M322308 八、新型說明: 【新型所屬之技術領域】 本案係與手工具巾之工具桿約a^相言之 ,、係關於一設有具定位及 ==具桿;其中’該接頭包含,及一動作梢,藉由按_ 錢軸_,簡_敝紙_蝴w職枝並便於 工具套件輕易套裝及固定於該套接端。 【先前技術】 使用位鍋_敝—,辦__術峨位置讓使用 者無法_財4完紅作。為__,_發,_, 利職崎輪糾帛、細、_..御,⑽ 作需求。 為便利工具件之組裝及拆卸,一習用接桿通常於接頭處設有一套接機構。 此等習用之套接倾可參縣—财蝴卿^具有—細聊), 於該套接段(9曜設有—與接桿(9_^垂直之卡珠孔㈣),孔⑼1)中裝設一 彈性件⑼2) ’該彈性件(912)抵頂—卡珠(913),因此完成前案之套接機構:此等 習用套接機構之作縣理在於:當者將―卫具件(未示)由該套接段(9叫之末 端向該接桿(_)套入時,工具件之邊緣推抵該卡珠(913),使該卡雜3)向下壓 縮該彈性件(912),而得退縮於該桿身(_)表面。職,當虹具件内一卡固槽 相對於該卡珠孔(911)時,該彈性件(912)得釋放彈力,而將該卡珠(913)再度推頂 乂凸路於雜身(9〇〇)表面,藉由該卡珠(9丨3)與該卫具伽部卡固槽之補而使 該工具件與該接桿(900)之套接段(901)結合。反之,當欲取下該工具件時,使用 者將該工具件反向拔出,而使工具件之邊緣推抵該卡珠(913),使該卡珠(913)向 M322308 下壓縮雜1±件(912),崎退縮於該桿身(9⑻)表面,因而可將王具件取出。 然而’此種方案於實際操作時卻具有極大之缺陷;由於該該彈性件(912)直 接。又置於違卡珠(913)之下方,一但該卡珠⑼3)受到壓迫,便會造成其下方彈性 件(913)之壓縮,因而使該卡珠(913)脫離原本儒合之工具件卡固槽,從而導致接 桿(900)與具件之_卡關係消失;因此,於操作施力中極易產生工具件脫 、 落之情況,故而非為妥善之工具件套接機構。 • 此外,習知接桿一可彎折之結構者。該可彎折結構同樣見於第一圖;該接 修#(_) ’例如,於前述之套接段(9〇1)後方設有一與該套接段(9〇1)活動樞接之槐 接段(902) ’該(902)之前端包含一具有若干卡合槽(922)之樞接塊(921)。而前述套 接段(901>比鄰於該樞接塊(921)之一端於軸心位置鑽設一^^珠孔(931),其中設一 彈性件(932) ’該彈性件並抵頂一^^珠(933)。此外,該套接段(901)於末端並凸伸 一半環形之樞接臂(95),使該樞接臂(95)經由一樞軸(94)樞固於該樞接塊(921)之 兩側。據此’於常態下,該彈性件(932)推頂該卡珠(933),使之抵緊該樞接塊(921) 上相對之卡合槽(922);當使用者將該套接段(9〇1)相對於該樞接段(9〇2)彎折,該 ®卡合槽(922)之邊緣推擠該卡珠(933),使該卡珠(933)向下擠壓該彈性件(932),因 而該套接段(901)可以該樞接臂(95)為支點,相對於該樞接塊(921)樞轉。當樞轉 進行至使用者所需之位置時,該彈性件(932)再度推頂該卡珠(933),使之與目前 對應之卡合槽(922)結合,從而使該套接段(901)相對於該接桿(9〇〇)定位於使用者 所需之操作角度。 此等習用之可彎折結構與前述之習用工具件套接機構具有相同之缺點,亦 即一但該卡珠(933)受到壓迫,便會造成其下方之彈性件(932)產生壓縮,導致該 6 M322308 卡珠(933)之位移;因此使用者於施力過程中必須時時注意施力之方向及角度, 否則極易使該卡珠(933)相對於該卡合槽(922)產生移動,而改變已固定之操作角 度。 有鑑於上述可彎折結構之缺點,創作人乃竭力思索如何改良習知之工具件 套接機構及f折結構,冀能提供一更精财效率的機械結構,以方便使用者經 由單一操作過程同時達成操作改良後之可彎折結構與套接機構之目的。 【新型内容】 本創作之目的及功狀-,係私具件卡合機_透過一動作梢進行操 作,免除齡直接㈣性件置觸卡珠下方,導致卡珠㈣施力移位之缺失, 從而確保工具件可穩固結合於本創作之工具桿接頭。 本創作之目驗功狀二,似減部卡錢難树職動_進_ 作,免除前案直接將彈性件置於該卡珠下方,導致卡珠易因施力移位之缺失、 從而確保工具桿接頭之彎折角度讀實定位。 本創作之目狀功狀三,係個者僅錢作—壓職刊時操作該工 具件卡合機構及該樞接部卡合機構,提高使用效率。 本創作之目的及功效之四’係本創作侧單—之動作梢及壓姻時操作該 工具件卡合機觀該減部卡合機構,可有_錢造縣缝裝時間。 本案為達上述目的之主要技術,本創作之具定位及角度調整之工具桿接頭 包含: 接杯’其包含至少-套接部、-樞接部及一握持部;該套接輕連該抱 接部之-败義為樞接端,其相異之另_端定義為用以承接―卫具件套設其外 M322308 該動 之套接端;-轴向貫穿該套接部之梢孔;—動作梢,合徑設於該梢孔中,· 作梢設有-工具件卡合機構,及—與桿樞接部配合卡固之_部卡合機 構;該工具件卡合機構触接部卡合機構可㈣凸露或駄該接套接部或拖接 部之表面;-彈性件,設置於該動作梢外側與該梢孔相抵;—徑向單側貫穿該M322308 VIII. New description: [New technical field] This case is related to the tool bar of the hand tool towel. It is related to a set of positioning and == with a rod; where 'the joint contains, and An action tip is easily set and fixed to the socket by pressing the _ money axis _, _ _ _ paper _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ [Prior Art] Using the bit pot _敝-, the __ 峨 峨 position allows the user to _ 财 4 finished red. For __, _ hair, _, Lee Osaki round entanglement, fine, _.. Royal, (10) for demand. In order to facilitate the assembly and disassembly of the tool parts, a conventional post is usually provided with a set of joints at the joint. These conventional sockets can be counted in the county---------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------- Equipped with an elastic member (9) 2) 'The elastic member (912) abuts the top-card (913), thus completing the socket mechanism of the previous case: the rule of the conventional socket mechanism is: When the sleeve (not shown) is inserted into the socket (_), the edge of the tool member pushes against the card (913), so that the card 3) compresses the elasticity downward. Piece (912), and has to retreat to the surface of the shaft (_). The elastic member (912) releases the elastic force when the card retaining groove is opposite to the bead hole (911), and the card bead (913) is pushed again to the convex path to the body ( 9表面) surface, the tool member is coupled with the socket portion (901) of the post (900) by the complement of the card bead (9丨3) and the guard galactic card slot. Conversely, when the tool member is to be removed, the user pulls the tool member in the reverse direction, and the edge of the tool member is pushed against the card bead (913), so