201244887 五、本案若有化學式時,請揭示最能顯示發明特徵的化學式: 六、發明說明: 【發明所屬之技術領域】 本發明具有調整扭力之接桿,是在兼具一般傳統接桿下, 還能調整壓力值又具快速標準校正功能之扭力接桿。最主要是 在改善螺絲螺設時的鬆緊標準之扭力值問題。並提供具有可靠 扭力數據值之功能與方法。其技術原理是先將壓力標示件貫穿 右原動接桿轴。並使六角形固定穿孔套合六角形固定轴上。同 時利用一對左右原從動離合盤游走在左右原從動接桿軸經組 合由小螺絲固定後之左右六角形轴上之間。此時再將鋼珠置入 壓力標示件之側環溝與右原動離合盤之側環溝之間《«並將壓力 彈簧及旋轉轴盤同時穿入左從動接桿軸抵住左從動離合盤 後,又再將鋼珠放置在旋轉轴盤之側環溝上。而校正定位螺絲 及校正防鬆螺絲與手握把管經组合後同時穿過左從動接桿轴 之四角形轴’當手握把管一端之調壓内螺紋鎖上壓力標示件之 調壓外螺紋成為一體後。當在壓力下校正定位螺絲及校正防鬆 螺絲與手握把管則可形成快速調整及校正扭力之基本機構要 件裝置。而一對左右原從動離合盤游走在左右原從動接桿軸之 左右六角形轴上之間,則可形成離合器基本機構要件裝置。在 左右原從動接桿轴與一對左右原從動離合盤的互動之間可決 定成為一般傳統接桿或具有調整扭力之接桿功能。最後結合成 為具有調整扭力之接桿,以滿足各種螺設螺絲鬆緊標準之目 的。 【先前技術】 依照現在市面所能見到機械式之扭力接桿當中β許多設計 原理都是採用兩轴端面製成為簡易之盤型面小傘齒。在裝上壓 力彈簧及簡易調壓鈕後而成為簡易固定式之離合器暨固定值 第3頁 201244887 之扭力接捍。或者將簡易調壓鈕再延伸改為成可調壓力鈕而成 為普通之扭力接桿。 就以固定扭力值設計來說。是利用左右兩轴置放在相同中 心線上並令兩對接端面呈現為盤型小傘齒並使之嚙合〇其中左 轴另一端可直接設製為四方頭.或設裝置各式接頭。而右轴另 一端則設製為四方孔。而在壓力彈簧裝置入内後並利用簡易調 壓紐設定固定扭力值後直接固定。此種設計雖然說可做簡易調 整扭力值,但是外表卻無刻劃,使用者不可任意調整改變壓力 彈簧之壓力。為一個最簡易單一功能之固定值之扭力接桿。對 使用者來說除非所有要螺設之螺絲規格與尺寸、種類都相同。 否則勢必要準備更多金錢更多固定值之扭力接桿為其不便之 一。無法再獨立調整正確大小之其他扭力設定值為其功能不足 之二。同時又不能做一般接桿使用為其使用設限之三。及無法 做正確校正扭力值使為其使用遺憾之四。 而為了降低不便與功能不足,又有設計將簡易調壓鈕再 延伸設計成可調壓力鈕。暨除了利用固定值之扭力接桿設計 原理外《更直接將簡易調壓紐拉長與手握把互設成螺紋而成 螺設之關係。並在其外表則可呈現刻劃,以利於調整壓力彈 簧之壓力。而使用這樣扭力接桿,是比固定值式扭力接桿少 了不便之處。但還不能兼具一般接桿使用,而且往往少了一 個較優良的校正器之設計。 如例一文獻見TW專利公報第M325896號: 公報内第二圖立體結搆分解圖及第三圖與第四圖結搆動 作示意圖所示,係由本體(10 )内設連動空間(14 )調整區段 (13)鎖合孔(12)來容置傳動件(31)驅動件(40)彈性體(35 )C 扣環扭力調整裝置(20 )與固定件(151 )所組裝而成為可簡易 調整扭力之接桿機構。且傳動件(31 )與驅動件(4〇)之接觸端 面都各設為小傘形齒之傳動端面(32 )與驅動端面(41)之設 計。這種設計外表並無刻劃及優良的校正器與充當接桿使用。 如例二文獻見TW專利公報第Μ289822號:201244887 V. If there is a chemical formula in this case, please disclose the chemical formula that best shows the characteristics of the invention: 6. Description of the invention: [Technical field of the invention] The present invention has a post for adjusting the torsion force, which is under the common conventional post. It can also adjust the torque value and the torque adjustment rod with fast standard correction function. The most important problem is the torque value of the elastic standard when the screw is screwed. It also provides functions and methods for reliable torque data values. The technical principle is to first pass the pressure indicator through the right original actuator shaft. The hexagonal fixed perforation is fitted over the hexagonal fixed shaft. At the same time, a pair of left and right original driven clutch discs are used to move between the left and right original driven rod shafts and the left and right hexagonal shafts fixed by small screws. At this time, the steel ball is placed between the side ring groove of the pressure indicating member and the side ring groove of the right original moving clutch plate. «The pressure spring and the rotating shaft plate are simultaneously inserted into the left driven connecting rod shaft against the left driven clutch. After the disk, the steel ball is placed on the side ring groove of the rotating shaft. And the correction positioning screw and the correction locking screw and the hand grip tube are combined and pass through the square shaft of the left driven rod shaft at the same time as the pressure regulating internal pressure of the end of the hand grip tube is locked. After the thread is integrated. Correcting the set screw and correcting the anti-loose screw and the hand grip tube under pressure can form a basic mechanism for quickly adjusting and correcting the torque. A pair of left and right original driven clutch discs are moved between the right and left hexagonal shafts of the left and right original driven rod shafts to form a clutch basic mechanism element device. Between the left and right original driven rod shafts and the interaction of a pair of left and right original driven clutch discs, it can be determined to be a conventional conventional post or a post function with adjustable torque. Finally, it is combined into a post with adjustable torque to meet the requirements of various screw tightening standards. [Prior Art] According to the current market, the mechanical torque coupling can be seen. Many of the design principles are made of two-axis end faces made of simple disc-shaped small bevels. After installing the pressure spring and the simple pressure adjustment button, it becomes a simple fixed clutch and fixed value. Page 3 201244887 Torque connection. Or change the simple pressure button to an adjustable pressure button to become a normal torque rod. It is designed with a fixed torque value. The left and right shafts are placed on the same center line and the two butt end faces are presented as disc-shaped small bevel teeth and meshed therebetween. The other end of the left