1305241 九、發明說明: [發明所屬之技術領域】 種圓筒 本發明儀關於-種圓筒型縫 型缝紉機之移送齒之傳動結構。寸別是關於 【先前技術】 —般圓筒型鏠紉機之機台部包含右… :二t機台主部突出於侧方之圓筒部巨I:狀之機台主 對向於縫匆機臂之前端之縫匆針 ®同部上面設有 移送齒及後移送齒,其於針板之 筒部設置有前 沒,圓筒部内設置有盥缝 、’刖後之移送齒溝出 口口 、縫匆針協同動作爽形a 移送齒與後移送齒之驅動機構之鈎環 六=”刃機驅動雨移送齒與後 動力傳達機構均為鏠功機 :之驅動機構及 延伸到圓筒部。該驅動機構驅動主轴主部-直 鈞環器與針棒同步地予以驅動,同時',、將主方專,並使 轉運動轉換為規定角度範圍内往復旋轉運動早方向旋 部延伸至圓筒部之上下移送轴及前後動由主 前、後移送食、針棒及釣環器而實施 =之同步於 方向運動。惟,扮錄門μ , 下方向運動及前後 針板之關係確保良好1:逢=幾;為了使主轴之軸心與 轴之轴心乂: 定之間隔關係為宜,如果主 、、、’十板之配置關係不在特定關係時,藉由主軸 =/::而/力!之針棒、釣環器、移送齒上之動作定時之 丁、 θ奄生微妙之偏差,而無法保持良好之缝紉條件。 326傳利說明書(補件)\95-0S\TF9545】5 1305241 傳達機構^ ϋ型邊匆機’欲將移送齒驅動用之部分的動力 J 卩之主軸部配設適合於移送齒之驅 開传,因二軸與針板無法配置於缝幼條件良好之位置 反二=法獲得良好之缝匆條件之動作狀態,又,相 之位置,針板而言,最適合於縫匆條件最佳 〜饥直關係是雲蓉太 轴與移送㈣之,_裝料台之周邊設置主 小型化將受其限制,^ 機構,如此,圓筒部 定。 /、 、、縫製物之適用範圍亦將受到限 如上述’中華民國專八止— 機」之說明書將主轴 Α 口弟2831 73號「圓筒型縫匆 置之下,仍然可以使圓^對於針板而縫匆條件良好之位 等之小直和之^ ^ dM、直#化’使之適用於縮袖口 罝杬之同狀縫製物的鏠製。鈇 " ,縫製物,該專利受限於傳動;:縫-更小直徑 圓筒部更小型化。 、置之、,,。構,而無法使 ί又,本申請人所擁有之中華民國直⑸ 號「圓筒型鏠匆機之移送齒之證書號第咖⑸ 端部或移送台之周邊設置主轴與係揭露在主轴之 配置最適合於縫匆條件最佳之位間之傳動結構,以 送齒之移送行程的調整,以 j係,並提供前、後移 以解決先前技術的問題。然而,=同布料的縫製’並可 f使用-段時間後’圓筒型縫紉:之!!案之圓筒型縫紉機 動’而使固定在前、後移送台之$别、後移送台易於鬆 造成布料縫製時的問題口 :、後移送齒前後晃動, 32轉利說明書(補件齡_灿5 逢、,刃钱欲 1305241 對布料缝製更小的縫距時,& =與f動f之傳動結構的組成構造的::機之,整差動 更小的縫距疋有所困難。 使彳于要缝製 [發明内容】 移 雨、後移送台(即本案之差動、 吏二段時間後 避免以在前、後移送台之前、後動的問題, 前、後移動齒用以調整差動之組件晃動,並對 % 造進行改良,可使圓筒型缝匆機之圓筒部的:::组成構 可以對布料缝製更小的圓柱衣袖及縫距。以小,且 本發明提供—種圓筒型縫_之_㈣ 縫匆機呈矩形箱狀之一機台部,且^構,該 床部的側方呈筒狀突出,該圓筒部上面:有1台部之機 筒部設置有-前移送齒及一後移送齒面:針板,該圓 移送齒分別固定於-差動送具座及一主動:且=及該後 ,送齒及該後移送齒於該針板之落針孔前後 =由:傳動機構傳動該差動送具座及該主:以 :上下及㈣方向的運動,而由該差動送具座及該主動ί 移送齒及該後移送齒以呈橢圓形路徑而ί :運動’该移送齒之傳動結構包含:一主轴; 機床部,以單方向旋轉運動;一運動變換連= :=主軸之單方向旋轉運動轉換為預定角度範圍内的 復運動’―運動變換凸輪傳動機構’將該主軸之單方向 326\專利說明書(補件)\95_〇8VrF95457 1305241 旋轉運動轉換為 傳動組件,隨著V運.a範圍内的往復運動;-上下移送 範圍内的往復運ζ 2連桿機構之傳動而為預定角度 換凸輪傳動機構之值 ^ ^ ^ .動;以及一調敕罢 為預定角度範圍内的往復運 之往復運動^正》組件調整該前後移送差動傳動軸組件 之彺设運動的預定备々 丁 1 丁 送傳動軸組件,隨著,二:特徵在於:-第-上下移 ^ r n DX下移达傳動組件之傳動而為預定 角度軌圍内的往復運動;二 ^疋 著該上下銘/自4 弟一上下移达傳動軸組件,隨 復運動.S 組件之傳動而為預定角度範圍内的往 =:之::主動傳動抽組件,隨著該前後移送主 角度範圍内的往復運動,並帶動該 王勑圪具庄王刖後方向運動;以及一 、,…, 組件,隨著該前後移送主放 夕运差動傳動軸 内的往復運動,並帶動嗲罢叙、、…々頂疋角度靶圍 中,” μ丁 这差動达具座呈前後方向運動;其 中遠第一上下移送傳動軸組件枢 主動送具座的—側,今第_二?^亥差動运具座及該 差動送具座及該主二傳動輛組件樞設於該 下移送傳動軸组件與該第 :而::由:亥第-上 差動送具座及該主動送且座,在!動轴組件夾固該 件盥兮丁妙八座在5玄第一上下移送傳動軸組 該:送:座::::專動轴組件呈往復運動時,同時帶動 X左動运具座及該主動送且 送差動傳動軸組件具有—第一送具差動軸、—力第該= ,枢接該第-送具差動軸與該第二送具差㈣::差 束環’該前後移送主動傳動軸組件具有一送具主動軸,該 326\專利說明書(補件)\95_〇8\TF9545〗5 Ο 1305241 送具主動軸穿過該第— 軸之轴心,在該前後崎動==該第二送具差動 内的往復運動時,該第 專力轴·、且件為預定角度範圍 會帶動該差動送具座呈與該第二送具差動軸 .動軸組件為預定角度範:内的動气前後移送主動傳 會帶動該主動送具座呈前後方向 ^亥运具主動轴 【實施方式】 圖1為本發明之圓筒型縫紉機之立故 之圓筒型鏠紉機之部分機立 圖圖2為本發明 驅動前、後移送齒而設置方圖,圖3〜5為本發明之 本%明之縫劫機本體择出 上方設置有機臂部U所:/:::位於物^ 機台部之機床部13和從今機\°部#由呈矩形箱狀之 的凸出圓筒部丨4所構成;::3朝側方突出之呈筒狀 板15。 ㈣成,该凸出圓筒部14上面設有—針 針端下部且對向於針板15設置有數支缝 对丨b A之針棒1 6,JL卩省益εγ* ^ 、 地縫製衣物。X,在下動方機構(未緣示)而上下往復 環器(未繪示),同時 二出®同部14設有鈎 π及置有一前移送齒 15 丨〜,月】私延回17及後移送齒18於針板 5之洛針孔刚後之移送齒用溝(未繪示)内出沒,而藉由 機構(下文將詳細描述其結構)來傳動該前移送齒U 及該後移送齒18以橢圓形路徑做循環運動。因此,筒狀 32&專利說明書(補件)\95-08\TF954515 9 1305241 製物係從左側方套合於凸出圓筒部“ 板5之上,由前移送齒n 放於針 移動量移送縫製物於後方,並由規定之 作,而實施縫製的工作。 、’勾娘态協同動 主軸21設置於機台部之機床部13 動而為單—方向的旋轉運動。設置 馬達(未績示)驅 内之運動變換連桿機構26及運動變機床部13 別將主車4 21之單方mu心文換凸輪傳動機構31分 往復運動。-缝轉換為預定角度範圍内的 ^ 縫距變換主動連桿 傳動機構31上,一針德梦…套叹於運動變換凸輪 刖後私达主軸23係平行於主雇 配設於機台部之機床部13内 、軸21而 樞接於缝距變換主動連桿27 ^、4距讀連桿28、29 义狄土動連;ί干」7,一缝距變換搖劈 縫距變換連捍28,而該前徭銘、其、詹30柩接於 換搖劈川^ u 仫主軸23樞接於該縫距變 口此’當運動變換凸輪傳動機㈣將主軸21 二=讀運動轉換為在預定角度範圍内的往復運動 二預Ϊ 23及該縫距變換主動連桿27亦隨 在預疋角度範圍内的往復運動。 :左搖臂37(亦即一上下移送傳動組件)框接於運動變 一、、#機構26 ’ -第-送具搖桿35Α樞接於該左搖臂, :由運動變換連桿機構26之傳動使左搖臂”為預定角度 乾圍内的往復運動,並由該左搖臂37之傳動而使第一送 具搖桿35Α為預定角度範圍内的往復運動。 第二送具 —送料具上下移送傳動連桿34枢接於左搖臂37,一右 搖臂36樞接於送料具上下移送傳動連桿“ 32 6\專利說明書(補件)\95-08\TF954515 1305241 搖桿35B樞接於右搖臂%, 動之左搖臂37傳動該送料且上 又靶圍内的往復運 呈前後方向之移動,呈方 1傳動連桿34而使其 王用j设方向之移動 傳動連桿34傳動該右搖㈣而使=具上下移送 的往復運動,再藉由右搖臂36之傳動度範圍内 為預定角度範圍内的往復運動。 弟—廷具搖桿35β 一前後移送主軸23同時套抓 61及缝距變換搖臂30内,一:動連』機構24、搖臂 -主動搖臂叫於主動連桿力 過一第一送具差動轴66A及—第 動軸Μ穿 心’並抱接於主動搖t63,4:7由,叫軸 範圍内的往復運動之縫距變換搖呈預定角度 Μ之傳動而使搖臂6 i為^ ^由前後移送主軸 預定角度範圍内的往復運動之搖;主復運動’呈 士曰β 7 $、, 上之傳動而使主重力土車 二之傳動 呈前後方向的移動之主動連桿 動f 63 ^定角度範圍内的往復運 产範圍內的广主動搖臂63之送具主動軸65亦為預定角 =:的往復運動。由於送具主動軸65穿過第一送二 置,使、、'It:广具差動軸_之軸心,形成具同心位 ::运具主_及第一送具差動軸_及第二送且 構設置於極小的空間,可減少零件數的使用,結 Μ間易’技術更方便,有效地縮小圓筒部直徑的大小。 —滑塊組25套設於差動連桿機構24上,一差動連桿 现專利說明書(補件)\95-08\TF954515 n 1305241 Μ樞接於滑塊組25之― 差動連捍62,莖—… 上,—差動搖臂64抠接於 呈預定角卢达具差動軸6“樞接於差動摇臂64。 後移==往復運動之缝距變換搖臂3。藉由前 範圍内的MU使前後移送連桿塊24為預定角度 移送連桿境Λ Γ角度範固内的往復運動之前後 為前後方向的移動,呈傳動而使差動連桿Μ 傳動而使差動搖臂64為°的移動之^動連桿62之 使樞接於差動搖臂64之:5圍内的往復運動,並 度範圍内的往復運動。U動轴㈣亦為預定角 具==及後移送齒18分別鎖固於成板狀之差動送 動逆m 具座42° —提升滑塊38A同時套設於差 42之主丨差動送具座後凹部滑槽41A及主動送具座 時套⑼达具座後凹部滑槽42Α β,—提升滑塊38B同 主動、^且广,具座41之差動送具座前凹部滑槽仙及 、、,座42之主動送具座前凹部滑槽42β内。 :具㈣5Α 一侧之偏心軸穿過一提升滑塊㈣之二 由-弟-束環39Α鎖固,該第二送具搖桿35β—側之偏心 嶋-提升滑塊38Β之軸心而由—第二束環39β鎖固。 =預疋角度範圍内的往復運動之第—送具搖桿⑽藉由 /、偏心軸之傳動使提升滑塊38Α呈上下方向之運動,呈預 定角度範圍内的往復運動之第二送具搖桿35β藉由其偏 心軸之傳動使提升滑塊38Β呈上下方向之運動,因此,呈 上下方向之運動的提升滑塊38Α及提升滑塊38β之傳動使 326傳利說明書(補件)\95-08\TF954515 12 1305241 差動送具座41及主動送具 帶動前移送齒17及後移送齒18 =二上下方向之運動,即 該送具主動軸65之—側 方向動。 具差動請之一側形成有—連結上軸::第二送 接於一第二方型滑塊72,立 -連、',。軸68樞 达具座中凹部滑槽42C,該遠έ 厂42之主動 71 # . 亥連釔軸69樞接於—第一方 /月塊71,其套設於差動送具 … 弟方型 样41 Γ,口箱—& ώ 之差動送具座中凹部滑 才曰41C,王預定角度範圍内的往復運 口丨π 藉由其連結軸68及第二方型 動之主動軸65 42呈前後方向的運動,呈預;龙角==主動送具座 刚後移送差動傳動軸66藉由其 :運動之 71之傳動使差動送具座4 i 6 9及弟—方型滑塊 兰么 别後方向的運動。上述帶動 動:具座4i及主動送具座42前後移動之結 μ P 運、、,σ連結軸68及主動送具座42或連 、“由69及差動送具座41而為間接連結驅動,其需要較大 的空間,且連結接點多而造成效率差。 一要1^ 當圓筒型縫幼機在缝製布料時,藉由第―束環⑽ 二束謂、形成連結轴68之連結塊6 69之面_分別將差動送具座U及主動送具座 於其中,則不致於使差動送具座41及主動送具座42鬆動 甚至前後晃動。 其中,前後移送主軸23、縫距變換主動連桿27、缝距 變換連桿28、縫距變換連桿29及縫距變換搖臂3〇構成 一别後移送主軸組件。第一送具搖桿35Α、提升滑塊38八 326\專利說明書(補件)\95-0S\TF954515 13 1305241 及第束裱39A構成一第一上下移送主軸組件❶第二送具 ,桿35B、提升滑塊38β及第二束環39β構成一第二上; 移达主轴組件。搖臂61、主動搖臂63、送具主動轴 絲連捍67、連結軸68及第二方型滑塊72構成一前後 傳動軸组件。束環57、差動連桿Μ、差動搖臂 弟送具差動軸66A、第二送具差動軸66B、主動連 祕結轴69及第—方型滑塊71構成—前後移送差 動傳動轴組件。 -滑塊組25滑動於差動連桿機構 桿:構24的上下位置。-第-缝距變換連 :換=連請分別樞接於滑塊組25的兩端。縫距 換連桿咖於第一缝距變換連桿86A及第二缝距變 Μ B。