that the card bead (913) is compressed under the M322308. The ± piece (912), the retraction of the surface of the shaft (9 (8)), so that the royal pieces can be taken out. However, this type of solution has great drawbacks in actual operation; since the elastic member (912) is directly connected. It is placed under the card (913), and once the card (9) 3) is pressed, it will cause the compression of the lower elastic member (913), thus causing the card (913) to be separated from the original Confucian tool. The card slot is fixed, so that the relationship between the post (900) and the component is lost; therefore, the tool member is easily disengaged during the operation of the force, and thus is not a proper tooling sleeve mechanism. • In addition, the conventional post is a bendable structure. The bendable structure is also seen in the first figure; the repair #(_) ', for example, is disposed behind the socket portion (9〇1) and is pivotally connected to the socket segment (9〇1). The junction (902) 'the front end of the (902) includes a pivot block (921) having a plurality of engagement slots (922). The sleeve portion (901) is drilled with a hole (931) adjacent to one end of the pivot block (921) at the axial center position, wherein an elastic member (932) is disposed. ^^珠珠 (933). In addition, the socket portion (901) is at the end and protrudes from the annular pivoting arm (95), so that the pivoting arm (95) is pivoted to the pivoting arm (95) via a pivot (94) The two sides of the pivoting block (921). According to this, in the normal state, the elastic member (932) pushes the card bead (933) to abut the opposite engaging groove on the pivoting block (921) ( 922); when the user bends the socket (9〇1) relative to the pivoting section (9〇2), the edge of the ® engaging groove (922) pushes the card (933), so that The card bead (933) presses the elastic member (932) downward, so that the socket portion (901) can pivot with respect to the pivoting block (921) as a pivot point of the pivoting arm (95). When the rotation is performed to the position desired by the user, the elastic member (932) again pushes the card bead (933) to be engaged with the corresponding corresponding engagement groove (922), so that the sleeve portion (901) Positioned relative to the post (9〇〇) to the user's desired operating angle. These conventional bendable structures and the aforementioned practices The fitting mechanism has the same disadvantage, that is, once the card bead (933) is pressed, the elastic member (932) underneath is compressed, resulting in displacement of the 6 M322308 card bead (933); During the application of the force, the user must pay attention to the direction and angle of the force application at any time. Otherwise, the card bead (933) can be moved relative to the engagement groove (922), and the fixed operating angle is changed. The shortcomings of the above bendable structure, the creator is trying to improve how to improve the conventional tooling and socket structure and the f-fold structure, so as to provide a more efficient and efficient mechanical structure, so that the user can simultaneously achieve the operation through a single operation process. The purpose of the improved bendable structure and the socket mechanism. [New content] The purpose and function of this creation - is the private part of the card machine _ through a action tip, free of direct (four) sexual touch Below the card beads, the card beads (four) force displacement is missing, thus ensuring that the tool piece can be firmly integrated into the tool bar joint of the creation. The purpose of this creation is two, like the reduction of the card money, the difficulty of the tree _ _, exempt from the case The elastic member is placed under the card bead, which causes the card bead to be easily displaced due to the displacement of the force, thereby ensuring the correct positioning