shaft can be directly set as a square head. The other end of the right shaft is designed as a square hole. After the pressure spring device is inserted, the fixed torque value is set by the simple pressure adjustment button and fixed directly. Although this design can be used to easily adjust the torque value, the appearance is not scratched, and the user cannot arbitrarily adjust the pressure of the pressure spring. A fixed value torque clamp for the simplest single function. For the user, unless all the screws to be screwed are the same size and size. Otherwise, it is necessary to prepare more money for more fixed value torque poles as one of the inconveniences. Other torque settings that cannot be independently adjusted to the correct size are the two of them. At the same time, it is not possible to use the general pole for its use. And it is impossible to correct the torque value correctly so that it can be used for regret. In order to reduce inconvenience and lack of function, there is also a design that will be easily adjusted to an adjustable pressure button. In addition to the use of a fixed value of the torque rod design principle, the relationship between the simple adjustment of the tension and the grip of the hand is made into a thread. And in its appearance, it can be scored to help adjust the pressure of the pressure spring. The use of such a torsion post is less inconvenient than a fixed value torsion post. However, it is not possible to use both the general post and the design of a better corrector. For example, see the TW Patent Publication No. M325896: the exploded view of the second figure in the gazette and the schematic view of the structure of the third and fourth figures, which are provided by the body (10) with the interlocking space (14) Segment (13) locking hole (12) for accommodating transmission member (31) driving member (40) elastic body (35) C buckle torque adjusting device (20) and fixing member (151) assembled to be easily adjustable Torque lever mechanism. And the contact end faces of the transmission member (31) and the driving member (4〇) are respectively designed as the transmission end faces (32) and the driving end faces (41) of the small umbrella teeth. This design has no characterization and excellent corrector and acts as a post. For example, see Document 2 of the TW Patent Gazette No. 289822:
第4頁 S 201244887 溜圖二ί内立艘結搆分解圖及第七圖與第八圖結搆剖 二= 一傳動部(20’)内設卡條(40,)並容置第二傳 功i ί ΪΪ )彈性部(60,)第二卡部(50,)所組合之單一 力能接#結構β這種設計只有最簡易之單一功能。 二文獻見TW專利公報第1314087號: μ ίΐΞ第—圖立趙結搆分解圖及第四圖結搆剖視調整圖 二透視圖所示’係由本艘⑴内設置螺 紋段多邊形魄(13 )帛崎納魏(24 )調整塊(21 )彈性件 (22)卡制塊(23)頭部(30)彈性體(322)扣片(323)而組合之 簡易之扭力接桿結構。這種設計也是最簡易之單一功能設計。 以上三種設計是市面上最常使用的。但也是常見缺點與不 便之處。為了解決這種不便,發明人應用各種機械原理與特 性功能加上實品之測試,終於設計出可當一般接桿使用又可 兼具任意調整扭力值與快速校正標準扭力值之多功能精密扭 力之接桿。 【發明内容】 本發明主要是在提供一個完善多功能之扭力接桿。其原 理結構係先藉由壓力標示件的轴心設為内徑穿孔及六角固定 穿孔。軸面除了刻劃標示外,其一端設調壓外螺紋同轴端面又 設測環溝。且讓右原動接桿抽一端轴心面設置四角形孔,轴面 上分別設置六角形固定轴及右六角形轴與小圓轴。其中右六角 形軸上設圓孔用以放置小彈簧與鋼珠,小圓轴上也設環方槽〇 又讓左從動接桿轴一端軸面上設左六角形轴,其轴心端面設一 圓孔用以容接右原動接桿轴之小圓轴,左從動接桿轴的轴面上 設一螺絲孔方便小螺絲固定小圓轴,另一端轴面上則設四角形 轴其轴上又設圓孔也用以放置小彈簧與鋼珠。同時將一對左右 原從動離合盤其轴心分別設置右六角形穿孔與左六角形穿 孔,且在轴心對接觸面其各轴心端面圓360度則分別設為6區 段,並分別依位置設成60度角凹凸圓曲面弧於端面圓上,使 之成為一對離合盤聯結體。而右原動離合盤之右六角形穿孔其Page 4 S 201244887 Slip Figure 2 分解Inner ship structure exploded view and seventh and eighth figure structure section 2 = One drive section (20') is equipped with a card (40,) and accommodates the second passivation i ί ΪΪ ) The single force of the elastic portion (60,) of the second card portion (50,) can be connected to the structure β. This design has only the simplest single function. For the literature, see TW Patent Gazette No. 1314087: μ ΐΞ ΐΞ 图 图 图 结构 结构 结构 及 及 及 及 及 及 及 及 及 图 图 图 图 图 图 图 结构 结构 结构 结构 结构 结构 结构 结构 结构 结构 结构 结构 结构 结构 结构 结构 结构 结构 结构 结构 结构 结构Nawei (24) adjusts the block (21) elastic member (22) card block (23) head (30) elastomer (322) cleat (323) and combines a simple torsion post structure. This design is also the easiest single function design. The above three designs are the most commonly used on the market. But it is also a common shortcoming and inconvenience. In order to solve this inconvenience, the inventor applied various mechanical principles and characteristic functions together with the actual product test, and finally designed a multi-function precision torque that can be used as a general post and can have both an arbitrary adjustment torque value and a quick correction standard torque value. Post. SUMMARY OF THE INVENTION The present invention is mainly to provide a perfect multi-functional torque pole. The original structure is firstly defined by the axial center of the pressure indicating member