一縫距變換傳動轴84拖接於縫距變換搖 逢距變換連桿83樞接於缝距變換傳_11305241 IX. Description of the invention: [Technical field to which the invention pertains] The cylinder of the present invention relates to a transmission structure of a transfer tooth of a cylindrical sewing machine. Inch is about [previous technology] - the cylindrical part of the machine is equipped with the right part of the machine... The main part of the two-t machine protrudes from the side of the cylinder. I: The main machine is opposite to the seam. The front end of the rushing arm is provided with a transfer tooth and a rear transfer tooth on the same part, and the front part of the needle plate is provided with a quilting, and the rear part of the cylindrical part is provided with a quilting. The mouth and the seam rush needle cooperate with the cool shape a. The shackle of the moving mechanism of the moving tooth and the rear moving tooth is six=”The blade machine drives the rain shifting tooth and the rear power transmission mechanism are all smashing machines: the driving mechanism and the extension to the cylinder The driving mechanism drives the main shaft of the main shaft - the straight looper is driven synchronously with the needle bar, and at the same time ', the main side is specialized, and the rotary motion is converted into a reciprocating rotary motion within a predetermined angle range. The upper and lower movements of the cylindrical portion and the forward and backward movements are carried out by the main front and rear feeds, the needle bar and the fishing ring, and the movement is synchronized with the direction of movement. However, the movement of the door μ, the downward movement and the relationship between the front and rear needle plates are ensured. Good 1: every = a few; in order to make the axis of the main axis and the axis of the shaft 乂: The relationship is appropriate. If the relationship between the main, and the 'ten boards is not in a specific relationship, the needles, the catcher, and the timing of the movement on the teeth are fixed by the spindle =/:: Subtle deviations, but can not maintain good sewing conditions. 326 profit-making manual (supplement) \95-0S\TF9545] 5 1305241 communication mechanism ^ ϋ type side rush machine 'the power to drive part of the tooth drive The main shaft of the J 卩 is equipped with a drive that is suitable for the transfer of the tooth, because the two axes and the needle plate cannot be placed in the position where the sewing condition is good, and the position of the sewing condition is good, and the position of the phase is also obtained. In terms of the needle board, it is most suitable for the best conditions of the seam rush. The relationship between the hunger and the hunger is the cloud shaft and the transfer (4). The main miniaturization of the _ loading station will be limited by it, ^ mechanism, so, the cylinder The scope of application of /, and, sewing materials will also be limited to the above-mentioned 'China's Republic of China's special eight-machine' manual, the spindle Α Α brother 2831 73 "cylinder seams rushed, still can make Round ^ for the needle plate and the seam is in good condition, such as the small straight and ^ ^ dM Straight #化' makes it suitable for the twisting of the same shape of the cuffs. 鈇", sewing, the patent is limited by the transmission;: slit-small diameter cylindrical part is more compact. , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , It is disclosed that the configuration of the spindle is most suitable for the transmission structure between the positions where the sewing conditions are optimal, and the adjustment of the transfer stroke of the feed teeth is provided, and the front and rear shifts are provided to solve the problems of the prior art. However, With the sewing of the fabric 'can be used - after a period of time 'cylinder sewing: the cylindrical sewing maneuver of the case!', the front and rear transfer table is fixed, the rear transfer table is easy to loose the fabric The problem at the time of sewing: After the tooth is moved back and forth, the 32-for-profit instruction manual (refilling age _ can be 5, and the blade money is 1305241. When sewing a smaller sewing pitch on the fabric, & = and f move f The composition of the transmission structure is: Machine, it is difficult to adjust the smaller pitch.彳 要 要 [ [ 发明 发明 发明 发明 发明 [ [ [ [ [ [ [ [ [ [ [ [ [ 移 移 移 移 移 移 移 移 移 移 移 移 移 移 移 移 移 移 移 移 移 移 移 移 移 移 移 移 移 移 移Adjusting the differential component sway and improving the % build, the cylindrical::: composition of the cylindrical seam rush machine can be used to sew smaller cylindrical sleeves and seams on the fabric. Moreover, the present invention provides a cylindrical slit _ _ (4) slit rushing machine is a rectangular box-shaped machine portion, and the side of the bed portion is cylindrically protruding, the cylindrical portion above: 1 The barrel portion of the table is provided with a forward feed tooth and a rear feed tooth surface: a needle plate, and the circular transfer teeth are respectively fixed to the differential feed base and an active: and = and thereafter, the feed and the rear Transferring the tooth before and after the needle hole of the needle plate = by: the transmission mechanism drives the differential feed holder and the main body: the movement in the up and down direction and the (four) direction, and the differential feed holder and the active transfer tooth And the rear transfer tooth has an elliptical path and ί: the movement transmission structure of the transfer tooth comprises: a main shaft; the machine part rotates in one direction ; a motion transformation even = : = single-axis rotary motion of the main shaft is converted into complex motion within a predetermined angle range '-motion-changing cam transmission mechanism' single direction of the spindle 326\patent specification (supplement)\95_〇8VrF95457 1305241 Rotational motion is converted into a transmission component, with the reciprocating motion in the range of V.a; - the reciprocating motion in the upper and lower transfer range. The value of the cam mechanism is a predetermined angle for the transmission of the 2 link mechanism ^^^. And a reciprocating motion of the reciprocating motion within a predetermined angle range. The component adjusts the predetermined movement of the differential drive shaft assembly of the front and rear transmission differential transmission shaft assembly, and the transmission shaft assembly, along with : The characteristic is: - the first - up and down movement rn DX is transferred to the transmission of the transmission component and is the reciprocating motion within the predetermined angle rail; the second and the lower part of the movement / from the 4 brothers up and down to the drive shaft assembly, with The movement of the complex motion.S component is within the predetermined angle range:::: The active transmission pumping component, with the reciprocating motion within the main angle range, and driving the king motion; And one,,..., the component, with the reciprocating motion in the differential drive shaft of the main yoke, and the 靶 嗲 、 , , 々 疋 疋 疋 疋 、 ” ” ” ” ” ” ” ” ” ” ” The seat is moved in the front-rear direction; wherein the far-first first-and-bottom transmission transmission shaft assembly pivots the active-feeding bracket-side, the present _二?^hai differential carrier and the differential feed carrier and the main two-drive assembly The pivoting of the lower transmission drive shaft assembly and the first: and: by: the first-upper differential feed base and the active feed seat, and the moving shaft assembly clamps the piece of the Dingmiao eight seat at 5 Xuan first up and down transfer drive shaft group: Send: Block:::: When the special-purpose shaft assembly reciprocates, it also drives the X-left movement carrier and the active delivery and differential drive shaft assembly has the first delivery The differential shaft, the force is the same, the pivoting of the first-feeding differential shaft and the second feeding device is different (four): the differential beam ring 'the front and rear transfer driving drive shaft assembly has a feeding mechanism, the 326\Patent specification (supplement)\95_〇8\TF9545〗 5 Ο 1305241 The propeller shaft passes through the axis of the first axis, and the riveting before and after == When the second conveyor is reciprocating in the differential movement, the first special force shaft and the predetermined angle range of the member drive the differential carrier seat to be different from the second conveyor. The moving shaft assembly is predetermined. Angle range: the active air mover before and after the active transmission will drive the active feed base in the front and rear direction ^Hai transport active shaft [Embodiment] FIG. 1 is a cylindrical type of sewing machine of the present invention. FIG. 2 is a partial diagram of the front and rear shifting teeth of the present invention, and FIGS. 3 to 5 are the body of the present invention. The organic arm portion U is disposed above: /::: The machine tool portion 13 located at the machine table portion and the projecting machine portion portion are formed of a convex cylindrical portion 丨4 having a rectangular box shape; and: 3: a cylindrical plate 15 projecting laterally. (4) forming, the convex cylindrical portion 14 is provided with a needle lower end portion and a needle joint 15 with a plurality of slits facing the needle plate 15; JL卩省益 γγ* ^, ground sewing clothes . X, in the lower moving mechanism (not shown) and up and down the reciprocating ring (not shown), while the second out of the same part 14 is provided with a hook π and a forward moving tooth 15 丨 ~, month] private delay back to 17 The rearwardly-transferred tooth 18 is in the transfer groove (not shown) immediately after the pinhole of the needle plate 5, and the forward transfer tooth U and the rear transfer are driven by a mechanism (the structure will be described in detail later). The teeth 18 are circulated in an elliptical path. Therefore, the tubular 32& patent specification (supplement)\95-08\TF954515 9 1305241 is fitted from the left side to the convex cylindrical portion "on the plate 5, and the forward movement tooth n is placed on the needle movement amount. The sewing machine is transferred to the rear, and the sewing work is carried out by a predetermined operation. The 'mother-in-the-joint mastering spindle 21 is provided in the machine-moving portion 13 of the machine table and is in a single-direction rotational motion. The motion change link mechanism 26 and the motion change machine unit 13 in the drive do not reciprocate the single mu heart-changing cam drive mechanism 31 of the main vehicle 421. The stitch is converted into a pitch within a predetermined angle range. In the conversion of the active link transmission mechanism 31, a needle demon dreams, a set of sighs, a sigh of motion, a camshaft, and a private spindle 23, which is parallel to the main machine part 13 of the machine part, and the shaft 21 is pivotally connected to the seam. The distance between the active link 27 ^, 4 and the read link 28, 29 is connected to the Dick; the dry "7", a slot change, the change of the crease distance, and the 徭 30, and the former Yu Ming, its, Zhan 30柩 于 换 换 ^ ^ ^ ^ ^ 仫 spindle 23 pivotally connected to the slit change this 'when the motion conversion cam