of the bending angle of the tool bar joint. The purpose of the creation is only three money. The work tool engagement mechanism and the pivot joint engagement mechanism are operated to improve the efficiency of use. The purpose and function of the present work are the operation of the work side and the action of the marriage. The tool fitting machine can view the reduction mechanism and the sewing machine can have the sewing time of the county. This is the main technology for the above purpose. The tool bar joint with the positioning and angle adjustment of the creation includes: The utility model comprises at least a socket portion, a pivoting portion and a grip portion; the sleeve is lightly coupled to the abutting portion and the defeated portion is a pivoting end, and the different other end is defined as a socket The sleeve is provided with the outer sleeve of the M322308; the axial end penetrates the tip hole of the sleeve portion; the action tip is disposed in the tip hole, and the tip is provided with a tool member engaging mechanism. And a part-locking mechanism that cooperates with the rod pivoting portion; the tooling engagement mechanism contact portion engaging mechanism can Lu Duo or convex portion or the socket contact surface portion of the drag; - an elastic member disposed on the outside of the operation of the tip against tip bore; - radially through the unilateral
套接部之壓頭孔;-壓頭,設於該壓頭孔中;據此,當該彈性件於—常態位置 時該工具件卡合麵凸露錄接敎表s且她接部卡錢構凸絲馳接部 之表面;因此當壓動該壓頭時,該可使該動作梢於該梢孔内向該套接端移動, 因而使該雜件雜-壓齡置,造賴4件卡合機構駄該接套接部之表 面且該樞接部卡合機構縮入該樞接部之表面。 【實施方式】 請見第二至四圖,圖中所示者為設有本創作具定位及肖度調整接頭之工具 桿(100)之-種實施態樣。本創作主要實施於一接桿(1〇〇),該接桿(1〇〇)至少包 含-套接部⑽、一樞接部⑽及_握持部⑺)。根據本實施例,該接桿(⑽)於 相異於該套接部(10)之-端設有-與該握持部⑽相連接之操作頭(9〇),該操作 頭(90)係用以套設於-外部零件,俾便使用者握持該握持部(7〇)以轉動該外部零 件。至於該套接部(10),係提供使用者一需要裝設一工具件,如套筒,而後使用 者可經由調整該套接部(10)相對於該樞接部(5〇)之角度以取得理想之操作角度。 其中,該套接部(10)與該樞接部(50)樞接之一端,在此定義為一樞接端(n),其 相異之另一端定義一套接端(15),用以承接一工具件(如第八圖中之8〇)套設其 外。沿該套接部(10)之轴心方向設有一貫通該套接部(1〇)之梢孔(13),該梢孔(13) 於鄰近該套接端(15)之一段距離具有一第一徑寬,定義為一第一徑寬段(131),而 鄰近該樞接端(11)之一段距離具有一第二徑寬,定義為一第二徑寬段(132)。其中 M322308 礞 該第二徑寬係大於該第-徑寬,因此該第—徑寬段(131)與第二徑寬段(i32)之交 會界處形成一面向該第二徑寬段(132)之環形第一擋止面(133)。 本創作並包含-動作梢(2〇),其係合徑且可徑向滑動地設於該梢孔⑼中。該 動作槲20)對應該梢孔(13),同樣具有一鄰近該套接端⑽之第一徑寬段⑼及一 鄰近該樞接端⑼之帛二徑寬段(22),其中該第二徑寬係大_第一徑寬,而該 •第位寬#又(21)與第一徑寬段(22)之父會處形成一面向該第一徑寬段(21)之環形 第二擋止面(23)。 φ 該動作梢(20)之第一徑寬段(21)設有一工具件卡合機構,該工具件卡合機構係 可活動用以卡合或釋放一工具件。 根據本創作之一實施例,該工具件卡合機構係包含一徑向單侧貫穿該套接部 ,(10)以與該梢孔(13)之第一徑寬段(131)相接之卡珠孔(151)。該動作梢(2〇)之第一 • 徑寬段(21)於相對於該卡珠孔(151)的位置前後相連設有一第一槽位(211)與一第 二槽位(212),其中該第二槽位(212)之深度係大於該第一槽位(211)。 因此,當一卡珠(25)合徑設置於該卡珠孔(151)中時,若該第一槽位(211)相對 Φ於該卡珠孔(151),該卡珠(25)凸露於該套接部(10)之表面;若該第二槽位(212) 相對於該卡珠孔(151),則該卡珠(25)縮入該套接部(1〇)之表面。 而該動作梢(20)之第二徑寬段(22)設有一與該接桿(1〇〇)枢接部(50)配合卡固 之樞接部卡合機構。該樞接部卡合機構係至少包含一位於該接桿(100)之該樞接 部(50)末端,上設有若干卡固槽之樞接塊(51); —半環形之樞接臂(110)凸伸於該 套接部(10)樞接端(11)末端,經由一樞軸(111)樞固於該樞接塊(51)之兩側;以及 一設於該動作梢(20)之第二徑寬段(132)末端可與該樞接塊(51)卡固槽之嚙合之 卡固齒。 9 M322308 請見第三至七圖,根據本創作之一種實施方式,該卡固齒(221)凸設於該動作 梢(20)第二徑寬段(22)之末端軸心位置;其形成方式大體為將該動作梢(2〇)之第 一^寬段(22)由上、下方各垂直銑削一定厚度,因而形成一上、下侧及前端均呈 一平面形狀之卡固齒(221);同時,該樞接塊(51)之外表設有若干卡固槽(52),每 一卡固槽(52)均係恰好容設該卡固齒(221)。因此,當該卡固齒(221)凸伸於該套 • 接部(1〇)樞接端(11)之表面時,該卡固齒(221)嵌卡於一對應之卡固槽(52);反之, 當該卡固齒(221)縮入於該套接部(1〇)樞接端(η)之表面時,其與該樞接塊(η)之 • 卡固槽(52)分離,而使該套接部(1〇)可以該樞軸(111)為支點相對於該樞接塊(51) 樞轉一角度,因而形成該接桿(100)之彎折形狀。 根據本創作之另一實施方式,如第九、十圖所示,該卡固齒(222)凸設於該動 - 作梢(20)第二徑寬段(22)之末端,其形成方式大體為將該動作梢(20)之第二徑寬 • 段(22)由下方各垂直銑削約三分之一直徑之厚度,因而形成一凸伸之半圓柱形卡 固齒(222);其中,該卡固齒(222)之前端與下側呈垂直相係提供交,而提供一組 相互垂直之固定面;同時,該樞接塊(53)之外表面具有若干卡固槽(54),每一^^ #固槽(54)對應該卡固齒(222),亦具有一組相互垂直之固定面;據此,當該卡固齒 凸伸於該套接部樞接端之表面時,對應該卡固齒(222)之卡固槽(54)可對該卡固齒 (222)提供一單向之限位機制,此單向限位機制將於後文詳述;而當該卡固齒(222) 縮入於該套接部(10)樞接端(11)之表面時,該卡固齒與該樞接塊(53)之卡固槽(5句 分離,而使該套接部(10)可以該樞轴(1U)為支點相對於該樞接塊(53)樞轉一角 度,因而形成該接桿(100)之彎折形狀。 此外,本創作之具定位及角度調整之工具桿接頭並包含一彈性件(3〇)。該彈 性件(3〇)穿套於該動作梢(2〇)第-徑寬段(21)外側,定位於該梢孔(13)之第一擔止 M322308 面(133)與該動作梢(20)之第二擋止面(23)之間。其係具有一常態位置及一壓縮位 置;當其處於該常態位置時,將該梢孔(13)之第一擋止面(133)與該動作梢(2〇)之 第二擋止面(23)撐離一預設距離,而當其處於該常態位置時,該梢孔(13)之第一 擋止面(133)與該動作梢(20)之第二擋止面(23)相對靠合,而使其間之距離小於該 預設距離。 • 另有一徑向單側貫穿該套接部(10)以與該梢孔(13)之第一徑寬段(131)相接之 • 壓頭孔(152),而一壓頭(40)設於該壓頭孔中。其一端凸露於該套接部(1〇)之表 • 面,一端與該動作梢(13)之第一徑寬段(133)為機械連結。前述之機械連結,根據 本實施例,係包含以下結構:該動作梢(2〇)之第一徑寬段(21)設一斜向孔道 (213),且該壓頭(40)之身部設一與該斜向孔道(213)相配合之斜面(41),且合徑設 - 置於該斜向孔道中(213),因此當該壓頭(40)向該斜向孔道(213)壓入時,由於該 -壓頭(4〇)徑向定位於該壓頭孔(152)中,藉由該斜面(41)之導引,可使該動作梢(2〇) 於該梢孔(13)内向該套接端(15)之方向移動。 據此,當該壓頭(40)未按下時,該彈性件(30)處於該常態位置,而將該第二擋 ®止面(23)相對於該第一擋止面(133)撐離該預設距離;此時,該第一槽位(211)相 對於該卡珠孔(151),而將該卡珠(25)抵頂凸露於該套接部⑽之表面;同時,該 卡口 (221)凸伸於該套接部(1〇)樞接端(n)之表面並嵌卡於一對應之卡固槽 (52)。 曰 當使用者將該壓頭⑼)按下時,該動作梢⑽於該梢孔⑽内向該套接端⑽ 之方向移動’使該第二擋止面(23)與該第—擔止面(133)之距離縮短,因而使該彈 性件(3〇)處於該壓縮位置;此時,該第二槽位㈣相對於該卡珠孔(⑸),當該 卡珠(25)落入較殊之第工槽位⑽)時,卡珠⑼縮入該套接部⑽之表面;同時, 11 M322308 該卡固齒(221)縮人於該套接部⑽樞接端⑼之表s,因而與該極接塊⑻之卡 固槽(52)分離。 藉由以上之操作,使用者可輕易將一工具件套入該套接部(1〇)之套接端(15广 並且,使用者可將該套接部⑽以該姉(111)為支點相對於該樞接塊(51)樞轉至 所需之操作角度。 • 而後,當使用者釋放該壓頭(40)時,藉由該彈性件(30)之復位作用,該第二擋 止》(23)因該彈性件之復位力量再度被撐離該第-撞止面(133),而使該動作梢 • (20)於該梢孔(13)内向該樞接端(11)移動。至該彈性件(30)回復其常態位置,該卡 珠(25)再度凸露於該套接部(10)之S面而而能將套入該套接端⑽之工具件卡 固’且該卡固齒(221)再度凸露於該套接部⑽樞接端⑼之表面,與對應之卡固 _ 槽(52)(54)結合,而得使該套接部(10)與該枢接部(50)以調整後之角度定位。 • 在此進一步說明前述兩種柩接部卡合機構之不同作用。如第四、五圖所示, 卡固齒(221)具有-上、下側及前端均呈平面之形狀。因此,當其與形狀對應之 卡固槽(52)餐合時,其上、下侧均受該卡固槽(52)之限位,而使得操作中不論施 春力方向為何,均不致移動該卡固齒仰),而得以確保彎折後之工具桿⑼_持 使用者設定之操作角度而不會移動。不論使用者欲將彎折後之工具桿(娜)往何 種方向調整角度,使用者僅需按下該壓頭(4〇)便可重新進行調整。 在此之外,有鑒齡婦操狀制,本賴作人另提供㈣纽第十圖所 示之另-飾接部卡合機構實施方式。财可見,該卡職(222)該具有一半圓 柱狀之外形,其前端與下側呈垂直相交,當其與亦與具有_組相互垂直固定面 之卡固槽⑽結合時,該卡固槽(54)對該卡固齒(Μ2)係提供單向之限位機制;亦 即當該接桿(100)已設定-,彎折角度之情形下,若使用者將該樞接部⑽相對於該 12 M322308 巍 套接部(10)向下彎折,該卡固槽(54)與該卡固齒(222)之下側相互推抵,因而抵銷 使用者向下彎折之施力,不致改變該接桿(1〇〇)已設定之角度;反之,若使用者 將該樞接部(50)相對於該套接部(1〇)向上彎折,因該卡固槽(54)並未對該卡固齒 (222)之上侧限位,因此使用者向上彎折之施力將使該卡固槽(54)推頂該卡固齒 (222)前端,使該動作稍(20)向該套接部(1〇)之套接端(15)方向移動,壓縮該彈性 • 件(30)。而後’當使用者欲將该接桿(1〇〇)定位於一更新之彎折角度時,僅需停止 向上彎折之施力’該卡固齒(222)便可藉由該彈性件(3〇)之復位力量再度與對應之 • 卡固槽(54)嚆合,而完成更新彎折角度之定位。 除此之外,本創作更包含另一實施方式,即將前述半環形之樞接臂(11〇)變更 為二平行之分離樞接臂(圖未示),因此該樞接塊(51)(53)可以該樞軸(111)為支 • 點’相對於該套接部(10)為⑽度之擺轉,使本創作之接桿具有更加之應用靈活 . 性。 雖然本案是以數個最佳實施例做說明,但精於此技藝者能在不脫離本案精神 與㈣下做各種不同形式的改變。α上所舉實施例僅用以說明本案而已,非用 鲁以限制本案之範圍。舉凡不違本案精神所從事的種種修改或變化,倶屬本案申 請專利範圍。 【圖式簡單說明】 第一圖係前案接桿之剖視圖。 第二圖係設有本創作具定位及角度調整接頭之工具桿立體外觀圖。 第二圖係設有本創作具定位及角度調整接頭之工具桿立體分解圖。 第四圖係設有本創作具定位及角度調整接頭之工具桿剖視圖。 第五圖係設有本創作具定位及角度調整接頭之工具桿操作示意圖。 13 M322308 第六圖係設有補作具定位及角度調整铜之卫具桿彎折示意圖之— 第七圖係設有摘作具定位及角度調整接頭之卫具桿彎折示意圖之二 工具件 第八圖係設有本_具定位及角度調整铜之卫具桿彎折並連接 之實施態樣。 第九圖係設有本創作具定位及角度調整接頭之工具桿剖視圖 • 動作稍卡固齒及該樞接塊齒面之另一種實施態樣。 °圖中繪示該 、 第十圖係第九圖中工具桿動作稍之操作示意圖。 • 【主要元件符號說明】 工具桿(100) 壓頭(40) 套接部(10) 斜面(41) 樞接端(11) 樞接部(50) 樞接臂(110) 樞接塊(51) 樞軸(111) 卡固槽(52) 梢孔(13) 樞接塊(53) 梢孔一第一徑寬段(131) 卡固槽(54) 梢孔第二徑寬段(132) 握持部(70) 第一擋止面(133) 工具件(80) 套接端(15) 操作頭(90) 卡珠孔(151) 前案接桿(900) 壓頭孔(152) 套接段(901) 動作梢(20) 樞接段(902) 動作梢第一徑寬段(21) 卡珠孔(911) M322308 第一槽位(211) 彈性件(912) 第二槽位(212) 卡珠(913) 斜向孔道(213) 卡珠孔(931) 動作梢第二徑寬段(22) 彈性件(932) 卡固齒(221) 卡珠(933) 卡固齒(222) 樞接塊(921) 第二擋止面(23) 卡合齒(922) 卡珠(25) 樞軸(94) 彈性件(30) 樞接臂(95) 15a ram of the ferrule; the ram is disposed in the ram hole; accordingly, when the elastic member is in the normal position, the engaging surface of the tool member is exposed to the sputum and the card is connected The surface of the embossed portion of the embossed portion; therefore, when the ram is pressed, the action tip can be moved into the spigot end in the tip hole, thereby causing the miscellaneous pieces to be aged and pressed. The component engaging mechanism 駄 the surface of the socket portion and the pivoting portion engaging mechanism is retracted into the surface of the pivoting portion. [Embodiment] Please refer to the second to fourth figures. The figure shows the implementation of the tool bar (100) with the positioning and the degree adjustment joint. The present invention is mainly implemented in a post (1〇〇), and the post (1〇〇) includes at least a socket portion (10), a pivot portion (10) and a _ grip portion (7). According to the embodiment, the post ((10)) is provided at an end different from the end of the socket (10) - an operating head (9〇) connected to the grip portion (10), the operating head (90) The sleeve