and the hexagonal fixed perforation. In addition to the marking, the shaft surface is provided with a coaxial end face of the pressure-regulating external thread and a measuring ring groove. And the right-hand moving rod is provided with a square-shaped hole on one end of the axial center, and a hexagonal fixed shaft and a right hexagonal shaft and a small round shaft are respectively arranged on the shaft surface. The right hexagonal shaft is provided with a circular hole for placing a small spring and a steel ball, the small circular shaft is also provided with a ring groove, and the left driven shaft of the left driven shaft is provided with a left hexagonal shaft, and the axial end face is provided. A round hole is used to receive the small round shaft of the right original moving rod shaft, and a screw hole is arranged on the shaft surface of the left driven connecting rod shaft to facilitate the small round shaft to fix the small round shaft, and the other end shaft surface is provided with a quadrangular shaft on the shaft. A circular hole is also provided for placing small springs and steel balls. At the same time, a pair of left and right original driven clutch discs are respectively provided with right hexagonal perforations and left hexagonal perforations, and the axial end faces of the axial contact faces are respectively set to 6 segments, and are respectively set to 6 segments, and respectively According to the position, it is set to a 60-degree angle convex curved surface arc on the end surface circle, so that it becomes a pair of clutch disc coupling bodies. And the right-handed clutch disc has a right hexagonal perforation
第5買 S 201244887 孔内壁也設兩處位移定位溝方便定位在右原動接桿軸上。之後 將壓力標示件之内徑穿孔及六角固定穿孔預先穿過右原動接 桿轴之小圓軸與右六角形轴後讓壓力標示件之六角固定穿孔 套接固定在右原動接桿轴之六角固定軸上。再將右原動離合盤 穿過右原動接桿轴之小圓轴,在右六角形轴上由鋼珠定位之。 同樣將左從動離合盤穿過左從動接桿轴一端之左六角形轴 上。當右原動接桿轴之小圓轴與左從動接桿轴之圓孔配合後, 由小螺絲在左從動接桿轴面上所設之螺絲孔鎖緊固定後,就可 構成為簡易又無壓力之離合器基本機構要件。 此外再將校正定位螺絲所設之外螺紋由一端的軸端面已 設之測環溝向内,另一轴端面已設之驅動孔向外再鎖入放置在 手握把管一端所設之校正内螺紋内,接著又將校正防鬆螺絲所 設之外螺紋同樣由轴端面已設之驅動孔鎖入放置在手握把管 一端所設之校正内螺紋内,就可構成為簡易又無壓力之快速調 整扭力校正基本機構要件。 如果再將鋼珠置入先前組合後之離合器基本機構要件上 的壓力標示件一端軸面之測環溝與右原動離合盤一端面所設 之測環溝之間内。又將壓力彈簧套入左從動接桿轴一端之四 角形轴至壓力彈簧一端抵住左從動離合盤之一端面。此時將 旋轉軸盤同樣由已先設成之圓孔套入左從動接桿轴一端之四 角形抽至旋轉抽盤一端面抵住壓力彈簧另一端止。同樣再將 鋼珠先放置在旋轉轴盤另一端面圓所設之測環溝上。配合先 前簡易又無壓力之快速調整扭力校正基本機構要件,暨手握 把管與校正定位螺絲及校正防鬆螺絲之配合體由左從動接桿 之四角形軸套入,並由手握把管另一端之内孔所設成的調壓 内螺紋與壓力標示件一端轴面上所設之調壓外螺紋對接互為 鎖入後成為一完整體。 此時剛組合後之一完整體,經由右原動接桿轴一端之四角 形孔外接固定物體上時,使一完整體固定。則可藉由因壓力 標示件是套固在右原動接桿軸上之便,可將手握把管與壓力 第6頁 201244887 標示件之壓力刻劃值對正後,並藉由校正定位螺絲做壓力快 速校正後再由校正防鬆螺絲鎖緊而達到快速校正標準扭力值 使用之功能。同時可再藉由手握把管正反旋轉與壓力標示件 間之互動可做任意調整標準扭力值使用之功能。而也因剛組 合後之一完整體使壓力彈簧壓迫左右原從動離合盤一起往右 原動接桿軸方向播’而藉由右原動接桿轴之右六角形轴上鋼 珠卡入右原動離合盤之左邊位移定位溝之便及利用長度差, 使右原動接桿轴之右六角形轴長度大於右原動離合盤長度。 多出之長度到達左從動離合盤之一半。當左從動離合盤其左 六角形穿孔長度内同時卡住左右六角形轴暨左右原從動接桿 軸這兩軸時,則就達到兩軸成為一趙之目的,此時即可當一 般接桿使用功能。若將手握把管做固定並由左從動接桿軸一 端之四角形軸的端面施一力量,迫使左從動接桿轴推擠右原 動接桿轴做位移。而在右原動接桿輛上之六角固定轴與壓力 標示件之六角固定穿孔則呈現脫離,同時右六角形軸上鋼珠 則卡入右原動離合盤之右邊位移定位溝。長度差則消失後左 右原從動離合盤分別套在左右原從動接桿軸之左右六角形轴 上時。當右原動接桿轴一端之四角形孔外接旋轉施力源時, 則可藉由右原動接桿軸將作用力量傳遞到右原動離合盤。而 右原動離合盤又將旋轉作用力量傳遞到左原動離合盤。左原 動離合盤再將旋轉作用力量傳遞到左原動接桿軸並藉由一端 之四角形轴輸出。當四角形孔外接旋轉施力源小於或等於壓 力彈簧壓迫左右原從動離合盤之壓力,則外力之旋轉施力源 可全部由四角形轴輸出,反作用力等於旋轉施力源。當外接 旋轉施力源大於壓力彈簧壓迫左右原從動離合盤之壓力,左 右原從動離合盤則由接觸之左右凹凸圓曲面作磨擦旋轉分 離,而外力旋轉施力源只能輸出等於壓力彈簧壓力由四角形 轴輸出,反作用力等於壓力彈簧壓力,此時則可發揮扭力接 桿之功能。由於本扭力接桿是兼具任意調整精確扭力值使用 之功能外,還能做快速校正標準扭力值與可當一般傳統接桿The fifth purchase S 201244887 hole wall also has two displacement positioning grooves for easy positioning on the right original moving rod shaft. Then, the inner diameter perforation and the hexagonal fixed perforation of the pressure indicator member are pre-passed through the small round shaft and the right hexagonal shaft of the right original moving rod shaft, and then the hexagonal fixed perforated sleeve of the pressure indicating member is fixed to the hexagon of the right original moving rod shaft. Fixed on the shaft. Then, the right original clutch disc is passed through the small round shaft of the right original moving rod shaft, and is positioned by the steel ball on the right hexagonal shaft. Also pass the left driven clutch disc through the left hexagonal shaft on one end of the left driven post shaft. When the small round shaft of the right original moving rod shaft is engaged with the circular hole of the left driven connecting rod shaft, the screw hole provided on the shaft surface of the left driven connecting rod is locked and fixed by the small screw, so that it can be constructed as simple The basic mechanism of the clutch without pressure. In addition, the external thread of the correction set screw is set inward by the measuring ring groove which has the shaft end surface of one end, and the