M376386 五、新型說明: 【新型所屬之技術領域】 本創作係有關-種扭力套筒結構’尤其是-種結構不易磨損、提高使用之 安全性、及提供一固定扭力值之設計。 【先前技術】 ‘ 按,科技日新月異,許多產品以及·件的製造及組裝料機器取代人 工,大大提升了產能。儘管如此’許多零組件以及工業成品的鎖固、組合'乃 • 至於維修,由於結構以及精密度的不同,尚需倚賴不同類型手工具之輔助應用 才能完成;例如:重工業如航空、造船與轎車,其零組件須賴以板手工具施以 相當強度的扭力組裝找成就堅實賴,承受紐、動力的衝擊,而精密工業 : ㈣子機械’其零組魏不能⑽大的扭力«,才能確保其精確的運作使 用;因此’扳手工胁演著控制扭力_鍵,蓋螺鎖件在組合時,扭力的不足 或過多的扭力,都可缺螺鎖件雜或無法達成其預_賴而造成工業成品 結構上之瑕疵; 鲁-缝於此’細__致力於研勉扭力控__計,俾利使用 -者使用上此更間便精準的控制扭力;如中華民國專利證號Μ32·「扭力套筒 結構」,揭示了-種扭力套筒連接裝置,其主要係包括一座部、一一 聊观勒具—容细供控制雜設,該容蝴内具―敎段該座部 端3又有-與容置空間相連通之套設區,而座部另一端則係與頭部套設成可轉 動之結合狀態;該控制部包括一調整塊、一彈性件以及一卡制塊,該調整塊外徑 、螺紋’並可螺錢觀段,輕塊躺套設區之賴設有—膽槽,該彈性件 ,ι抵於調4與卡觀之間針概受雜件抵頂*迫抵定位該頭部;該 M376386 頭部具有-與卡制塊相對應形狀之卡制端,而頭部另—端職為套紙使用 者可配合内六角扳手等工具,由套設區穿入容细,並套設於調整槽上,藉該 調整槽可㈣難塊,⑽變彈性件針賴職供之推力,㈣制改化頭 部扭力跳脫値之功效者。 ,以防止螺鎖時施力 然而,該種習用扭力套筒結構,雖可提供設定扭力值 過度或施力不足之情況發生’但其卻有以下之三種缺失: 1'該習用扭力套構之卿與座部—端套設成可轉動之結合狀態,且 該頭部具有-與卡制塊相對應形狀之卡制端,當座部相對於該頭部轉動之力道 超過設权扭力職_,卡概與該目錢轉魏;當卡概與卡制 端相互旋轉跳脫時,卡織與卡制端相互迫抵麵合,使鞠部_對於該座 部開合轉動,造成頭部與座部結合處頻繁的_撞,長期下來,易造成頭部 與座部結構的磨損,大大耗損了產品使用週期。 、如則所4 ’當該卡觀與該卡制端旋轉跳脫時,卡制塊與卡制端相互 返抵或唾合,造成頭部與座部於結合處頻繁開合碰撞,使用者握持使用時,易 因頭部與座觸合之間所產生之空隙而夾傷手部,賴上之安全性堪慮,亦令 其實用性大打折扣。 才力〃之鎖-X度要求相當⑥的精準度,扭力值絲毫的誤差都會造成 扭力工具無法達成麵之功效’而該㈣扭力工具之扭力值奴齡使用者手 動操作調整,使用者欲調整該㈣扭力工具之扭力值時,需配合内六角板手等 工具’由套設區穿人容置空間,並套設於調整槽上,藉該調整槽可扳轉調整塊, 才可改變彈性件對卡制塊所提供之推力,而達到改化頭部扭力跳脫値之效果, 調整方式可謂相當繁3貞,當將雜紅具錢岐扭力值之二件上時,重M376386 V. New description: [New technical field] This creation is related to the design of a kind of torsion sleeve structure, especially the structure is not easy to wear, improve the safety of use, and provide a fixed torque value. [Prior Art] ‘ Press, technology is changing with each passing day, many products and parts manufacturing and assembly materials replace labor, which greatly increases production capacity. Despite this, 'many components and the locking and combination of industrial products' are repairs. Due to the different structure and precision, it is still necessary to rely on the auxiliary application of different types of hand tools; for example: heavy industry such as aviation, shipbuilding and sedan The components must rely on the wrenching tool to apply a considerable strength of torque assembly to find a solid foundation, to withstand the impact of the new, dynamic, and precision industry: (four) sub-mechanical 'its zero group can not (10) large torque «, to ensure Its precise operation and use; therefore, the 'wrench worker's threat to control the torsion _ key, the cover screw lock in combination, the lack of torque or excessive torque, can be lack of screw locks or can not achieve its pre- _ The structure of the finished product of the industry; Lu-seam in this 'fine _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ "Torque