M271599 八、新型說明: 【新型所屬之技術領域】 本創作係關於一種穿線及拉線裝置,詳而言之係指一種球拍 穿線機,該穿線機之旋轉台係設有一連動機構,藉以傳動二夹持 機構位移。 【先前技術】M271599 VIII. Description of the new type: [Technical field to which the new type belongs] This creation is about a stringing and stringing device. In detail, it refers to a racket stringing machine. The clamping mechanism is displaced. [Prior art]
按’球拍穿線機係用來對球拍進行穿線之機具。球拍穿線機 具有一裝設於機座上並呈矩形或長形之旋轉台;二夹持機構,係 裝設於該旋轉台上,位於旋轉台長軸向之二端。該二夾持機構可 於旋轉台上調整位置,以便夾住拍框。當拍框被固定後,即可進 行穿線作業。 傳統之牙線機其夾持機構係個別地調整移動;晚近之球拍穿 線機則設有一連動機構,可同步調整二夾持機構位移,使用上較 為便利。具連動機構之穿線機可如第92206776號「球拍穿線機之 改良構造」新型專利案所示。 此外,習知之穿線機中,其控制連動機構之操控钮係設於旋 轉台之長轴向二端,於操作上較不方便。 再者,習知穿線機之旋轉台均係針對特定型式之機座而設 計,亦即’只織設於單-型式之機座上,無法裝麟不同型式 之機座,為其另一缺失。 【新型内容】 本創作之主要目的在於提供—種球㈣線機,魏轉台具有 -連動機構可控制二夾持機構同步移動,其連動結 5 M271599 本創作之另一目的在於提供一種球拍穿線機,連動機構之旋 鈕可設於旋轉台之短軸向二端。 本創作之再一目的在於提供一種球拍穿線機,其旋轉台係適 於裝設在不同之機座上。 【實施方式】 為使貴審查委員能進一步瞭解本創作之目的、特徵以及所 達成之功效,以下茲舉本創作若干較佳實施例,並配合圖式詳細 說明於后,其中,圖式之安排為: 第一圖係本創作一較佳實施例之立體圖。 第二圖係第一圖之大部分解立體圖。 第二圖係第一圖之底視圖,並顯示本實施例所配合之一種型 式之穿線機之機座。 第四圖係第三圖之分解立體圖。 第五圖係第三圖取下底板之頂視圖。 第六圖係第一圖之6-6剖線之剖面圖 第七圖係本實施例裝設於第三圖之機座之橫向剖面示意圖。 第八圖係本創作另一較佳實施例之底視立體圖,並骄示配合 本實施例之另一種穿線機之機座。 第九圖係第八圖之大部分解立體圖。 第十圖係第九圖之部份構件之底視分解立體圖。 第Η^ —圖係本實施例之正視縱向剖面圖。 第十二圖係第十一圖之局部放大圖。 請參閱第一圖’係本創作一較佳實施例所提供之球拍穿線機 (10) ’具有一旋轉台(20);二爽持機構(4〇)及二線夾機構(45)係裝設 於該旋轉台(20)上。一連動機構(5〇),設於該旋轉台(2〇)中,可控 6 M271599 制該二夾持機構(40)之位移。 —該旋轉台(20)於本實施例具有一頂座(3〇)及一底板(36) ,如第 二圖。頂座(3_呈橢_,其頂面於長軸向二端分職有一縱向 .之開槽(31) ’而短轴向二端弧形之導槽(32)。該二線夾機構(45)係 裝設於二導槽(32)中,可於導槽中位移。線夾機構非本創作之標 的’容不贅述。 明s己合參閱第四、五圖,該頂座⑽底面固設有一呈矩形獅 之中空支架(33);而頂座(20)之底面中心係固設一心轴⑽。底板(36) • 係固接於該支架(33)底面。另,於本實施例中,頂座(_緣係設 有一圈往下凸伸之圍部(34)。 該連動機構(50),請參閱第四圖,包括一轉動體(52)、一齒輪 (55)、二連桿(6〇)、二滑塊(56)、一轉轴(62)及二旋鈕(65)。 該轉動體(52)具有一筒身(53)及設於筒身周面二側之連接部 (54)。轉動體(52)係以該筒身(53)柩套於旋轉台之頂座(3〇)底面所設 之心轴(38),而可轉動。 該齒輪(55)係與轉動趙(52)之筒身(53)相固接,使得齒輪與 Φ 轉動體可同步轉動。須說明的是,該筒身周面可直接設-弧形齒 . 部(551),以取代該齒輪之齒。 該二滑塊(5的係分別設於旋轉台之頂座(30)底面之長轴向二 端’而可沿著該長軸向位移,且分別位於該二開槽(31)下方,如第 六圖。實施上,可於頂座底面設置如同鳩尾槽形式之縱向導軌, 該二滑塊(56)產生縱向位移。亦或如本實施例中,頂座(3〇)底面於 長轴向之每一端各設有二保持適當間隔之定位件(57),該二定位件 (57)間即形成一縱向導槽(58);此外,各定位件(57)内侧面並設一 v 形槽部(571)。將各滑塊(56)裝設於各導槽(58)後,即可於頂座之縱 M271599 向滑移。滑塊(56)係受定位件之V形槽部(571)所嵌接。之後復以 一蓋板(59)蓋設於該二定位件(57)及滑塊(56)。 各連桿(60)—端係樞接於該轉動體(52)之一連接部(54),而 . 另一端則樞接於各滑塊(56),使轉動體與連桿產生連動關係。 該轉轴(62)係一長桿件,其桿身中段係設一螺旋齒部(64)。 轉轴(62)係沿旋轉台(20)之短軸向樞設於該支架(33),並可轉動, 其^一端係分別位於紅轉台之二長邊。該螺旋齒部(64)係與該齒輪之 齒部(551)相嚙接,如第五圖。 _ 該二旋鈕(65)内端設有一轴向之套孔(651),並分別以其套孔 套接於該轉轴(62)二端,以供旋動轉動。此外,轉轴每一端内侧係 各設一適當長度之凹入(63)。一擋止件(66),係穿設於該旋鈕(65), 其内端係穿入該套孔(651)並伸入於該凹入(63) 〇藉此,欲轉動轉軸 時(62),可將該旋鈕(65)向外拉出,俟擋止件(66)内端受到凹入(63) 外端所擋止後,旋鈕係自旋轉台(2〇)之圍部(34)之缺口 (341)移出頂 座,如第五圖中位於下側之旋鈕所示,以方便使用者轉動旋鈕。 使用完畢後,則可將旋鈕往内推入,旋鈕移入旋轉台中,如第五 • 圖位於上側之旋鈕所示,以節省體積。 * 各夾持機構(4〇)底端係經由各開槽(31)而連接於各滑塊(56), 而與滑塊一同位移。實施上,各開槽(31)中均裝入一連接塊(41), 如第二、六圖,連接塊底端係固接於各滑塊(56),而夾持機構底端 則固接於滑塊(56),使滑塊與夾持機構相連接。 ~本創作使用時,謹以第五圖說明其作動。使用者旋動旋鈕(65) 藉以轉動轉轴(62),轉轴之螺旋齒部(64)旋轉時即帶動該齒輪(55) 轉動’轉動體(52)則與齒輪(55)—同於該心軸(38)上轉動。當轉動 體(52)角位移時,即經由其連接部(54)帶動該二連桿(60),連桿即 M271599 ▼動ά亥—滑塊(56)沿著導槽(58)位移;該二夾持機構(40)即與該二 滑塊一起位移。在第五圖之方向中,轉動體(52)及齒輪(55)順時針 方向轉動時,係帶動該二滑塊(56)向内滑移;反之,轉動體逆時針 方向旋轉時,該二滑塊係向外滑移。藉此,使用者即可控制該二 夾持機構之間距,使之夾持球拍或釋放球拍。 於本實施例中’請參閱第三圖’底板(36)之底面更設一裝設套 件(25),具有一盤體(26)及一固設於該盤體之轴桿(28),以螺絲螺 固於底板(36)底面中央。轴桿(28)之周面並設有多數細齒(29)。旋 鬆螺絲時可取下該轴桿。 本實施例係配合第三圖所示之機座(15)(圖中僅顯示部份機 座)。該機座設有一轴孔(16);該旋轉台(2〇)係以該轴桿(28)穿入該 軸孔(16)而裝設於機座(15)上,旋轉台(2〇)即藉由該轴桿(28)而可於 機座上轉動,以利穿線作業之施行。 復請參閱第七圖,該機座(15)中係設一^^掣構件(70),該卡掣 構件(70)包括一凸輪(72),係樞設於機座内;一扳桿(74),其内端 係插接於該凸輪(72),使用者扳動扳桿(74)時,可帶動該凸輪轉動。 