conveyor (four) will be the main = 21 read two motion into a reciprocating motion within a predetermined angular range of the two pre-slit Ϊ 23 and link 27 from the tandem converting active reciprocate within a predetermined angular range of piece goods. The left rocker arm 37 (ie, an up-and-down transfer drive assembly) is coupled to the motion change one, and the # mechanism 26'-the first-feeder rocker 35 is pivotally connected to the left rocker arm: by the motion change linkage mechanism 26 The transmission causes the left rocker arm to reciprocate within a predetermined angle of the dry circumference, and the first rocker arm 35 is driven by the left rocker arm 37 to reciprocate within a predetermined angle range. The second conveyor-feeding The upper and lower transfer transmission link 34 is pivotally connected to the left rocker arm 37, and the right rocker arm 36 is pivotally connected to the feed device to move the transmission link up and down. "32 6\patent specification (supplement)\95-08\TF954515 1305241 rocker 35B Pivoted to the right rocker arm%, the left rocker arm 37 drives the feed and the reciprocating movement in the upper target circumference moves in the front-rear direction, and the square 1 transmission link 34 is used to move the king in the direction of the j. The connecting rod 34 drives the right swing (four) to make the reciprocating motion of the upper and lower shifting, and the reciprocating motion within the range of the predetermined angle by the right rocker arm 36. Brother-Tinger rocker 35β one before and after the transfer spindle 23 at the same time grip 61 and the seam change rocker arm 30, one: the dynamic linkage mechanism 24, the rocker arm - the active rocker arm is called the active link force through a first send The differential shaft 66A and the first moving shaft Μ 穿 穿 穿 穿 穿 穿 穿 穿 穿 穿 穿 穿 穿 穿 穿 穿 穿 穿 穿 穿 穿 穿 穿 穿 穿 穿 穿 穿 穿 穿 穿 穿 穿 穿 穿 穿 穿 穿 穿 穿 穿 穿 穿 穿 穿 穿 穿i is ^ ^ from the front and rear transfer spindle to the reciprocating motion within the predetermined angle range; the main complex motion 'presents the gentry β 7 $,, the transmission on the main gravitational soil vehicle two transmission in the forward and backward direction of the active connection The feed mechanism 65 of the wide active rocker arm 63 in the reciprocating range within the range of the angle f 63 is also a reciprocating motion of the predetermined angle =:. Since the feed drive shaft 65 passes through the first feed and the second set, the axis of the 'It: wide differential shaft _ is formed to have a concentric position: the main _ and the first send differential _ The second delivery is arranged in a very small space, which can reduce the use of the number of parts, and the technique is more convenient, and the diameter of the cylindrical portion is effectively reduced. - The slider group 25 is sleeved on the differential link mechanism 24, and a differential link is now patented (supplement)\95-08\TF954515 n 1305241 Μ pivotally connected to the slider group 25 - differential linkage 62, stem - ... upper, - differential rocker arm 64 is connected at a predetermined angle Luda with a differential shaft 6 "pivot connected to the differential rocker arm 64. Backshift = = reciprocating motion of the pitch shifting rocker arm 3. Borrowing The front and rear transfer link blocks 24 are moved by the MU in the front range to a predetermined angle. The reciprocating motion in the angle range is before and after the reciprocating motion, and the transmission is moved to make the differential link 传动 drive and make the difference The moving arm 64 is pivotally connected to the differential rocker 64: a reciprocating motion within the range of 5 degrees, and a reciprocating motion within a range of degrees. The U-axis (4) is also a predetermined angle tool == And the rear transfer tooth 18 is respectively locked in a plate-shaped differential feed reverse m seat 42° - the lift slider 38A is simultaneously sleeved on the main differential transporter seat of the difference 42 and the rear recess chute 41A and the active feed The seat cover (9) has a rear recessed groove 42 Α β, the lift slider 38B is active, and wide, and has a seat 41 differential feed seat front recessed slide groove and a seat 42 In the front recessed groove 42β of the movable feeding base.: (4) 5Α The eccentric shaft on one side is locked by a lifting slider (4), the second armature rocker 35β-side eccentric嶋- Lifting the axis of the slider 38Β is locked by the second bundle ring 39β. The first-to-feed rocker (10) of the reciprocating motion within the pre-turn angle range causes the lift slider 38 to be driven by the / eccentric shaft. In the up-and-down direction, the second feeder rocker 35β that reciprocates in a predetermined angular range is driven by the eccentric shaft to move the lifting slider 38 上下 in the up-and-down direction, thereby lifting the movement in the up-and-down direction. Block 38Α and lifting slider 38β drive makes 326 pass the instructions (supplement)\95-08\TF954515 12 1305241 differential feed holder 41 and active feeder to drive the forward feed tooth 17 and the rear transfer tooth 18 = two up and down direction The movement, that is, the side direction of the driving shaft 65. The differential side is formed on one side - the upper shaft is connected: the second is connected to a second square slider 72, the vertical connection, The shaft 68 pivots with a concave groove chute 42C, and the remote factory 42 has an active 71 #. The Hailian shaft 69 is pivoted to the first One side/month block 71, which is set in the differential feeding device... The young