driving hole of the other end surface of the other shaft is locked outward to be placed at the end of the hand grip tube. In the internal thread, the external thread of the correcting anti-loosening screw is also locked by the driving hole provided on the end face of the shaft into the correcting internal thread provided at one end of the grip tube, so that it can be constructed as simple and no pressure. Quickly adjust the basic requirements of the torque correction. If the steel ball is placed in the gap between the measuring ring groove at one end of the pressure indicating member on the basic component of the clutch and the measuring ring groove provided at the end surface of the right original moving clutch plate. The pressure spring is then inserted into the quadrilateral shaft of one end of the left driven rod shaft to one end of the pressure spring against one end surface of the left driven clutch disc. At this time, the rotating shaft is also drawn from the first round hole into the square of one end of the left driven rod shaft, and the end of the rotating tray is pressed against the other end of the pressure spring. Also place the steel ball on the measuring groove groove on the other end of the rotating shaft. With the simple and pressure-free rapid adjustment of the torque correction basic mechanism requirements, the matching body of the hand grip tube and the correction positioning screw and the correction anti-loose screw are inserted into the square shaft of the left driven rod, and the tube is held by the hand. The pressure-regulating internal thread provided on the inner hole of the other end is mated with the pressure-regulating external thread provided on one end of the axial surface of the pressure indicating member to become a complete body. At this time, one of the complete bodies just after the combination is fixed to the fixed object via the square-shaped hole at one end of the right-hand moving rod shaft, so that a complete body is fixed. By arranging the pressure indicator on the right priming shaft, the pressure aligning value of the hand grip tube and the pressure gauge on page 6 of the 201244887 can be aligned and corrected by the set screw. After the pressure is quickly corrected, it is locked by the correcting anti-loose screw to achieve the function of quickly correcting the standard torque value. At the same time, the interaction between the forward and reverse rotation of the tube and the pressure indicator can be used to adjust the standard torque value. However, because of the complete body after the combination, the pressure spring is forced to press the left and right original clutch discs to the right original rod axis direction, and the steel ball on the right hexagonal shaft of the right original moving rod shaft is inserted into the right original clutch. The left side of the disc displaces the positioning groove and utilizes the difference in length, so that the length of the right hexagonal shaft of the right original moving rod shaft is greater than the length of the right original moving clutch disc. The extra length reaches one and a half of the left driven clutch disc. When the left driven clutch disc has its left hexagonal perforation length and both the left and right hexagonal shafts and the left and right original driven rod shafts, the two axes become the purpose of Zhao. Post function. If the hand grip tube is fixed and a force is applied from the end face of the quadrilateral shaft at the end of the left driven post shaft, the left driven post shaft is forced to push the right original transfer rod shaft for displacement. The hexagonal fixed shaft on the right original moving rod and the hexagonal fixed perforation of the pressure indicating member are disengaged, and the steel ball on the right hexagonal shaft is inserted into the right displacement positioning groove of the right original moving clutch disc. When the length difference disappears, the left and right original clutch discs are respectively placed on the left and right hexagonal shafts of the left and right original driven rod shafts. When the square-shaped hole at one end of the right-hand drive rod shaft is externally connected to the rotary force source, the action force can be transmitted to the right-hand drive clutch disk by the right-hand drive rod shaft. The right-handed clutch disc transmits the rotating force to the left-handed clutch disc. The left original clutch disc transmits the rotational force to the left primary actuator shaft and is output by the quadrilateral shaft at one end. When the externally