該凸輪(72)轉動時,其凸輪部(73)可推動一掣件(75)往該抽桿(28) 位移’掣件(75)之内端係設有多數齒(76),可嚙接於轴桿(28)之細 齒(29) ’當軸桿被掣件(75)咬住時,旋轉台即被定位,無法轉動。 藉此於穿線過程中,可使旋轉台定位於特定角位置,以利拉緊球 拍線。 板動扳桿使凸輪(72)回復時,機座(15)内係設有一彈簧(未示) 可將掣件(75)頂回,解除掣件卡掣轴桿(28)之狀態,使旋轉台可再 轉動自如。 第八圖係本創作之旋轉台(80)之另一較佳實施例之縱向局部 9 M271599 剖面圖,其同樣包含有:一頂座、設於該頂座上之二炎持機構、 設於旋轉台内之連動機構,設於旋轉台底面之底板,以及一裝設 套件(100)。本實施例之頂座、連動機構等相關構件倶與上一實施 例相同,容不贅述◊本實施例主要係揭露另一種型式之裝設套件, 使旋轉台可裝設於不同型式之機座上。 欲將本實施例之套件(100)裝設於旋轉台底面時,首先將第一 較佳實施例之裝設套件(25)自底板(36)拆下,接著再變換為本實施 例之套件。 該裝設套件(100),請配合參閱第十圖,包括: 一基座(110),其中心設有一貫穿頂底端之通孔(112)。 一結合件(120),具有一盤部(122)及一自該盤部底面向下延 伸之柱部(124)。結合件(120)係裝設於該基座(11〇)頂面,其柱部(124) 並伸入該基座(110)之通孔(112)中’如第十二圖。結合件(120)之盤 部(122)係用以螺固於底板(36)底面,如第九、十一圖,其裝設之位 置恰為上一實施例之套件(25)所裝設之位置。 一滾珠盤(130),具有一環形盤身(132);多數滾珠(134),裝 設於盤身(132)之珠孔(135)中,於盤身上呈圓形排列。滚珠盤(no) 之頂、底面並得各蓋設一墊片(136)。該滚珠盤(130)係裝設於基座 (110)頂面之上凹室(114),如第十二圖。滾珠盤之頂、底面係分別 用以接觸於旋轉台及基座。 一轴承(140),裝設於基座、''(110)之通孔(112)及結合件(12〇) 之柱部(124)之間,基座之通孔(112)内並設有一内徑較小之凸緣 (116),如第十二圖,使該軸承(14〇)定位。 一定位盤(150),其端面設有多數呈一圈呈圓形排列之定位 孔(152)。該定位盤係設於該基座(110)下方,其中心之穿孔(154)係 M271599 供螺絲(156)固接於結合件(120)之柱部(124)底端。藉此,整組裝設 套件(100)即組裝完成。基座(110)底面係設有一下凹室(118)以供容 納定位盤(150)。 該裝設套件(1〇〇)組合後係如第九、十一圖所示。其係裝設於 旋轉台(20)底面。裝設時,首先將第一實施例之套件(25)自底板(36) 取下,之後將本實施例之套件(100)藉由其結合件(120)之盤部(122) 螺固於底板(36)底面,即可使旋轉台換裝成另一套件。 此外,本實施例更可包含有一底座(160),如第八、十一圖。 Φ 該底座係呈長橢圓形之碗狀,配合頂座之形式。底座(16〇)中心並 具有一孔(162),而其二長邊則各設一缺口(164)。該底座(16〇)頂緣 係以螺絲螺回於頂座,藉以包覆旋轉台(2〇)底端。其缺口(164)係與 頂座(30)之缺口相對應,以便使旋鈕(65)外露。該裝設套件(1⑻)係 被包覆於底座(160)内,基座(110)與定位盤(15〇)底面係露出於該孔 (162)。 請參閱第八圖,係適合本實施例裝設之機座(170)。該裝設套 件(100)之基座(110)底面設有四螺孔(119),旋轉台(2〇)即藉由基座 • 之螺孔(119)螺固於機座(170)之凹窩(172)之裝設孔(174)而固定於 機座。由第十一圖所示可知,基座固定於機座後,整個旋轉台(2〇)、 結合件(120)及定位盤(150)係可於基座與機座上同步轉動。旋轉台 (20)之重量係藉由滾珠盤(130)而落在基座(及機座)上,旋轉台轉動 時’滚珠盤(130)係使底板(36)與基座(11〇)間滾動摩擦;而軸承(14〇) 則使結合件(120)之柱部(124)與基座之通孔(112)間具有最小之轉 動摩擦。 同樣的,穿線過程中,旋轉台須視穿線之位置而轉動。在機 座(170)底面係螺設一定位鈕(175),該定位鈕(175)頂端具有一定位 11 M271599 鎖(176) ’轉動定她時,可使該定位鎖(176)自機座頂面之鎖孔⑽) 露出,而插接於定位盤⑽)之—定位孔(152),使旋轉台固定 定之角位置。 藉由本創作所揭露之結構可知: 一、本創作用以帶動夾持機構(4〇)位移之連動結構係與習知結 構不同,為同類物品中首創之結構。 一、本創作可將連動機構之二旋钮(65)裝設於旋轉台短軸向二 端可裝設於長轴向二端),對於操控夾持機構而言 ,旋紐位於旋 驗轉台之短轴肖二端使操作者以較短之距離即可觸及,故操作上較 為便利。 平乂 /一、本創作提供有二種裝設套件,使旋轉台可變換成不同之 触而裝設於不同型式之機座上,增進產品之變化性及適用性。 综上所陳’本創作為一新穎性之創作,誠合於產業上之利用 價值,爰依法提出申請。 12 M271599 【圖式簡單說明】 第一圖係本創作一較佳實施例之立體圖。 第係第-圖之大部分解立體圖。 第三圖係第—圖之底視圖,並顯示本實施例所配合之一種型 式之穿線機之機座。 第四圖係第三圖之分解立體圖。 第五圖係第三圖取下底板之頂視圖。 第六圖係第一圖之6-6剖線之剖面圖 第七圖係本實施例裝設於第三圖之機座之橫向剖面示意圖。 第八圖係本創作另一較佳實施例之底視立體圖,並顯示配合 本實施例之另一種穿線機之機座。 第九圖係八圖之大部分解立體圖。 第十圖係第九圖之部份構件之底視分解立體圖。 第十一圖係本實施例之正視縱向剖面圖。 第十二圖係第十一圖之局部放大圖。The racket stringing machine is a machine for stringing a racket. The racket stringing machine has a rectangular or elongated rotating table installed on the machine base; two clamping mechanisms are installed on the rotating table and are located at the two ends of the rotating table in the longitudinal direction. The two clamping mechanisms can be adjusted on the rotary table to clamp the frame. When the frame is fixed, the threading operation can be performed. The clamping mechanism of the traditional flossing machine is adjusted and moved individually; the recent racket stringing machine is equipped with a linkage mechanism that can adjust the displacement of the two clamping mechanisms simultaneously, which is more convenient to use. The stringing machine with interlocking mechanism can be shown in the new