party type 41 Γ, the mouth box-& ώ The differential feed holder seat has a concave portion 曰 41C, the reciprocating mouth of the king within a predetermined angle range丨π is forwardly moved by the connecting shaft 68 and the second square movable driving shaft 65 42 in the front-rear direction; the dragon angle == the active feeding bracket is just moved to the differential transmission shaft 66 by its movement: The transmission of the 71 makes the differential feed holder 4 i 6 9 and the movement of the disc-square slider in the rear direction. The above movement: the junction 4i and the active feed holder 42 move forward and backward. The σ connecting shaft 68 and the active feed base 42 or the "indirectly connected drive by the 69 and the differential feed base 41 require a large space, and the number of joints is large, resulting in poor efficiency. When the sewing machine is sewing the fabric, the surface of the connecting block 6 69 which forms the connecting shaft 68 by the second bundle of the first tow ring (10) is used to separately send the differential carrier U and the active The feed holder is not loosened or even swayed by the differential feed base 41 and the active feed base 42. Among them, the front and rear transfer spindle 23, the slit change drive link 27, the pitch change link 28, the pitch change link 29, and the pitch change rocker arm 3 constitute a rear transfer spindle assembly. The first feeder rocker 35Α, the lifting slider 38 326\patent specification (supplement)\95-0S\TF954515 13 1305241 and the first bundle 39A constitute a first up-and-down transfer spindle assembly ❶ second delivery device, rod 35B The lifting slider 38β and the second beam ring 39β constitute a second upper portion; and the spindle assembly is moved. The rocker arm 61, the active rocker arm 63, the carrier drive shaft link 67, the link shaft 68 and the second square slider 72 constitute a front and rear drive shaft assembly. The bundle ring 57, the differential link Μ, the differential rocker arm feed differential shaft 66A, the second feed differential shaft 66B, the active connection axis 69 and the first square slider 71 constitute a front-rear shift differential Drive shaft assembly. - The slider group 25 slides on the differential link mechanism lever: the up and down position of the structure 24. - The first stitch length change connection: The change = connection is pivoted to both ends of the slider group 25, respectively. The seam distance is changed between the first pitch change link 86A and the second pitch change ΜB. A slit change transmission shaft 84 is dragged to the pitch change swing. The distance change link 83 is pivotally connected to the seam change transmission _1
= =動比的大小。-調整_接於J 义換連柃83,根據縫距刻度板犯 的大小。—值备_ ^ 1 π ^庋木凋整差動比 一—傳動塊π柩接於縫距變換傳動軸Μ。 固定% 91固定於機床部丨3。一 螺紋與©定環91之㈣紋,切1用其外 旋出於固定严Q1 疋轉方式使调整軸88旋進 出方、口疋91。一調整環9〇利用1 調整調整環90在調整軸88 ,:制’疋轉方式 進固定環91的距離。一,敖…n 乂““周整軸㈣旋 軸心,調整心輛^ °正、1 89樞設於固定環91之 .⑼/ 分別頂觸於傳動塊W與調整軸 專利說明書(補件)\95.\TF954515 田5周正袖88旋進旋出於固定環⑴夺,頂觸於調整車由 14 1305241 88之調整心軸89亦隨之調整傳動媸& „ . πο , 门正得動塊87刖後移動的位置。 束衣92樞設於調整心轴89,當調 環91時,控制調整心軸 …疋出於固疋 乂 " 釉89酼之進入固定環91的距離。 如上述,调整鈕81將缝距 戶柘„ 文俠逆杆W鎖固於一缝距刻 二广距變換連桿83在缝距刻度板82的位置存 =该缝距變換編、-缝距變換傳動軸84、一2 义換搖臂85及一缝距變換連桿 ,、 動违萨嬙德〇/ 咬忏木δ周整滑塊組25在差 力連梓祛構24之上下位置’當 mm 9A ^ u -T-, 田^正/月塊組25在差動連桿 ^冓24之上下位置時,則使得該差動連桿6 動的距離隨之調整,當差 後方向私 ± 動連杯62刖後方向移動的距齙 經调整時,則被其傳 文"日]跑離 範圍亦隨之調整,進而狗的往復運動之角度 進而调整枢接於差動搖臂64之第—这 /、差動軸66A及第二送且差動雇 、 圍,如上述,藉由第二的錢運動之角度範 6_動之差動送具座41, 軸 可調整差動送具座41盥主 八私、里猎此, 可調整分別固定於差動逆 m b亦即, ^ , 7 . ^ 動t具座41與主動送具座42之前穸 运齒Π與後移送齒18 別私 調整軸⑽3走進旋出於固J。同樣地,以旋轉方式使 ,敕、m。 % 91 ’進而由調整軸卯頂觸 凋整心軸89以移動其位置,細 項觸 傳動塊87而使盆前後,動貝觸之调整心轴89亦項觸 分別固定於差動送具座:與=亡述之傳動機f以調整 π與後移送齒18的差動比。、达具座42之前移送齒 32价專利說明書(ί甫件)\95~〇8Υγρ9μ515 其中,差動連桿機構24、滑塊組⑵、調整紐81、縫距 15 1305241 刻度板δ2、縫距變換連桿们、縫距 變換搖臂85、第—縫距變換連桿m、、二編4、縫距 桿㈣、傳動塊87、調整轴88、調整距變換連 構成一調整差動組件。 衣⑽及固定環91 一偏心軸51樞接於主軸21。 —5卜-軸53枢接於連桿52。 : 2樞接於偏心轴 片傳動軸55樞接在一起。^ 字軸53與後導針 傳動軸55之德丄 後導針片56抱接於後導針月 傳動軸55之後導針片傳動軸座咖上 ,導針片 2]之單方向旋轉運動轉換為預 _ 將主轴 動,藉由連桿52將偏心轴51為預;圍内的往復運 動傳動於軸53與後導針片傳 又乾圍内的往復運 的往復運動之後導針片傳 == =,範圍内 座!::吏後導針片5 6呈橢圓形路徑而循環::。片傳動轴 稭G接軸53與後導針片傳動輛5 易調整後導針片56的角度 束衣54,可輕 規格。其中,偏心轴51及連桿置5構:可輕易調整各種車縫 —軸53、一束環54、後導針片偏心軸傳動組件。 動軸座55Α及後導針片56 、 55與其後導針片傳 下面說明上述所構導針片組件。 、岍稱成之0筒型縫紉 設於機台部之機床部13内之乍。 動作時,針棒16與鈎環Μ隨之㈣而使缝幼機 方向旋轉運動可由運動變換凸輪 可主軸21之單 角度範圍内之往復旋轉運動' 31變換為規定 …―對缝距變換連才^ 29ΓΓ縫距變換主動連桿 29及縫距變換搖臂30等傳動 伽專利說明書(補件)\95-08\TF954515 ^ 1305241 組件,將其傳動於機台部之 換搖臂30之前後移送主 木口"3内而枢接於鏠距變 規:角度範圍内之往復旋轉運動:乂使前後移送觸為 前後移送主軸23藉由搖臂 臂63等傳動组件來傳動在機“、主動連桿67及主動搖 圓筒部U而框接於主動部之機床部13延伸至凸出 角度範圍内之往復旋轉運動。《达具主動軸65為規定 如後移送主轴2 3藉由前饴狡、、 及差動搖臂64等傳動組件來桿塊24、差動連桿62 伸至凸出圓汽邱彳4 專動在機台部之機床部1 3延 r王凸出回同部14而樞接於差 、 傳動軸66為規定^ 動搖# 64 4後移送差動 主崎單方=動内, 換為規定角度範圍内之二變換連桿機構26變 傳動於由機台部之機床,運動,並藉著左搖臂37 逆且搜卢床#13延伸至凸出圓筒部14之第一 35A,使第一送具 往復旋轉運動。 度粑圍内之 換旋轉運動可由運動變換連桿細變 之往復旋轉運動,並藉著左搖臂… 上下私送傳動連桿34及右搖臂36等傳純件 ==機台:之機床部13延伸至凸出圓筒部14而樞接 右搖ί 36之弟二送具搖桿35B,使第二送具搖 規定角度範圍内之往復旋轉運動。 ”’、 T具主動軸65、第—送具差動軸6βΑ及第二 轴_、第-移送前後傳動轴35八及第二移送前後傳動轴 326\專利說明書(補件)\95-08\TF954515 1305241 3 5 β分別藉由相關之傳動組件 結軸68、連社舳、,、 扣升π塊38A、38B、連 ρ, 、° 69)以y刀別使前移送座41及德#、、,广Μ 以上下方向與前後方…1及後移运座42 '定於前移送座及後移送座此之運動可構成分別固 齒U以橢圓形路徑循環運動之别移送㈣及後移送 钩環器之動作,«套於缝針⑽與 依前移送齒17及後移送齒㈤狀縫製物可 而以進行布料的缝製。夕^見疋里移廷至後方, 如上述,將主轴21之置 送歯Π及後移送齒18之:=:=換為適合於前移 將其兩者均配置= 輪傳動機構3】, 換連桿機構26及運動變換 内/時將運動變 角度範圍内之往復運動以所變換之規定 後移送齒18之差動逆^ 4 ^ S移送齒17及 ,^ 是勤具座41與主動送具座42的 。動機構及前後方向傳動機構 -送具差動軸66Α、第二送具差動㈣β、= 35Α及第二送具搖桿35 k,、搖杯 至凸出圓筒部u,所以—;=: =床部13延伸 針板15而缝㈣件上最 ^ 1配置相對於 〇, + 心的位置之下,送具主動軸 動軸66A、第二送具差動軸_、二 « 具搖桿3心為傳動前移送齒17及 後^回18之動力傳動轴’如此之配置多了自由性,所 具主動軸65、第—送具差動轴66 A、第二送具差 326\專利說明書(補件)\95_〇s\tf954515 18 1305241 動軸66B、窜 轴咖^算—ΛΓ後傳_35A及第二上下前後傳動 偏心量大之:”移送傳動組件則不需要配置特別之 可能地緊、、奏而T古就可以將其收納於凸出圓筒部14以僅 ^ ^ ^ , J" 'b ^α ^f,J ^ ^^ 縫紉機所;问一物之取小直徑,明顯地擴大由圓筒型 -可縫製之筒狀缝製物之適用範圍。 