applied rotational force source of the quadrangular hole is less than or equal to the pressure of the pressure spring to press the left and right original clutch disk, the external force transmitting force source may all be outputted by the quadrilateral axis, and the reaction force is equal to the rotating force source. When the external rotating force source is greater than the pressure of the pressure spring to press the left and right driven clutch discs, the left and right original driven clutch discs are frictionally separated by the left and right concave and convex circular surfaces of the contact, and the external force rotating force source can only output the pressure equal to the spring pressure of the quadrilateral shaft. The output, the reaction force is equal to the pressure spring pressure, and the function of the torque rod can be exerted at this time. Since the torsion post has the function of arbitrarily adjusting the precise torque value, it can also quickly correct the standard torque value and can be used as a general conventional post.
第7頁 S 201244887 使用之功能。實在是一件難得的發明創作》 【實施方式】 請參閱配合圖示第一圖說明所示,本發明主要是由 壓力標示件(30)的轴心設為内徑穿孔(34)及六角固定穿 孔(32 )。軸面除了刻劃標示外,其一端設調壓外螺紋(31) 同轴端面又設測環溝(33)。且讓右原動接桿抽(1〇) 一端轴 心面,請參閱配合圖示第二圖及第三圖說明所示,設置四角形 孔(19),軸面上分別設置六角形固定轴(11)及右六角形轴 (12) 與小圓轴(13)。其中右六角形軸(12)上設圓孔(15) 用以放置小彈簧(16)與鋼珠(17),小圓軸(13)上也設環方 槽(14)。又讓左從動接桿轴(20)—端抽面上設左六角形轴 (21 ),其轴心端面設一圓孔(28 )用以容接右原動接桿轴 (10)之小圓轴(13),左從動接桿軸(20)的轴面上設一螺 絲孔(23)方便小螺絲(24)固定小圓軸(13),另一端轴面 上則設四角形轴(22 )其轴上又設圓孔(25 )也用以放置小彈簧 (26 )與鋼珠(27 ) <»同時將一對左右原從動離合盤(4〇 ) ( 5〇 ) 其轴心分別設置右六角形穿孔(41 )與左六角形穿孔(51 ),且 在轴心對接觸面其各軸心端面圓360度則分別設為6區段,請 參閱配合圖示第六圖說明所示,並分別依位置設成度角凹 凸圓曲面孤(43 )(53)( 44) (54)於端面圓上,使之成為一對 離合盤聯結體。而右原動離合盤(40 )之右六角形穿孔(41 )其 孔内壁也設兩處位移定位溝(42 )方便定位在右痔動接桿^ (10)上之右六角形轴(12)。之後將壓力標示件(3〇、)之内徑穿 孔(34 )及六角固定穿孔(32 )預先穿過右原動接桿轴(1〇)之小 圓轴(13 )與右六角形轴(12)後讓壓力標示件(3〇)之六角固定 穿孔(32 )套接固疋在右原動接桿轴()之六角固定軸(〖I ) 上。再將右原動離合盤(40 )穿過右原動接桿轴(1〇 )之小圓轴 (13) 在右六角形軸(12)上由鋼珠(17)定位之。同樣將左從動 離合盤(50 )穿過左從動接桿轴(20 )一端之左六角形軸(21 ) 上。當右原動接桿轴(10 )之小圓轴(13 )與左從動接桿軸 第8頁 201244887 (20),請參閱配合圖示第二圖及第三圖說明所示,之圓孔(28) 配合後,由小螺絲(24 )在左從動接桿轴(20 )面上所設之螺絲 孔(23 )鎖緊固定後,就可構成為簡易又無壓力之離合器基本 機構要件。 此外再將校正定位螺絲(70 )所設之外螺紋(72 )由一端轴 端面,請參閱配合圖示第二圖及第三圖說明所示,已設之測環 溝(74 )向内,另一軸端面已設之驅動孔(71 )向外再鎖入放置 在手握把管(60 )—端所設之校正内螺紋内(61 ),接著又將校 正防鬆螺絲(75 )所設之外螺紋(77 )同樣由轴端面已設之驅動 孔鎖(76 )入放置在手握把管(6〇 )—端所設之校正内螺紋(μ ) 内,就可構成為簡易又無壓力之快速調整扭力校正基本機構要 件0 如果再將鋼珠(39 )置入先前組合後之離合器基本機構要 件上的壓力標示件(30)—端軸面之測環溝(33)與右原動離合 盤(40)-端面,請參閱配合圖示第二圖及第三圖說明所示, 所設之側環溝(45)之間内。又將壓力彈簧(58)套入左從動接 桿轴(20 )—端之四角形軸(22 )至壓力彈簧(兌)一端抵住左 從動離合盤(50)之一端面。此時將旋轉轴盤(66)同 設成之11孔(68)套入左從動接桿軸(2〇)—端之四角形 至旋轉轴盤(66)-端面抵住屋力彈簧(58 )另一端止 將,珠(69 轉軸盤(66)另一端面圓所設之測環溝 錢力之贿調整扭力校正基本機 構要件,暨手握把管(60)與校正定位螺絲(7〇)及校正 ίϋΪί合體由左從動接桿(2G )之四角形軸(22 )套1 ^ 由手握把管(6G )另-端之内孔,請參閱配合 三=騎示,所設朗調壓内螺紋(62跑力第 轴面上所設之瀬外螺紋(31 )對接互為鎖入後成為(一完) n剛組合後之-完整趙,請參閲配合圖 圖說明所示,經由右原動接桿轴(1〇)—端之四角形&第了 第9頁 201244887 接固定物體上時,使一完整體固定。則可藉由因壓力標示件 (30)是套固在右原動接桿轴(1〇)上之便,可將手握把管(6〇) 與壓力標示件(30 )之壓力刻劃值對正後,並藉由校正定位螺 絲(70)做壓力快速校正後再由校正防鬆螺絲(75 )鎖緊而達到 快速校正標準扭力值使用之功能。同時可再藉由手握把管(6〇) 正反旋轉與壓力標示件(30 )間之互動可做任意調整標準扭力 值使用之功能。而也因剛组合後之一完整趙使壓力彈簧(58 ) 壓迫左右原從動離合盤(40 )( 50 )—起往右原動接桿轴(1〇 ) 方向擠,而藉由右原動接桿轴(1〇)之右六角形轴(12)上鋼珠 (17 )卡入右原動離合盤(4〇 )之左邊位移定位溝(42 )之便及 利用長度差,使右原動接桿轴(1〇)之右六角形轴(12)長度大 於右原動離合盤(40 )長度。多出之長度到達左從動離合盤 (50 )之一半。當左從動離合盤(5〇)其左六角形穿孔(51)長度 内同時卡住左右六角形轴(12 )( 21)暨左右原從動接桿軸(10) (20 )這兩軸時’則就達到兩軸成為一遨之目的,此時即可當 一般接桿使用功能。若將手握把管(6〇 )做固定並由左從動接 桿轴(20)—端之四角形轴(22)的端面施一力量,迫使左從動 接桿轴(20)推擠右原動接桿軸(10)做位移。而在右原動接桿 軸(10 )上之六角固定轴(11 )與壓力標示件(3〇 )之六角固定 穿孔(32)則呈現脫離,同時右六角形軸(11)上鋼珠(17)則卡 入右原動離合盤(40)之右邊位移定位溝(42) 〇長度差則消失 後左右原從動離合盤(40 )( 50 )分別套在左右原從動接桿軸 (10 )( 20 )之左右六肖形轴(12 )(21)上時《當右原動接桿軸 (10) ’請參閱配合圖示第二圖及第三圖說明所示,一端之四 角形孔(19)外接旋轉施力源時,則可藉由右原動接桿轴(1〇) 將作用力量傳遞到右原動離合盤(40) 〇而右原動離合盤(4〇) 又將旋轉作用力量傳遞到左原動離合盤(5〇 p左原動離合盤 (50)再將旋轉作用力量傳遞到左原動接桿轴(2〇 )並藉由一端 之四角形軸(22)輸出。當四角形孔(19)外接旋轉施力源小於 或等於壓力彈簧(58 )壓迫左右原從動離合盤(4〇 )( 50 )之壓Page 7 S 201244887 Features used. It is a rare invention creation. [Embodiment] Please refer to the description of the first figure in the figure. The invention mainly consists of the inner diameter of the pressure indicator (30) as the inner diameter perforation (34) and hexagonal fixing. Perforation (32). In addition to the marking, the shaft surface is provided with a regulating external thread (31) at one end and a measuring ring groove (33). And let the right original moving rod draw (1〇) one end of the axial surface, please refer to the second and third figures of the figure, set the square hole (19), and set the hexagonal fixed shaft on the shaft surface (11 ) and right hexagonal shaft (12) and small round shaft (13). The right hexagonal shaft (12) is provided with a circular hole (15) for placing the small spring (16) and the