is sleeved on the external part, and the user holds the grip (7〇) to rotate the external part. As for the socket (10), the user needs to install a tool member, such as a sleeve, and then the user can adjust the angle of the sleeve portion (10) relative to the pivot portion (5〇). To achieve the desired operating angle. Wherein the socket (10) is pivotally connected to the pivoting portion (50), which is defined as a pivoting end (n), and the other end defines a set of terminals (15). Take a tool (such as 8〇 in the eighth figure) and set it outside. A tip hole (13) penetrating the socket portion (1) is disposed along an axial direction of the socket portion (10), and the tip hole hole (13) has a distance from a portion adjacent to the socket end portion (15) The first path width is defined as a first track width segment (131), and a segment adjacent to the pivot terminal (11) has a second path width defined as a second track width segment (132). Wherein the second diameter width of the M322308 大于 is greater than the first-diameter width, so that the intersection of the first-diameter wide section (131) and the second wide-width section (i32) forms a second diameter-wide section (132) The annular first stop surface (133). The creation also includes a motion tip (2〇) that is sized and radially slidably disposed in the tip hole (9). The action 槲 20) corresponds to the tip hole (13), and has a first diameter wide section (9) adjacent to the socket end (10) and a second diameter wide section (22) adjacent to the pivot end (9), wherein the The second diameter is larger than the first diameter, and the first width Width #21 (21) and the first diameter wide section (22) form a ring facing the first diameter wide section (21) Second stop surface (23). φ The first diameter-wide section (21) of the action tip (20) is provided with a tool member engagement mechanism that is movable to engage or release a tool member. According to an embodiment of the present invention, the tool member engaging mechanism includes a radial one side penetrating the socket portion, and (10) is connected to the first diameter width portion (131) of the tip hole (13). Card hole (151). a first slot (211) and a second slot (212) are connected to each other at a position relative to the bead hole (151). The depth of the second slot (212) is greater than the first slot (211). Therefore, when a card bead (25) is disposed in the bead hole (151), if the first slot (211) is relatively Φ to the bead hole (151), the bead (25) is convex. Exposing the surface of the socket (10); if the second slot (212) is opposite to the bead hole (151), the card (25) is retracted into the surface of the socket (1) . The second diameter-width section (22) of the action tip (20) is provided with a pivoting portion engaging mechanism that is engaged with the pivoting portion (50) of the post (1). The pivoting portion engaging mechanism includes at least one pivoting block (51) at the end of the pivoting portion (50) of the post (100), and a plurality of locking slots; a semi-annular pivoting arm (110) protrudes from the end of the pivoting end (11) of the socket (10), is pivotally fixed to the two sides of the pivoting block (51) via a pivot (111); and is disposed at the action tip ( 20) The securing teeth of the second diameter wide section (132) end engaging with the pivoting block (51) retaining groove. 