隨著縫製物之布料ηπ 亦即調敕」 不同,可調整布料缝製的缝距, 旦π正則移送齒17及後移送齒18的差 整係藉由一、缝距刻度板82、縫距變3 二;:變換傳動轴84、-縫距變換搖臂⑽及4 重 當要增大前移送齒17及後移送齒ΐδ的差 數值^ Γ動縫距變換連桿83在縫距刻度板82上較大 差動連r機構1 上述調整差動量之組件調整滑塊組25在 4構24略為上方的位置,而使 ::::2加,進而使相關於前移送齒心二 動的A St復::二it:前移送—^ 不變的情況下,便可二 =、、=之前後移動的移動量 動比。反之,可移达齒17與後移送齒18的差 反之了減少則移送齒17與後移送齒18的 二述:調整前移送齒17與後移送齒1δ之差 。 ^可使圓筒型縫W布料縫製更小的縫 力槐且 ’以旋轉方式使調整軸88旋進旋出於固定環Μ而 由調整…觸調整心軸89以移動其位置,經頂觸= 326\專利說明書(補件)\95_〇8\TF954515 19 1305241 整心軸89亦頂觸傳動塊87而使其前後移動,經由上述之 傳動機構以調整分別固定於差動送具座41與主動送具座 42之丽移送齒17與後移送齒18的差動比。 μ偏心轴51將主軸21之單方向旋轉運動轉換為預定角度 ,圍内的往復運動’藉由連桿52將偏心、軸51為預定角^ 乾圍内的往復運動傳動於軸53與後導針片傳動輛託,^ =角度範圍内的往復運動之後導針片傳動軸55藉由且 ==片傳動軸座55Α使後導針片56呈擔圓形路徑而循 %運動。 :發:月的目的係以一種圓筒型縫匆機之移送齒之傳動 :其改σ圓筒型縫劫機在㈣—段時間後前移送座及 主動达具座鬆動的問題, 叩憋充固疋在剛移送座及後移送 座之刖移送齒及後移送齒前後晃 私在m ^ ⑴傻光動,並對别移送齒及後移 動㈤用以調整差動之組件與傳 对白π /± π & 、得動之組件的組成構造進行 # I 恢您圓问冲的直徑縮小,對布料以 縫裝更小的圓柱衣袖及縫距。 雖然本發明已參照較佳具體例 、、 八版灼及舉例性附圖敘述如 上’惟其應不被視為係限制性者 ^ 利注考熟悉本技藝者對其形態 及具體例之内容做各種修改、 明之範圍。 ’略及變化’均不離開本發 【圖式簡單說明】 圖1為本發明之圓筒型縫匆機之立體圖; 圖2為本發明之圓筒型縫 qu 機之部分機構的示意圖; 圖3為本發明設置於機台 ^之交換運動機構之分解 326\專利說明書(補件>\95-〇8\TF954515 20 1305241 圖; 圖4為本發明設置於機台部内之差動比調整機構及部 分傳動機構之分解圖;以及 圖5為本發明設置於機台部内用以傳動前、後移送齒的 ' 傳動機構之分解圖。 - 【主要元件符號說明】 11 機臂部 13 機床部 • 14凸出圓筒部 15 針板 16 針棒 16 A 縫針 17 前移送齒 18 後移送齒 21 主軸 0 23 前後移送主轴 24 差動連桿機構 25 滑塊組 26 運動變換連桿機構 η 27 缝距變換主動連桿 28 縫距變換連桿 29 缝距變換連桿 30 縫距變換搖臂 31 運動變換凸輪傳動機構 326傳利說明書(補件)\95-08\TF954515 21 1305241 34 送料具上下移送傳動連桿 35A 第一送具搖桿 35B 第二送具搖桿 36 右搖臂 '' 37 左搖臂 / 38A 提升滑塊 3 8 B 提升滑塊 39A 第一束環 • 39B第二束環 41 差動送具座 • 41A 差動送具座後凹部滑槽 • 41B 差動送具座前凹部滑槽 41C 差動送具座中凹部滑槽 42 主動送具座 42A 主動送具座後凹部滑槽 ^ 42B 主動送具座前凹部滑槽 42C 主動送具座中凹部滑槽 51 偏心軸 52 連桿 53 轴 54 束環 55 後導針片傳動軸 55A 後導針片傳動軸座 56 後導針片 326\專利說明書(補件)\95-08\TF954515 22 1305241 57 束環 61 搖臂 62 差動連桿 63 主動搖臂 '' 64 差動搖臂 / 6 5 送具主動軸 6 6 A 第一送具差動軸 66B 第二送具差動軸 ® 67主動連桿 68 連結軸 — 68A 連結塊 69 連結軸 6 9 A 面 71 第一方型滑塊 72 第二方型滑塊 ^ 81 調整鈕 82 缝距刻度板 83 缝距變換連桿 84 缝距變換傳動軸 85 缝距變換搖臂 86A 第一缝距變換連桿 86B 第二縫距變換連桿 87 傳動塊 88 調整軸 326\專利說明書(補件)\95-0S\TF954515 23 1305241 89 調整心轴 90 調整環 91 固定環 92 束環= = the size of the ratio. -Adjustment_ Connected to the J-replacement 柃83, according to the size of the seam scale. - Value _ ^ 1 π ^ 庋 wood withered differential ratio - the transmission block π 柩 is connected to the slot transformation drive shaft Μ. The fixed % 91 is fixed to the machine unit 丨3. One thread and the (four) pattern of the © fixed ring 91, the slit 1 is rotated by the outer rotation of the adjusting shaft 88 into the outlet and the port 91 by the outer rotation. An adjustment ring 9〇 adjusts the shaft 88 by adjusting the adjustment ring 90 to a distance of the fixed ring 91. First, 敖...n 乂""Zhou complete axis (four) rotation axis, adjust the heart of the vehicle ^ ° positive, 1 89 pivoted on the fixed ring 91. (9) / respectively touch the transmission block W and adjustment shaft patent specification (supplement ) \95.\TF954515 Tian 5 weeks positive sleeve 88 screwing into the fixed ring (1), the top touches the adjustment car by 14 1305241 88 adjustment mandrel 89 also adjusts the transmission 媸 & „. πο, the door is getting The position of the movable block 87 is moved backward. The corset 92 is pivoted on the adjustment mandrel 89. When the ring 91 is adjusted, the adjustment mandrel is controlled to the distance of the glaze 89 into the fixed ring 91. As described above, the adjustment button 81 locks the seam distance 柘 „ 侠 逆 逆 W W W W 二 二 二 二 二 二 二 二 二 二 二 二 = = = = = = = = = = = = = Transforming the transmission shaft 84, a 2 sense rocker arm 85 and a slit change link, and moving the 嫱 嫱 嫱 / bite the δ δ 周 整 滑块 滑块 滑块 在 在 在 在 在 在 在 在 在 在 在When mm 9A ^ u -T-, the field ^ positive / month block group 25 is in the upper position of the differential link ^ 24, the distance of the differential link 6 is adjusted accordingly, when the difference direction is private Moving cup 62 When the distance moved in the backward direction is adjusted, it is adjusted by the essay's "running" range, and the angle of the dog's reciprocating motion is adjusted to be pivoted to the first of the differential rocker arm 64. The moving shaft 66A and the second sending and differentially hiring, surrounding, as described above, by the second money movement angle range 6_ moving differential feed holder 41, the shaft can be adjusted differential feed holder 41 盥 main eight Private and hunted this, can be adjusted separately to the differential inverse mb, that is, ^, 7. . ^ move the seat 41 and the active sender seat 42 before the transport of the gums and the rear transfer tooth 18 private adjustment shaft (10) 3 go The spin is due to the solid J. Similarly, by rotation, 敕, m. % 91 'In turn, the adjustment shaft is touched by the whole mandrel 89 to move its position, and the fine item touches the transmission block 87 to make the front and rear of the basin, and the adjustment of the movable shaft 89 is also fixed to the differential feed holder. : The ratio of the differential ratio between the π and the rearward feed tooth 18 is adjusted with the conveyor f. 32 价 ρ 9 \ \ 95 95 95 95 95 95 95 95 95 95 95 95 95 95 95 95 95 95 95 95 95 95 95 95 95 95 95 95 95 95 95 95 95 95 95 95 95 95 95 95 95 95 95 95 95 95 95 95 95 95 95 95 95 95 95 The change link, the pitch change rocker 85, the first-to-seam change link m, the second block 4, the slit rod (4), the transmission block 87, the adjustment shaft 88, and the adjustment distance transformation constitute an adjustment differential component. The garment (10) and the fixed ring 91 are pivotally connected to the main shaft 21 by an eccentric shaft 51. - 5 - The shaft 53 is pivotally connected to the connecting rod 52. : 2 pivotally connected to the eccentric shaft drive shaft 55. ^ The word axis 53 and the rear guide pin 56 of the rear guide pin drive shaft 55 are