patent case No. 92206776 "Improved Structure of Racket Stringing Machine". In addition, in the conventional stringing machine, the control buttons for controlling the linkage mechanism are provided at the two ends of the long axis of the rotary table, which is inconvenient in operation. In addition, the rotary tables of conventional stringing machines are designed for specific types of machine bases, that is, 'only woven on single-type machine bases, and cannot be equipped with different types of machine bases, which is another deficiency. . [New content] The main purpose of this creation is to provide a ball reeling machine. The Wei turntable has a linkage mechanism that can control the synchronous movement of the two clamping mechanisms. The linkage 5 M271599 Another purpose of this creation is to provide a racket stringing machine. The knob of the linkage mechanism can be set at the short axial two ends of the rotary table. Another purpose of this creation is to provide a racket stringing machine, the rotary table of which is suitable for being mounted on different bases. [Implementation] In order to enable your reviewing committee to further understand the purpose, characteristics, and effectiveness of this creation, here are some preferred embodiments of this creation, which will be described in detail with the drawings. Among them, the arrangement of the drawings For: The first picture is a perspective view of a preferred embodiment of the present invention. The second figure is a mostly exploded perspective view of the first figure. The second figure is a bottom view of the first figure, and shows the base of a type of stringing machine used in this embodiment. The fourth figure is an exploded perspective view of the third figure. The fifth figure is a top view of the third figure with the bottom plate removed. The sixth figure is a cross-sectional view taken along the line 6-6 of the first figure. The seventh figure is a schematic cross-sectional view of the base mounted on the third figure in this embodiment. The eighth figure is a bottom perspective view of another preferred embodiment of the present invention, and shows a stand of another stringing machine cooperating with this embodiment. The ninth figure is a mostly exploded perspective view of the eighth figure. The tenth figure is a bottom exploded perspective view of some components of the ninth figure. Figure ^^ is a longitudinal sectional view of the embodiment in front view. The twelfth figure is a partially enlarged view of the eleventh figure. Please refer to the first picture 'The racket stringing machine (10) provided by a preferred embodiment of this creation' has a rotating table (20); two cool holding mechanisms (40) and two wire clamp mechanisms (45) are attached It is provided on the rotary table (20). A linkage mechanism (50) is set in the rotary table (20), and can control the displacement of the two clamping mechanisms (40). -The rotary table (20) in this embodiment has a top seat (30) and a bottom plate (36), as shown in the second figure. The top seat (3_shaped ellipses), the top surface of which is divided at the two ends of the long axial direction has a longitudinal slot (31) 'and the short axial two-end arc-shaped guide slot (32). The two-clamp mechanism (45) is installed in the second guide groove (32), which can be displaced in the guide groove. The clamp mechanism is not the subject of this creation, and it is not allowed to repeat. Please refer to the fourth and fifth figures for the description of the top seat. A rectangular lion hollow bracket (33) is fixed on the bottom surface; and a mandrel ⑽ is fixed on the center of the bottom surface of the top seat (20). The bottom plate (36) is fastened to the bottom surface of the bracket (33). In the embodiment, the top seat (_ edge is provided with a circle of downwardly protruding surrounding portion (34). The linkage mechanism (50), see the fourth figure, includes a rotating body (52), a gear (55), Two connecting rods (60), two sliders (56), a rotating shaft (62), and two knobs (65). The rotating body (52) has a barrel body (53) and is provided on two sides of the barrel body peripheral surface. The connection part (54). The rotating body (52) is sleeved on the mandrel (38) provided on the bottom surface of the top seat (30) of the rotary table with the cylinder body (53), and can be rotated. The gear (55) ) Is fixedly connected to the body (53) of the rotating Zhao (52), so that the gear and the Φ rotating body can rotate synchronously. It should be noted that The peripheral surface of the cylinder body can be directly provided with arc-shaped teeth. The portion (551) replaces the teeth of the gear. The two sliders (5 are respectively arranged on the long axis of the bottom surface of the top seat (30) of the rotary table). End 'can be displaced along the long axial direction and are respectively located below the two slots (31), as shown in the sixth figure. In practice, a longitudinal guide in the form of a dovetail slot can be provided on the bottom surface of the top seat. (56) A longitudinal displacement is generated. Or, as in this embodiment, the bottom surface of the top seat (30) is provided at each end of the long axis with two positioning members (57) maintained at appropriate intervals, and the two positioning members (57) A longitudinal guide groove (58) is formed in between; in addition, a v-shaped groove portion (571) is provided on the inner side of each positioning member (57). After each slider (56) is installed in each guide groove (58), It can slide in the vertical direction M271599 of the top seat. The slider (56) is engaged by the V-shaped groove (571) of the positioning member. Then, a cover plate (59) is placed on the two positioning members ( 57) and the slider (56). Each link (60) -end is pivotally connected to a connecting portion (54) of the rotating body (52), and the other end is pivotally connected to each slider (56), The rotating body and the connecting rod are linked to each other. The rotating shaft (62) is a long rod, and The middle part of the body is provided with a spiral tooth (64). The rotating shaft (62) is pivoted on the bracket (33) along the short axis of the rotating table (20) and can be rotated, and its ^ end is respectively located on the red rotating table. Two long sides. The spiral tooth (64) is engaged with the tooth (551) of the gear, as shown in the fifth figure. _ The inner end of the two knobs (65) is provided with an axial sleeve hole (651), It is sleeved on the two ends of the rotating