sleeve structure" reveals a kind of torsion sleeve connecting device, which mainly includes a part, a chattering device, a fine control for miscellaneous, and a squatting section of the seat 3 Further, there is a sleeve region which is connected to the accommodating space, and the other end of the seat portion is sleeved and rotatably coupled; the control portion includes an adjustment block, an elastic member and a card block. The outer diameter of the adjusting block, the thread 'can be screwed into the section, the light block lying on the set area is provided with a bile groove, the elastic part, the ι is between the adjustment 4 and the card view. *Forcibly locate the head; the M376386 head has a card-shaped end that corresponds to the shape of the card block, and the other end of the head is a set of paper users can cooperate with a tool such as an Allen wrench, and the setting area It is placed into the adjustment groove and can be set on the adjustment groove. The adjustment groove can be used to make the (4) difficult block, (10) the elastic piece to be used for the thrust of the job, and (4) to change the function of the head torsion jump. In order to prevent the force of the screw lock, however, the conventional torque sleeve structure can provide the setting of excessive torque value or insufficient force. However, it has the following three kinds of defects: 1 'The conventional torque sleeve The sill and the seat-end sleeve are set in a rotatable joint state, and the head has a card-shaped end corresponding to the shape of the card block, and when the seat portion rotates relative to the head, the force exceeds the set torque force _ The card and the target money are transferred to Wei; when the card and the card end rotate and retreat each other, the card weaving and the carding end mutually abut each other, so that the crotch part turns and rotates for the seat part, causing the head Frequent _ collision with the seat, long-term, easy to cause head and seat structure wear, greatly reducing the product life cycle. If the card view and the card end rotate and jump off, the card block and the card end return or salvate each other, causing the head and the seat to frequently open and close at the joint, the user When it is used, it is easy to pinch the hand due to the gap between the head and the seat. The safety of the hand is also considered, and its practicality is greatly reduced. The ability to lock the X-degree requires a precision of 6, the slightest error of the torque value will cause the torque tool to fail to achieve the surface effect' and the torque of the torque tool is