hung on the rear guide pin drive shaft 55, and the guide pin piece 2] is rotated in one direction. In order to move the spindle, the eccentric shaft 51 is pre-positioned by the connecting rod 52; the reciprocating motion in the circumference is transmitted to the reciprocating motion of the reciprocating motion of the shaft 53 and the rear guide pin and the inner circumference of the needle guide. = =, the inner seat of the range!:: The rear guide pin 5 6 has an elliptical path and cycles::. The drive shaft of the blade G and the rear guide pin drive 5 are easy to adjust the angle of the guide pin 56. The coat 54 can be lightly sized. Among them, the eccentric shaft 51 and the connecting rod are arranged in five configurations: various sewing seams - the shaft 53, the bundle ring 54, and the rear guide eccentric shaft transmission assembly can be easily adjusted. The movable shaft base 55 and the rear guide needle pieces 56, 55 and the rear guide needle piece are described below. The 0-type sewing machine, which is nicknamed, is placed in the machine unit 13 of the machine unit. During the action, the needle bar 16 and the hook and loop Μ followed by (4) and the rotation direction of the slitting machine can be converted into a prescribed... by the reciprocating rotational motion within the single angle range of the main shaft 21 of the motion conversion cam. ^ 29 ΓΓ 距 主动 主动 主动 主动 主动 主动 主动 主动 主动 主动 主动 主动 主动 主动 主动 主动 主动 主动 主动 主动 主动 主动 主动 主动 主动 主动 专利 专利 专利 专利 专利 专利 专利 95 95 95 95 95 95 95 95 95 95 95 95 95 95 95 95 95 95 95 The main wooden mouth "3 is pivotally connected to the 鏠 distance variation: the reciprocating rotary motion within the angle range: 乂 moving the front and rear transfer to the front and rear transfer spindle 23 by the rocker arm 63 and other transmission components to drive the machine ", active connection The rod 67 and the active rocking unit U are connected to the machine portion 13 of the active portion to extend the reciprocating rotational motion within the range of the convex angle. The master drive shaft 65 is defined as the rear transfer spindle 2 3 by means of the front , and the differential rocker arm 64 and other transmission components to the rod block 24, the differential link 62 extends to the convex round steam Qiuqi 4 special action in the machine part of the machine part 1 3 extension r Wang convex back to the same part 14 Pivot to the difference, the drive shaft 66 is the specified ^ 摇摇# 64 4 and then the differential mains unilateral = moving , the second conversion link mechanism 26 in the specified angle range is changed to be driven by the machine tool of the machine table, and moved by the left rocker arm 37 and the search bed #13 extends to the convex cylinder portion 14 a 35A, the first feeding device reciprocating rotational movement. The rotation movement within the circumference of the circumference can be reciprocatingly rotated by the motion changing connecting rod, and by the left rocker arm ... the upper and lower private transmission connecting rod 34 and the right rocker arm 36-pass pure piece == machine table: the machine tool part 13 extends to the convex cylindrical part 14 and is pivotally connected to the right side of the 36th two-feeder rocker 35B, so that the second feeding device can be reciprocated within a predetermined angle range Rotational movement. ", T with drive shaft 65, first - feed differential shaft 6β Α and second axis _, first-transfer front and rear drive shaft 35 eight and second transfer front and rear drive shaft 326\patent specification (supplement)\ 95-08\TF954515 1305241 3 5 β by the relevant drive assembly shaft 68, connected to the 舳,,, 扣 π block 38A, 38B, even ρ, ° ° 69) y knife to make the forward transfer seat 41和德#,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,, The fixed tooth U moves in an elliptical path (4) and moves back to the hook ring. The sleeve is stitched to the needle (10) and the forward tooth 17 and the rear tooth (5). . In the evening, see the inside of the 移 移 移 , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , The changeover link mechanism 26 and the motion change inner/time reciprocating motion within the range of the angular range of motion are shifted by the differential movement of the tooth 18, and the tooth is moved to the tooth 17 and is active. Feeder seat 42. The moving mechanism and the front-rear direction transmission mechanism-feeding differential shaft 66Α, the second feeding device differential (four) β, = 35 Α and the second feeding device rocker 35 k, and the shaking cup to the convex cylindrical portion u, so —; : = bed 13 extends the needle plate 15 and the seam (four) is the most ^ 1 configuration relative to the 〇, + heart position, the conveyor drive shaft axis 66A, the second conveyor differential axis _, two « shake The rod 3 is the power transmission shaft of the transmission forward feed 17 and the rear return 18. The configuration is more flexible, and the drive shaft 65, the first-feeder differential shaft 66 A, and the second conveyor differential 326 are provided. Patent specification (supplement)\95_〇s\tf954515 18 1305241 Moving shaft 66B, 窜 axis coffee calculation - ΛΓ 后 _35A and second up and down front and rear transmission eccentricity: "Transfer transmission components do not need to be configured It may be tight, and it can be accommodated in the convex cylindrical portion 14 to be only ^^^, J" 'b ^α ^f, J ^ ^^ sewing machine; The diameter obviously increases the range of application of the cylindrical-separable cylindrical sewing. The sewing pitch of the fabric can be adjusted as the cloth ηπ of the sewing