shaft (62) with its sleeve holes for rotating rotation. In addition, a recess (63) of a proper length is provided on the inner side of each end of the rotating shaft. A stopper (66) is provided on the knob (65), and an inner end thereof is inserted into the sleeve hole (651) and extends into the recess (63). Therefore, when the rotation shaft (62) is to be rotated (62 ), The knob (65) can be pulled out. After the inner end of the stopper (66) is blocked by the recess (63), the outer end of the knob (65) is turned from the surrounding part (34) of the rotary table (20). ), The notch (341) is moved out of the top seat, as shown by the knob on the lower side in the fifth figure to facilitate the user to turn the knob. After use, you can push the knob in and move the knob into the turntable, as shown in the fifth figure on the upper knob to save volume. * The bottom end of each clamping mechanism (40) is connected to each slider (56) through each slot (31), and is displaced together with the slider. In practice, a connecting block (41) is installed in each slot (31). As shown in the second and sixth figures, the bottom end of the connecting block is fixed to each slider (56), and the bottom end of the clamping mechanism is fixed. The slider (56) is connected to the slider and the clamping mechanism. ~ When using this creation, please use the fifth picture to explain its operation. The user rotates the knob (65) to rotate the rotating shaft (62). When the spiral tooth portion (64) of the rotating shaft rotates, the gear (55) is driven to rotate. The 'rotating body (52) is the same as the gear (55) — the same as The mandrel (38) rotates. When the rotating body (52) is angularly displaced, the two connecting rods (60) are driven through its connecting portion (54), and the connecting rod is M271599 ▼ 动 ά 海 —the slider (56) is displaced along the guide groove (58); The two clamping mechanisms (40) are displaced together with the two sliders. In the direction of the fifth figure, when the rotating body (52) and the gear (55) rotate clockwise, the two sliders (56) are driven to slide inward; otherwise, when the rotating body rotates counterclockwise, the two The slider slides outward. Thereby, the user can control the distance between the two gripping mechanisms, so as to grip or release the racket. In this embodiment, please refer to the third figure, the bottom surface of the bottom plate (36) is further provided with an installation kit (25), which has a plate body (26) and a shaft (28) fixed to the plate body, Screws are fixed on the center of the bottom surface of the bottom plate (36). The peripheral surface of the shaft (28) is provided with a plurality of fine teeth (29). The shaft can be removed when the screw is loosened. This embodiment is matched with the base (15) shown in the third figure (only a part of the base is shown in the figure). The machine base is provided with a shaft hole (16); the rotary table (20) is mounted on the machine base (15) with the shaft (28) penetrating the shaft hole (16), and the rotary table (20) ) That is, the shaft (28) can be rotated on the machine base to facilitate the threading operation. Please refer to the seventh figure again. A ^^ member (70) is provided in the base (15), and the latch member (70) includes a cam (72), which is pivotally disposed in the base; a lever (74), the inner end of which is inserted into the cam (72), and when the user pulls the lever (74), the cam can be driven to rotate. When the cam (72) rotates, its cam portion (73) can push a detent (75) to displace the draw rod (28). The inner end of the detent (75) is provided with a plurality of teeth (76), which can be engaged. The fine teeth (29) connected to the shaft (28) 'When the shaft is bitten by the catch (75), the turntable is positioned and cannot rotate. In this way, during the threading process, the rotary table can be positioned at a specific angular position to facilitate tightening the racket string. When the lever is moved to return the cam (72), a spring (not shown) is provided in the base (15) to push the latch (75) back to release the latch and lock the lever (28). The turntable can be rotated freely. The eighth figure is a longitudinal partial 9 M271599 cross-sectional view of another preferred embodiment of the rotating table (80) of this creation, which also includes: a top base, two inflammation holding mechanisms provided on the top base, The interlocking mechanism in the rotary table is provided on the bottom plate of the rotary table and a mounting kit (100). The related components such as the top base and the linkage mechanism of this embodiment are the same as those of the previous embodiment, so no further description is needed. This embodiment mainly discloses another type of installation kit, so that the rotary table can be installed on different types of machine bases. on. When the kit (100) of this embodiment is to be installed on the bottom surface of the rotating table, the mounting kit (25) of the first preferred embodiment is first removed from the base plate (36), and then converted to the kit of this embodiment . The installation kit (100), please refer to the tenth figure in cooperation, includes: a base (110), a center of which is provided with a through hole (112) through the top and bottom ends. A coupling member (120) has a plate portion (122) and a post portion (124) extending downward from the bottom surface of the plate portion. The coupling member (120) is installed on the top surface of the base (110), and its column portion (124) extends into the through hole (112) of the base (110) 'as shown in the twelfth figure. The disc portion (122) of the joint (120) is used to be screwed to the bottom surface of the bottom plate (36), as shown in Figures 9 and 11. Its installation position is exactly the same as that of the kit (25) of the previous embodiment. Its location. A ball plate (130) has a ring-shaped plate body (132); most of the balls (134) are arranged in the bead holes (135) of the plate body (132) and are arranged in a circle on the plate body. Each of the top and bottom surfaces of the ball disc (no) may be covered with a gasket (136). The ball disc (130) is installed in a recess (114) above the top surface of the base (110), as shown in the twelfth figure. The top and bottom surfaces of the ball disc are used to contact the rotary table and the base, respectively. A bearing (140) is installed between the base, the through hole (112) of the (110) and the post (124) of the joint (12), and the through hole (112) of