable. On the other hand, the horizontal pillar portion of the support post 23 is moved forward and backward to support the guide roller 26d' in the middle portion in the front-rear direction, and the steering roller 26 is supported by the front end portion so as to be horizontally rotatable via the bracket 25. Further, the left and right moving stays 34 are viewed from the side in the left-right direction on the left and right moving stages 30, and the left and right moving stays 34 are viewed as an inverted L-shaped side view, and the front end portions of the horizontal pillar portions of the right and left moving stays 34 are freely supported via the bracket 35. The steering roller 36 is supported vertically. Further, the above-mentioned press-fitting mobile station 50 is provided with a reciprocating movement strut 51 that is viewed in an inverted L shape in a side view, and is supported by the front end of the horizontal strut portion of the revolving movement strut 51 so as to be vertically rotatable. The roller 52a further supports the guide roller 52b so as to be vertically rotatable in the middle portion of the vertical pillar portion. Further, the attaching roller 53 is supported by the bracket 54 so as to be vertically rotatably supported by the front portion of the transfer table 50. Therefore, the cord C of the guide roller 1 from the external dispensing device is moved around the front and rear moving table 20 to be surrounded by the guide roller 26a - the guide roller 26b - the movable roller 26c - the guide roller 26d - the steering roller 27, which absorbs its slack by the movable roller 26c and switches the feed direction (path) from the front to the left feed by the steering roller 27. 152700.doc 201144052 The cord c of the switching path by the above-mentioned steering roller 27 surrounds the steering wheel of the left and right moving strut 34 of the left and right moving table 30, and the feeding direction (path) is switched to the lower side by the steering roller 36 The guide roller 52a of the swinging movement post 51 that is pressed against the moving table 50 is swung. The cord C wound around the guide roller 52a is once circumferentially surrounded by the guide roller 52b, and is wound around the attaching roller 53 and spirally wound (attached) to the tire by the attaching roller 53. The arc-shaped outer peripheral surface of the body τ. The action of the applicator 10 at this time is shown in Figs. 4-8 to 4D. That is, FIG. 4A is located at the initial position of the attachment surface with respect to the ten-body τ of the tire, and the front-rear mobile station 20 is positioned at the last portion on the base u of the mobile station, and the left-right mobile station (10) and the revolving mobile station 40 are positioned at the mobile station base. The center of the left and right directions on the seat n. At this time, the positions of the left and right moving table 30 and the revolving mobile station 4 are located on the extension line of the center line of the tire intermediate body T orthogonal to the axis. 4B is a attachment start position to the attachment surface of the tire intermediate crucible, and the attachment roller 53 is at one end portion in the width direction of the ring-shaped tire intermediate body τ so as to face the normal direction of the substantially outer peripheral portion of the tire intermediate body T. The method is positioned by the front and rear mobile station 20, the left and right mobile stations 30, and the revolving mobile station 4. 4C is a center position of the attachment surface of the tire intermediate body T, and the posture of attaching the roller 53 is maintained in the normal direction of the substantially outer peripheral portion of the tire intermediate body τ, and is moved by the front and rear moving table 20 and the left and right moving table. 3〇 and the rotary moving table 40 are positioned and moved while passing through the state of the top of the peripheral surface of the tire-shaped tire intermediate τ. 4D is a position at which the attachment surface of the tire intermediate body T is attached, and the posture of attaching the roller 53 is in the direction of the substantially outer peripheral normal line 152700.doc 201144052 of the tire intermediate body τ and by the front and rear moving table 20 The left and right moving table 30 and the revolving moving table 4 are positioned and moved to reach the other end portion in the width direction opposite to the attachment start position of the ring-shaped tire intermediate. The above three-axis operation (the X-axis of the front and rear moving table 20, the Y-axis of the left and right moving table 3, and the R-axis of the rotary moving table 40) are performed by the respective actuators (the propeller screw 22, the revolving motor 33, etc.). The control device such as the computer or the sequencer shown in the figure is driven and controlled according to the size of the tire intermediate body T. Thus, according to the present embodiment, since the cord c wound from the bobbin side is not directly supplied to the guide roller supported at the rear of the applicator as in the prior art, but is supported by the revolving shaft 41 and is rotated back. Since the front end of the attaching roller 53 and the tire intermediate body T are supplied from above, the change in the length of the cord and the cord supply angle during the formation of the tire can be minimized. Further, before the cords c are fed from above the attaching roller 53, "the side of the left and right moving stages 30 is always left (in the illustrated example, the right side) regardless of the moving operation of the left and right moving stages 30. Since it is supplied, it is also possible to minimize the change in the cord length which occurs when the right and left moving stages 30 are moved in parallel with respect to the center line of the tire intermediate body τ. As a result of this, it is possible to suppress the change in the length of the cord c, the change in the tension of the supply angle, the entanglement of the cord Ca having a substantially circular cross section, or the reversal of the strip cord Cb in the tire molding. For more stable tire formation. The present invention is not limited to the above embodiments, and various modifications can be made without departing from the spirit and scope of the invention. For example, in the front and rear mobile station 20, the cord c may also be passed to the right of the left and right mobile stations 3 via the side pass 152700.doc 201144052. Further, the number or arrangement of the guide rollers (especially at the front and rear of the moving table 20 before moving the support post 23) can be suitably steered. Further, the present invention is also applicable to a mechanism for supplying the cord C via the side of the right and left moving table, not only for the ring-shaped tire intermediate body T but also for the cylindrical tire intermediate body to uniformly wind the cord ε. . [Industrial Applicability] The tire building machine of the present invention is preferably used for forming a tire-specific pneumatic tire using a tire having a ring shape. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a side view showing an applicator of a tire building machine according to an embodiment of the present invention. Figure 2 is a plan view of an applicator of the same tire building machine. Figure 3 is a front elevational view of the applicator of the same tire building machine. Fig. 4A is an explanatory view of the action of the applicator of the same tire building machine. Fig. 4 is an explanatory view of the action of the applicator of the same tire forming machine. Fig. 4C is an explanatory view of the action of the applicator of the same tire building machine. Fig. 4 is an explanatory view of the action of the application of the same tire forming machine. Fig. 5 is a cross-sectional view showing a cord having a substantially right circular cross section. Figure 5B is a cross-sectional view of a ribbon cord. [Main component symbol description] 10 Applicator 11 Mobile station base 12 Linear slide 20 Front and rear moving table 152700.doc 201144052 21 22 23 24 25 26a ' 26b ' 26d 26c 27 28 30 31 32 33 34 35 36 40 41 42 50 51 52a , 52b 53 54 Linear Sliding Propulsion Screws Front and Rear Moving Props Brackets Brackets Guide Rollers Moving Rollers Steering Rollers Motors Left and Right Moving Table Bearings Winding Transmission Mechanisms Rotating Motors Left and Right Moving Props Brackets Rolling Wheels Rotating Moving Tables Rotating Back Axis Slides Abutting the moving table, the moving column guide roller is attached to the roller bracket 152700.doc -12- 5 201144052 100 Guide roller 101 Spindle box 102 Spindle 103 Cylinder c Cord Ca is a substantially rounded cord Cb Line T tire 152700.doc -13-