steel ball (17), and the small circular shaft (13) is also provided with a ring groove (14). The left driven rod shaft (20) is provided with a left hexagonal shaft (21) on the end pumping surface, and a circular hole (28) is arranged on the axial end surface for receiving the small circle of the right original moving rod shaft (10). The shaft (13) and the left driven rod shaft (20) are provided with a screw hole (23) on the shaft surface for the small screw (24) to fix the small round shaft (13), and the other end has a quadrangular shaft (22). A circular hole (25) is also arranged on the shaft to place the small spring (26) and the steel ball (27) <» at the same time, a pair of left and right original driven clutch discs (4〇) (5〇) respectively The right hexagonal perforation (41) and the left hexagonal perforation (51) are set, and the axial end faces of the axial contact faces are 360 degrees respectively, and are respectively set to 6 segments, please refer to the sixth figure in the figure. And respectively, according to the position, the concave and convex circular curved surface (43) (53) (44) (54) is formed on the end surface circle to make it a pair of clutch disc coupling bodies. The right hexagonal perforation (41) of the right original clutch disc (40) is also provided with two displacement positioning grooves (42) on the inner wall of the hole to facilitate positioning of the right hexagonal shaft (12) on the right swaying rod ^ (10). . Then, the inner diameter perforation (34) and the hexagonal fixed perforation (32) of the pressure indicating member (3〇,) are previously passed through the small circular shaft (13) and the right hexagonal shaft (12) of the right original moving rod shaft (1〇). After that, let the hexagonal fixing perforation (32) of the pressure indicator (3〇) be fastened to the hexagonal fixed shaft (I) of the right original moving rod shaft (). Then, the right original clutch disc (40) is passed through the small circular shaft (13) of the right original moving rod shaft (1〇) and positioned on the right hexagonal shaft (12) by the steel ball (17). Also, the left driven clutch disc (50) is passed through the left hexagonal shaft (21) at one end of the left driven post shaft (20). For the small round shaft (13) of the right original moving rod shaft (10) and the left driven rod shaft, page 8 201244887 (20), please refer to the second and third figures shown in the figure. (28) After the screwing (23) is fixed by the small screw (24) on the screw hole (23) provided on the left driven post shaft (20), it can be constructed as a simple and pressureless clutch basic mechanism. . In addition, the external thread (72) provided by the correction set screw (70) is provided by the end face of the one end shaft. Please refer to the second and third figures of the drawing, and the measuring ring groove (74) is set inward. The drive hole (71) of the other shaft end face is locked outwardly and placed in the correcting internal thread (61) provided at the end of the grip tube (60), and then the correction screw (75) is set. The external thread (77) is also inserted into the correcting internal thread (μ) provided at the end of the grip tube (6〇) by the drive hole lock (76) provided on the end face of the shaft, so that it can be constructed as simple and without Quick adjustment of pressure Torque correction basic mechanism element 0 If the steel ball (39) is placed in the previously combined clutch basic mechanism requirements, the pressure indicator (30) - the end ring groove (33) and the right original clutch For the disc (40)-end face, please refer to the illustration of the second and third figures in the illustration, between the side ring grooves (45). The pressure spring (58) is then inserted into the left driven link shaft (20) - the quadrilateral shaft (22) of the end to the end of the pressure spring (forward) against one of the end faces of the left driven clutch disc (50). At this time, the 11-hole (68) of the rotating shaft (66) is sleeved into the left driven rod shaft (2〇) - the square of the end to the rotating shaft (66) - the end surface against the house spring (58) At the other end, the bead (69) of the other end of the shaft (66) is set to measure the ring to adjust the torque to correct the basic mechanism requirements, the hand grip tube (60) and the correction set screw (7〇) ) and correction ϋΪ ϋΪ 由 由 由 由 由 由 左 左 左 左 左 左 左 左 左 左 左 左 左 左 左 左 左 左 左 左 左 左 左 左 左 左 左 左 左 左 左 左 左 左 左 左 ^ 左 左 ^ ^ ^ ^ ^ ^ ^ ^ Internal thread (62) The external thread (31) provided on the first axial surface of the running