9 M322308 Please refer to the third to seventh figures. According to an embodiment of the present invention, the fastening tooth (221) protrudes from the end axial position of the second radial width section (22) of the action tip (20); In a manner, the first wide section (22) of the action tip (2) is vertically milled by a certain thickness from the upper and lower sides, thereby forming a locking tooth having a planar shape on the upper, lower, and front ends (221). At the same time, the pivoting block (51) is provided with a plurality of retaining slots (52), and each of the retaining slots (52) is adapted to receive the securing teeth (221). Therefore, when the fastening tooth (221) protrudes from the surface of the pivoting end (11) of the sleeve (1), the fastening tooth (221) is embedded in a corresponding fastening groove (52). Conversely, when the locking tooth (221) is retracted into the surface of the pivoting end (η) of the socket portion (1), it is engaged with the pivoting block (η). Separating, the socket portion (1〇) can pivot at an angle relative to the pivoting block (51) with the pivot (111) as a fulcrum, thereby forming a bent shape of the post (100). According to another embodiment of the present invention, as shown in the ninth and tenth drawings, the locking teeth (222) are protruded from the end of the second diameter-wide section (22) of the movable-tip (20), and the manner of formation thereof is formed. Generally, the second diameter width section (22) of the action tip (20) is vertically milled by a thickness of about one third of a diameter from the lower side, thereby forming a convex semi-cylindrical fastening tooth (222); The front end of the fastening tooth (222) is perpendicularly connected with the lower side to provide a set of mutually perpendicular fixing faces; at the same time, the outer surface of the pivoting block (53) has a plurality of fixing grooves (54). Each of the fixing grooves (54) corresponds to the locking teeth (222), and also has a set of mutually perpendicular fixing faces; accordingly, when the fastening teeth protrude from the surface of the pivoting end of the socket portion a locking groove (54) corresponding to the locking tooth (222) can provide a one-way limit mechanism for the fastening tooth (222), and the one-way limiting mechanism will be described later; When the locking tooth (222) is retracted into the surface of the pivoting end (11) of the socket (10), the fastening tooth is separated from the locking groove of the pivoting block (53), and the The socket (10) can be pivoted relative to the pivot (1U) (53) pivoting an angle, thereby forming a bent shape of the post (100). In addition, the tool bar joint with positioning and angle adjustment of the present invention comprises an elastic member (3〇). 〇) is sleeved on the outside of the first-diameter wide section (21) of the action tip (2〇), and is positioned at the first support M322308 surface (133) of the tip hole (13) and the second of the action tip (20) Between the stop faces (23), which has a normal position and a compression position; when it is in the normal position, the first stop face (133) of the tip hole (13) and the action tip (2) The second stop surface (23) of the 〇) is separated from a predetermined distance, and when it is in the normal position, the first stop surface (133) of the tip hole (13) and the action tip (20) The second stop surface (23) is relatively close, and the distance between them is less than the preset distance. • Another radial one side penetrates the sleeve portion (10) to form a first diameter with the tip hole (13) a wide section (131) is connected to the ram hole (152), and a ram (40) is disposed in the ram hole. One end of the ferrule (40) is exposed on the surface of the socket (1 〇), one end Mechanically coupled to the first diameter-wide section (133) of the action tip (13). According to the embodiment, the first diameter section (21) of the action tip (2) is provided with an oblique channel (213), and the body of the indenter (40) is provided with a The oblique channel (213) is matched with the inclined surface (41) and is disposed in the oblique channel (213), so when the pressure head (40) is pressed into the oblique channel (213) Since the indenter (4〇) is radially positioned in the indenter hole (152), the action tip (2〇) can be made to the tip hole (13) by guiding the inclined surface (41) Inwardly