the base is juxtaposed. A small inner diameter flange (116), as shown in the twelfth figure, positions the bearing (14). A positioning plate (150) has a plurality of positioning holes (152) arranged in a circle in a circular shape on its end surface. The positioning plate is arranged below the base (110), and the perforation (154) in the center is M271599 for the screw (156) to be fixed to the bottom end of the column (124) of the joint (120). Thereby, the complete assembly kit (100) is assembled. The bottom surface of the base (110) is provided with a lower recess (118) for receiving the positioning plate (150). The combination of the installation kit (100) is shown in Figures 9 and 11. It is installed on the bottom surface of the turntable (20). When installing, first remove the kit (25) of the first embodiment from the base plate (36), and then screw the kit (100) of this embodiment to the disk portion (122) of the coupling member (120). The bottom surface of the bottom plate (36) allows the rotary table to be replaced with another kit. In addition, this embodiment may further include a base (160), as shown in the eighth and eleventh figures. Φ The base is in the shape of a long oval bowl, matching the form of the top base. The base (16) has a hole (162) in the center and a notch (164) on each of its two long sides. The top edge of the base (16) is screwed back to the top base to cover the bottom end of the rotary table (20). The notch (164) corresponds to the notch of the top base (30) so that the knob (65) is exposed. The installation kit (1⑻) is covered in the base (160), and the bottom surface of the base (110) and the positioning plate (15) is exposed through the hole (162). Please refer to the eighth figure, which is a stand (170) suitable for installation in this embodiment. The bottom surface of the base (110) of the installation kit (100) is provided with four screw holes (119), and the rotary table (20) is screwed to the base of the base (170) through the screw holes (119) of the base. A mounting hole (174) of the recess (172) is fixed on the machine base. As can be seen from the eleventh figure, after the base is fixed to the machine base, the entire rotary table (20), the coupling member (120) and the positioning plate (150) can be synchronously rotated on the base and the machine base. The weight of the rotary table (20) falls on the base (and the base) through the ball plate (130). When the rotary table rotates, the 'ball plate (130) makes the base plate (36) and the base (11). Rolling friction; and the bearing (14) makes the column (124) of the coupling member (120) and the through hole (112) of the base have a minimum of rotational friction. Similarly, during threading, the turntable must rotate depending on the position of the thread. A positioning button (175) is screwed on the bottom surface of the base (170), and the top of the positioning button (175) has a positioning 11 M271599 lock (176) 'When the rotation is fixed, the positioning lock (176) can be made from the base The lock hole ⑽) on the top surface is exposed, and is inserted into the positioning hole (152) of the positioning plate ⑽) to fix the rotary table at a fixed angular position. According to the structure revealed in this creation: 1. The linked structure