material is different. Then, the difference between the transfer tooth 17 and the rear transfer tooth 18 is changed by one, the slit scale plate 82, and the slit distance is changed to two; the conversion drive shaft 84, the slit change rocker arm (10), and the fourth weight are increased before the increase. The difference value between the transfer tooth 17 and the rear feed tooth ΐ ^ Γ 缝 变换 变换 连杆 83 83 83 83 83 83 83 82 82 82 82 82 组件 组件 组件 组件 组件 组件 组件 组件 组件 组件 组件 组件 组件24 slightly above the position, and make::::2 plus, so that the A St complex related to the forward movement of the tooth center two:: two it: forward transfer - ^ unchanged, you can two =,, = The amount of movement before and after the movement. On the other hand, the difference between the movable tooth 17 and the rear feed tooth 18 is reversed, and the transfer tooth 17 and the rear feed tooth 18 are both described: the difference between the forward feed tooth 17 and the rear feed tooth 1δ is adjusted. ^The cylindrical seam W fabric can be sewn to a smaller sewing force and the rotation of the adjustment shaft 88 into the fixed loop Μ by the adjustment ... adjusts the mandrel 89 to move its position, through the top touch = 326\Patent specification (supplement)\95_〇8\TF954515 19 1305241 The centering shaft 89 also touches the transmission block 87 to move it back and forth, and is fixed to the differential feed holder 41 by the above-mentioned transmission mechanism. The differential ratio of the transfer tooth 17 and the rear feed tooth 18 to the active feed base 42. The μ eccentric shaft 51 converts the unidirectional rotational motion of the main shaft 21 into a predetermined angle, and the reciprocating motion in the circumference is transmitted to the shaft 53 and the rear guide by the reciprocating motion of the eccentricity and the shaft 51 at a predetermined angle by the link 52. The pinion drive carrier, after the reciprocating motion in the range of angles, the slider drive shaft 55 moves in the circular path by means of the == plate drive shaft seat 55Α. : Hair: The purpose of the month is to drive the teeth of a cylindrical seam rushing machine: the problem of changing the σ cylinder type seam looming machine before the (four)-segment time and moving the seat and the active splicing seat is loose. The solid 疋 晃 刖 刖 刖 刖 刚 刚 刚 刚 刚 刚 刚 刚 刚 刚 刚 刚 刚 刚 刚 刚 刚 刚 刚 刚 刚 刚 刚 刚 刚 刚 刚 刚 刚 刚 刚 刚 刚 刚 刚 刚 刚 刚 刚 刚 刚 刚 刚 刚 刚 刚 刚 刚 刚 刚 刚 刚± π & , the composition of the components of the moving component is carried out # I The size of the circle is reduced, and the smaller cylindrical sleeves and seams are sewn to the fabric. Although the present invention has been described above with reference to the preferred embodiments, the eighth edition, and the accompanying drawings, it should not be considered as a limitation. The skilled person is familiar with the form and specific examples of the present invention. Revised and clearly defined. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view of a cylindrical slitting machine of the present invention; FIG. 2 is a schematic view showing a part of a mechanism of a cylindrical slitting machine of the present invention; 3 is the decomposition 326 of the exchange mechanism of the machine set in the invention, the patent specification (supplement >\95-〇8\TF954515 20 1305241; FIG. 4 is the differential ratio adjustment of the invention provided in the machine part An exploded view of the mechanism and a part of the transmission mechanism; and FIG. 5 is an exploded view of the transmission mechanism of the invention for driving the front and rear teeth in the machine unit. - [Main component symbol description] 11 arm portion 13 machine tool department • 14 protruding cylindrical part 15 Needle plate 16 Needle bar 16 A Needle 17 Forward transfer tooth 18 Rear transfer tooth 21 Spindle 0 23 Front and rear transfer spindle 24 Differential link mechanism 25 Slider group 26 Motion change linkage η 27 Seam Distance change drive link 28 Slot change link 29 Slot change link 30 Slot change rocker arm 31 Motion change cam drive mechanism 326 Transfer instructions (supplement)\95-08\TF954515 21 1305241 34 Feeder up and down Transmission link 35A first gear Lever 35B Second Feeder Rocker 36 Right Rocker '' 37 Left Rocker / 38A Lifting Slider 3 8 B Lifting Slider 39A First Bundle • 39B Second Bundle 41 Differential Feeder Holder • 41A Differential Feeder seat rear recessed chute • 41B Differential feedstock seat front recessed chute 41C Differential feedstock seat recessed chute 42 Active feedstock seat 42A Active feedstock rear recessed chute ^ 42B Active feedstock front recess Chute 42C Active Feeder Seat Concave Slot 51 Eccentric Shaft 52 Link 53 Shaft 54 Bundle 55 Rear Guide Needle Drive Shaft 55A Rear Guide Needle Drive Shaft Support 56 Rear Guide Needle 326\Patent Specification (Replenishment) \95-08\TF954515 22 1305241 57 Bracelet 61 Rocker arm 62 Differential link 63 Active rocker arm '' 64 Differential rocker arm / 6 5 Feeder drive shaft 6 6 A First feed differential shaft 66B Second send With differential shaft® 67 Active link 68 Connecting shaft - 68A Connecting block 69 Connecting shaft 6 9 A Face 71 First square slider 72 Second square slider ^ 81 Adjustment button 82 Sewing scale plate 83 Linkage 84 Slot change drive shaft 85 Slot change rocker arm 86A First pitch change link 86B Second pitch change link 87 Drive block 88 Shaft 326 \ patent specification (complement member) \ 95-0S \ TF954515 23 1305241 89 90 adjusting spindles adjusting ring 91 fixed ring cinch ring 92
326\專利說明書(補件)\95-08\TF954515 24326\Patent specification (supplement)\95-08\TF954515 24