force is locked into each other and becomes (one end) n after the combination - complete Zhao, please refer to the diagram shown in the figure. When a fixed body is attached to the fixed object via the right original actuator shaft (1〇) - the square of the end & the second corner of the 201244887, it can be fixed by the pressure indicator (30). On the original actuator shaft (1〇), the pressure of the hand grip tube (6〇) and the pressure indicator (30) can be aligned, and the pressure can be quickly corrected by correcting the set screw (70). After correction Correct the locking screw (75) to achieve the function of quickly correcting the standard torque value. At the same time, the adjustment between the forward and reverse rotation of the tube (6〇) and the pressure indicator (30) can be made. The function of the standard torque value is used. However, just after the combination, one complete Zhao makes the pressure spring (58) oppress the left and right original clutch disc (40) (50) - from the right original rod shaft (1〇) And the steel ball (17) on the right hexagonal shaft (12) of the right-hand moving rod shaft (1) is inserted into the left displacement displacement groove (42) of the right original clutch disc (4〇) and the difference in length is utilized. The length of the right hexagonal shaft (12) of the right original moving rod shaft (1〇) is greater than the length of the right original moving clutch disc (40). The length of the excess reaches one half of the left driven clutch disc (50). When the left is driven When the clutch disc (5〇) is in the length of the left hexagonal perforation (51) and the right and left hexagonal shafts (12) (21) and the left and right original driven rod shafts (10) (20) are both axes, then To achieve the goal of two axes, you can use the function as a general post. If you hold the handle tube (6〇) and fix it from left to right The shaft (20) - the end face of the quadrangular shaft (22) exerts a force, forcing the left driven rod shaft (20) to push the right original rod shaft (10) for displacement. On the right side of the rod shaft ( 10) The hexagonal fixed shaft (11) on the upper hexagonal fixed shaft (11) and the pressure indicator (3〇) are disengaged, and the steel ball (17) on the right hexagonal shaft (11) is inserted into the right original clutch disc ( 40) The right displacement positioning groove (42) 〇 The length difference disappears, and the left and right original clutch plates (40) (50) are respectively placed around the left and right original driven rod shafts (10) (20). (12) (21) When the upper right moving rod shaft (10) 'Please refer to the second and third figures in the figure, when the square corner hole (19) at one end is connected to the rotating force source, you can borrow The right original moving rod shaft (1〇) transmits the acting force to the right prime moving clutch disc (40), and the right original moving clutch disc (4〇) transmits the rotating force to the left original moving clutch disc (5〇p left original clutch) The disc (50) then transmits the rotational force to the left motive post shaft (2〇) and is output by the quadrilateral shaft (22) at one end. When the externally applied rotating force source of the square hole (19) is less than or equal to the pressure spring (58), the pressure of the left and right original clutch disc (4〇) (50) is pressed.
第10頁 S 201244887 力,則外力之旋轉施力源可全部由四角形轴(22 )輸出,反作 用力等於旋轉施力源。當外接旋轉施力源大於壓力彈簧(58 ) 壓迫左右原從動離合盤(40) (50)之壓力,左右原從動離合盤 (40)(50),請參閱配合圖示第六圖說明所示,則由接觸之左 右凹凸圓曲面(43)(53)(44)(54)作磨擦旋轉分離,而外力 旋轉施力源只能輸出等於壓力彈簧(58 )壓力由四角形軸(22 ) 輸出,反作用力等於壓力彈簧(58)壓力,此時則可發揮扭力 接桿之功能。由於本扭力接桿是兼具任意調整精確扭力值使 用之功能外,還能做快速校正標準扭力值與可當一般傳統接 桿使用之功能。實在是一件難得的發明創作。 【圖式簡單說明】 圈式部分: 第一圖:係本發明之立體分解示意圖。 第二圖:係本發明之平面位置剖面組合作動示意圖。 第三圖:係本發明之平面透視组合作動示意圖。 第四圖:係本發明之立體剖面組合示意圓。 第五圖:係本發明之角形變化立艘剖面組合示意圖。 第六圖:係本發明之離合盤平面位置解說示意圖。 第七圖:係本發明之離合盤角形變化平面位置示意圖。 第八圖:係本發明之外觀實施例示意圖。 【主要元件符號說明】 (10)—— (12 )—— (13)—— (15)—— (17)—— (20)-- (211)—— (23 )—— (25)-- 右原動接桿轴 右六角形轴 小圓轴 圓孔 鋼珠 左從動接桿轴 左四肖形轴 螺絲孔 圓孔 (11) ~ 一六角形固定轴 (121)--右四角形軸 (14) 一 一環方槽 (16)—— 小彈簧 (19) 一 一四角形孔 (21) 一 一左六角形軸 (22) -— 四角形軸 (24) — —小螺絲 (26) 一 小彈簧 第11頁 201244887 外螺紋 圓穿孔 七、申請專利範圍: 卜一種具有調整扭力之接桿,主要係包括: 壓力標示件、右原動接桿轴、左從動接桿軸、右原動離 合盤、左從動離合盤、手握把管、校正定位螺絲、校正防鬆 螺絲、旋轉轴盤、壓力彈簧、小彈簧、鋼珠及小螺絲等零件 所組成。 (27)-(30)-(32)-(34)-(40)— (411)—— (43) —— (44) -- (45) —— (51 )—— (53) —— (54) -- (58)—— (61)-- (66)-- (68)—— (70)-- (72)-- (74)—— (76)—— (78)—— 鋼珠 壓力標示件 六角固定穿孔 内徑穿孔 右原動離合盤 右四角形穿孔 右圓曲面 右凹圓曲面 侧環溝 左六角形穿孔 左凹圓曲面 左凸圓曲面 壓力彈簧 校正内螺紋 旋轉軸盤 圓穿孔 校正定位螺絲 外螺紋 側環溝 驅動孔 (28)—— (31)— — (33)— — (39 )—— (41) — ~ (42) —— (431)—— (441)—— (50)—— (511)—— (531)--(541)—— (60)—— (62 )—— (67 )— 一 (69 )—— (71)—— (73)—-(75)—— (77)—— 圓孔 調壓外螺紋 側環溝 鋼珠 右六角形穿孔 位移定位溝 右凸圓曲面 右凹圓曲面 左從動離合盤 左四角形穿孔 左凹圓曲面 左凸圓曲面 手握把管 調壓内螺紋 側環溝 鋼珠 驅動孔 圓穿孔 校正防鬆螺絲 在一壓力標示件上,其轴心設為内徑穿孔及六角固定穿 孔,軸端面設測環溝《而軸面刻劃標杀外,另一端設調壓外 螺紋者《而右原動接桿軸上,一端轴心面設置四角形孔,轴 第12頁Page 10 S 201244887 Force, the external force of the rotating force source can be all output from the quadrilateral axis (22), the reaction force is equal to the rotating force source. When the external rotating force source is larger than the pressure spring (58) to press the pressure of the left and right original clutch discs (40) (50), the left and right original clutch discs (40) (50), please refer to the figure shown in the sixth figure. , the left and right concave and convex circular curved surfaces (43) (53) (44) (54) of the contact are frictionally separated, and the external force rotating force source can only output equal to the pressure spring (58) pressure is output from the quadrilateral axis (22), the reaction force It is equal to the pressure of the pressure spring (58), and the function of the torque rod can be exerted at this time. Since the torque lever is a function that can be used with any adjustment of the precise torque value, it can also be used to quickly correct the standard torque value and function as a general-purpose connector. It is really a rare invention. [Simple description of the diagram] The circle portion: The first diagram: is a perspective exploded view of the present invention. The second figure is a schematic diagram of the cooperation of the planar position profile group of the present invention. The third figure is a schematic diagram of the cooperation of the plane perspective group of the present invention. Fourth Figure: A schematic cross-section of a three-dimensional cross-section of the present invention. Fig. 5 is a schematic view showing the combination of the angular shape of the vertical section of the present invention. Fig. 6 is a schematic view showing the position of the clutch disk in the present invention. Figure 7 is a schematic view showing the position of the angular shape of the clutch disc of the present invention. Figure 8 is a schematic view showing an embodiment of the appearance of the present invention. [Explanation of main component symbols] (10)—— (12)—— (13)—— (15)—— (17)—— (20)-- (211)—— (23)—— (25)- - Right original moving rod shaft Right hexagon shaft Small round shaft Round hole steel ball Left driven rod shaft Left four Shaft shaft Screw hole (11) ~ One hexagon fixed shaft (121)--Right square shaft (14 One-to-one square groove (16) - small spring (19) one square hole (21) one left hexagonal shaft (22) - four-axis (24) - small screw (26) Spring Page 11 201244887 External thread round perforation 7. Patent scope: A pole with adjustable torque, mainly including: pressure indicator, right original rod shaft, left driven rod shaft, right original clutch disc, Left driven clutch disc, hand grip tube, correction set screw, correction lock screw, rotating shaft disc, pressure spring, small spring, steel ball and small screws. (27)-(30)-(32)-(34)-(40)-(411)—— (43) —— (44) -- (45) —— (51)—— (53) —— (54) -- (58)—— (61)-- (66)-- (68)—— (70)-- (72)-- (74)—— (76)—— (78)—— Ball Bead Pressure Marker Hexagon Fixed Perforation Inner Diameter Perforation Right Original Shift Disc Right Quadrangle Perforation Right Round Surface Right Concave Round Surface Side Ring Groove Left Hexagon Perforation Left Concave Round Surface Left Convex Curved Surface Pressure Spring Correction Internal Thread Rotating Shaft Round Perforation Correction Locating screw external thread side ring groove drive hole (28) - (31) - (33) - (39) - (41) - ~ (42) - (431) - (441) - ( 50)——(511)——(531)--(541)——(60)——(62)——(67)—一(69)——(71)——(73)—( 75)—— (77)—— Round hole pressure regulating external thread side ring groove steel ball right hexagonal perforation displacement positioning groove right convex round surface right concave circular surface left driven clutch disk left quadrilateral perforation left concave circular surface left convex curved surface Hand grip tube pressure inner thread side ring groove ball drive hole round perforation correction anti-loose screw on a pressure indicator, its axis is set Inner diameter perforation and hexagonal fixed perforation, the end face of the shaft is provided with a measuring ring groove, and the shaft surface is marked with a target, and the other end is provided with a pressure regulating external thread. On the right original moving rod shaft, one end of the axial surface is provided with a quadrangular hole, the shaft Page 12