moving in the direction of the socket (15). According to this, when the pressing head (40) is not pressed, the elastic member (30) is in the normal position, and the second blocking surface (23) is supported relative to the first stopping surface (133). Offset the preset distance; at this time, the first slot (211) is opposite to the bead hole (151), and the card bead (25) is abutted on the surface of the socket (10); The bayonet (221) protrudes from the surface of the pivoting end (n) of the socket (1) and is embedded in a corresponding locking groove (52). When the user presses the indenter (9)), the action tip (10) moves in the direction of the socket end (10) in the tip hole (10) to make the second stop surface (23) and the first load-bearing surface (133) the distance is shortened, so that the elastic member (3〇) is in the compressed position; at this time, the second slot (four) is opposite to the bead hole ((5)), when the card bead (25) falls into In the case of the first working slot (10), the card bead (9) is retracted into the surface of the socket (10); at the same time, the 11 M322308 the securing tooth (221) is contracted to the table s of the pivoting end (9) of the socket (10), Therefore, it is separated from the fixing groove (52) of the pole block (8). With the above operation, the user can easily insert a tool member into the socket end of the socket portion (1), and the user can use the socket portion (10) as the fulcrum. Pivoting to the desired operating angle relative to the pivoting block (51). • Then, when the user releases the indenter (40), the second stop is caused by the resetting action of the resilient member (30) (23) because the restoring force of the elastic member is again disengaged from the first collision surface (133), and the action tip (20) is moved in the tip hole (13) toward the pivot end (11) When the elastic member (30) returns to its normal position, the card bead (25) is again exposed on the S surface of the socket portion (10) to secure the tool member that is nested in the socket end (10). And the fastening tooth (221) is again exposed on the surface of the pivoting end (9) of the socket portion (10), and is combined with the corresponding fastening groove (52) (54), so that the socket portion (10) is The pivoting portion (50) is positioned at an adjusted angle. • The different functions of the two types of splicing engaging mechanisms are further described herein. As shown in the fourth and fifth figures, the locking teeth (221) have - The lower side and the front end are in the shape of a plane. Therefore, when When the locking groove (52) corresponding to the shape is combined, the upper and lower sides are restricted by the fixing groove (52), so that no matter whether the direction of the spring force is applied during operation, the locking tooth is not moved. ), to ensure that the bent tool bar (9) _ holds the operating angle set by the user without moving. Regardless of the direction in which the user wants to adjust the angle of the bent tool bar (Na), the user only needs to press the indenter (4〇) to re-adjust. In addition to this, there is a system for measuring the age of women, and the owner of the company provides (4) the implementation method of the other-splicing mechanism. It can be seen that the card position (222) has a semi-cylindrical shape, the front end of which is perpendicularly intersected with the lower side, and when it is combined with a fixing groove (10) having a mutually perpendicular fixing surface, the fastening groove (54) providing a one-way limit mechanism for the fastening tooth (Μ2); that is, when the post (100) has been set to - the bending angle, if the user relatives the pivoting portion (10) The 12 M322308 巍 socket (10) is bent downward, and the fixing groove (54) and the lower side of the fastening tooth (222) are pushed against each other, thereby offsetting