used to drive the displacement of the clamping mechanism (40) in this creation is different from the known structure and is the first structure of its kind. 1. In this creation, the two knobs (65) of the linkage mechanism can be installed on the two ends of the short axis of the rotary table and the two ends of the long axis can be installed. For the control of the clamping mechanism, the knob is located on the rotary test turntable. The short end of the short axis allows the operator to reach it at a short distance, so it is more convenient to operate. Pingyi / 1. This creation provides two kinds of installation kits, so that the rotary table can be changed into different contacts and installed on different types of machine bases to improve the variability and applicability of the product. In summary, this creation is a novel creation, which accords with the industrial use value and applies in accordance with the law. 12 M271599 [Brief Description of the Drawings] The first drawing is a perspective view of a preferred embodiment of this creation. This is a perspective view of most of the first figure. The third figure is the bottom view of the first figure, and shows the base of a type of stringing machine used in this embodiment. The fourth figure is an exploded perspective view of the third figure. The fifth figure is a top view of the third figure with the bottom plate removed. The sixth figure is a cross-sectional view taken along the line 6-6 of the first figure. The seventh figure is a schematic cross-sectional view of the base mounted on the third figure in this embodiment. The eighth figure is a bottom perspective view of another preferred embodiment of the present invention, and shows a base of another stringing machine in accordance with this embodiment. The ninth figure is a perspective view of most of the eight figures. The tenth figure is a bottom exploded perspective view of some components of the ninth figure. The eleventh figure is a front sectional view of the embodiment. The twelfth figure is a partially enlarged view of the eleventh figure.
13 M271599 【主要元件符號說明】 穿線機(10) 旋轉台(20)(80) 裝設套件(25)(100) 盤體(26) 轴桿(28) 細齒(29) 頂座(30) 開槽(31) 支架(33) 圍部(34) 缺口(341)(164) 底板(36) 心轴(38) 夾持機構(40) 連接塊(41) 連動機構(50) 轉動體(52) 筒身(53) 連接部(54) 齒輪(55) 弧形齒部(551) 滑塊(56) 定位件(57) 導槽(58) 連桿(60) 轉轴(62) 凹入(63) 螺旋齒部(64) 旋鈕(65) 套孔(651) 擋止件(66) 基座(110) 通孔(112) 凹室(114)(118) 結合件(120) 盤部(122) 柱部(124) 滾珠盤(130) 盤身(132) 滾珠(134) 珠孔(135) 轴承(140) 定位盤(150) 定位孔(152) 底座(160) 孔(162)13 M271599 [Description of main component symbols] Threading machine (10) Rotary table (20) (80) Installation kit (25) (100) Disk body (26) Shaft (28) Fine tooth (29) Top seat (30) Slot (31) Bracket (33) Surround (34) Notch (341) (164) Bottom plate (36) Mandrel (38) Clamping mechanism (40) Connecting block (41) Linking mechanism (50) Rotating body (52 ) Body (53) Connecting part (54) Gear (55) Arc tooth (551) Slider (56) Positioning member (57) Guide groove (58) Connecting rod (60) Rotating shaft (62) Recessed ( 63) Spiral teeth (64) Knob (65) Sleeve (651) Stopper (66) Base (110) Through hole (112) Recess (114) (118) Adapter (120) Disk (122) ) Column (124) Ball plate (130) Body (132) Ball (134) Ball hole (135) Bearing (140) Positioning plate (150) Positioning hole (152) Base (160) Hole (162)