the user's downward bending force. , the position of the post (1〇〇) has not been changed; otherwise, if the user bends the pivoting portion (50) upward relative to the socket (1〇), the fixing groove (54) The upper side of the locking tooth (222) is not limited, so the user's upward bending force will cause the locking groove (54) to push the front end of the locking tooth (222), so that the action is slightly (20) Moving toward the socket end (15) of the socket portion (1) to compress the elastic member (30). Then, when the user wants to position the post (1〇〇) at an updated bending angle, it is only necessary to stop the upward bending force. The locking tooth (222) can be used by the elastic member ( The restoring force of 3〇) is again combined with the corresponding locking groove (54) to complete the positioning of the updated bending angle. In addition, the present invention further includes another embodiment, that is, changing the pivoting arm (11〇) of the semicircular ring into two parallel separating pivot arms (not shown), and thus the pivoting block (51) ( 53) The pivot (111) can be pivoted by (10) degrees relative to the socket (10), which makes the post of the creation more flexible. Although the case is illustrated by several preferred embodiments, those skilled in the art can make various changes in form without departing from the spirit of the case and (4). The embodiment shown on α is only used to illustrate the case, and is not intended to limit the scope of the case. Any modification or change that is not in violation of the spirit of the case is the scope of application for the patent in this case. [Simple description of the drawings] The first figure is a cross-sectional view of the front post. The second figure is a three-dimensional appearance of the tool bar of the present invention with positioning and angle adjustment joints. The second figure is a three-dimensional exploded view of the tool bar with the positioning and angle adjustment joints. The fourth figure is a cross-sectional view of the tool bar with the positioning and angle adjustment joints of the present invention. The fifth figure is a schematic diagram of the tool bar operation of the present invention with positioning and angle adjustment joints. 13 M322308 The sixth picture shows the bending diagram of the guard rod of the copper with the positioning and angle adjustment. The seventh picture is the tool part of the bending diagram of the guard rod with the positioning and angle adjustment joint. The eight figures are equipped with the embodiment of the positioning and angle adjustment of the copper guard rods bent and connected. The ninth figure is a cross-sectional view of the tool bar provided with the positioning and angle adjustment joints of the present invention. • The action slightly fixes the teeth and another embodiment of the tooth surface of the pivot block. ° The figure shows the operation of the tool bar in the ninth diagram of the tenth figure. • [Main component symbol description] Tool bar (100) Indenter (40) Socket (10) Bevel (41) Pivot end (11) Pivot (50) Pivot arm (110) Pivot block (51 ) Pivot (111) Clamping groove (52) Tip hole (13) Pivot block (53) Tip hole 1st diameter section (131) Clamping groove (54) Tip hole 2nd diameter and width section (132) Grip (70) First stop surface (133) Tool (80) Socket end (15) Operating head (90) Bead hole (151) Front post (900) Indenter hole (152) Connection (901) Action Tip (20) Pivot Section (902) Action Tip First Diameter Section (21) Bead Hole (911) M322308 First Slot (211) Elastic (912) Second Slot ( 212) Card Beads (913) Oblique Holes (213) Bead Holes (931) Action Tips Second Diameter Wide Section (22) Elastic Parts (932) Clamping Teeth (221) Card Beads (933) Clamping Teeth (222 ) Pivot block (921) Second stop face (23) Engagement tooth (922) Bead (25) Pivot (94) Elastic member (30) Pivot arm (95) 15