manually adjusted by the user, the user wants to adjust When the torque value of the (4) torsion tool is used, it needs to be matched with a tool such as a hexagonal wrench. The space is worn by the sleeve and is placed on the adjustment slot. The adjustment slot can be used to adjust the elasticity. The thrust provided by the card block can achieve the effect of changing the torsion of the head. The adjustment method can be described as quite complicated. When the amount of the red and the money is two, the weight is heavy.
I M376386 % 覆鎖設以及娜扭力值易造成扭力設定值設定上之許的 • ㈣私,it紐鎖設之 工件無法正常制、,操作及個上均相當不便。 综上所述’可得知習用之扭力套筒結構,具有結構易磨損、使用上安全性 堪慮以及扭力值設定易產生誤差等缺失,於設計上仍有未填完善之處丨因此, 習用之扭力套躲構’在便雜及實雕上仍有相當的改善_,實有加 以改良的必要。 【新型内容】 籲—本創作係提供-種扭力套筒結構’以期能改善習用扭力套筒結構扭力值設 疋易產生誤差、結構上易磨損以及使用上安全性堪慮之缺失。 為達成前述目的之創作目的,本創作係包括一第一接合件—第二接合 件,及一扭力設定部,其中: 該第-接合件-端魏有-第—嵌設孔,另—端設有—定位孔,該第二接 合件之-端設有-第二嵌設孔,另一端設有一驅動孔;該第一嵌設孔及第二嵌 設孔内分職有-固定塊,制定塊—端與—跳餘連接,第—接合件及第二 Φ · 接合件之跳齒塊相互咬合; - 該扭力設定部係包括一穿桿、一鎖固件及-彈性件,該第一接合件及第二 接合件開設有-軸向貫穿定位孔ϋ設孔、@定塊、跳銳、第二嵌設孔 及驅動孔之穿孔’該穿桿穿設第—接合件及第二接合件之穿孔,且穿桿一端係 設有-與定位關定無法轉動之定位件,另—端係於驅動孔之穿孔處與該鎖固 件鎖合S]定,娜性件彈抵於第-礙設孔制定塊間; 藉由跳tel塊相互妨及與雜件相互配合,得以預設使跳餘相互旋轉跳 脫之固定扭力值。 5 本創作之第二接合件包含—彈性體 之間。 ___於第二嵌設孔與固定塊 本創作之S]定塊縣多_,而_嵌 對應該固定塊之多邊形。 及弟二嵌設孔之形狀亦為相 本創作之帛二接合件棘係設有— 環以PP _ $ σ抵頂之抵環’藉該抵 又制第二接合件相對第一接合件之結合位置。 本創作之第二接合件外部係套設一可相對第二接合件樞轉之滑套藉該滑 套供使用者持用以進行驅動作業。 β 蝴作之第-嵌設孔及第二嵌設硫徑—致,使件、固定塊及齒塊間 互制力量平均。 本創作之定位孔及定位件周緣係為多邊形。 疋故,本創作改善了習用結構諸多缺點,實是一種相當具有實用性及進步 性之創作,相當值得產.隸來推廣,並公諸練會大眾。 【實施方式】 . 本創作係錢—種扭力_結構,第_圖至第五騎示為本創作之第一 實施例,其係包括-第-接合件i,一第二接合件2,及一扭力設定部3,其 中: 該第-接合件!一端係設有一第一嵌設孔u,另一端設有一定位孔 12(第四圖),該第二接合件2之一端設有一第二嵌設孔21,另一端設有一驅 動孔22 ;該第-嵌設孔n及第二嵌設孔21内分別設有一呈多邊形之固定塊 6 1./0386 . 13 23(本實施例係為四邊形),該第一嵌設孔11及第二嵌設孔21之形狀亦墓 現為與固定塊13、23相對應之形狀,使固定塊13、23能緊密卡固於第一嵌設 孔11及第二嵌設孔21中無法轉動;固定塊13、23 —端與一跳齒塊14、24 、、·。σ ’第一接合件1及第二接合件2之跳齒塊μ ' 24相互咬合; 如第-圖圖式所示,該第一接合件!及第二接合件2係為管狀,該第一 接〇件1端向内凹設有該第一嵌設孔11,該第一嵌設孔η内嵌設有該固定 塊13及跳齒塊14,該跳齒塊14底端與固定塊13連接,該跳齒塊14之齒面 • 朝向端口’而第四、五圖係揭示,第一接合件1之另-端設有-定位孔12, 該疋位孔12係呈多邊形(本創作為四邊形); 該第二接合件2—端亦向内凹設有該第二嵌設孔2卜該第二喪設孔21内 嵌《又有固疋塊23及跳齒塊24,跳齒塊24之跳齒面朝向端口,使其得以與第 -接合件1之跳齒塊14相互咬合,又,第二接合件2端部係設有一與第一接 合件1接觸抵頂之抵環26,該抵環26抵頂於第一嵌設孔u之端口,藉該抵 環26以限制第二接合件2相對第—接合件丨之結合位置,並藉由第二接合件 · 2與第一接合件1之結合,形成—可供固定塊13、23及跳齒塊14、24活動之 _空間;此外,該第二接合件2外部絲設—可相對第二接合件2樞轉之滑套 27 ’藉該滑套27供使用者持用以進行驅動作業; 該扭力設定部3係包括-穿桿31…彈性件33及一鎖固件35,該第一接 合件1及第二接合件2 設有-轴向貫穿定位孔12底部、第一嵌設孔!卜固 定塊、23、跳齒塊14、24、第二纽孔21及驅動孔22之穿孔15(如第一、 四、玉圖所示);該穿孔15之孔徑小於定位孔12及驅動孔22 ;此外,請參照 第-、四及五圖圖式所示,該穿桿31係為棒狀,且穿設過該貫穿第一接合件 7 1及第二接合件2之穿孔15,穿桿31 —猶設有一與定位孔12固定無法轉動 之定位件32 ’該定位件32周緣係為與定位孔12相對應之多邊形(本實施例為 四邊形)’使定讀32得以卡固於定減12内無法轉動;前桿31另一端貫 穿於該驅動孔22之底部並以該顧件35緊韻綱定;如第四圖所示,該穿 才于31透麟穿孔15 ’穿設過該雜件33,使娜性件⑽於第—接合件丄中 彈抵於第-嵌設孔n之底部及固定塊13之間,該第一嵌設孔^與第二嵌設 孔21之孔徑相同,使彈性件33、固定塊13、23及跳齒塊14、24礙設於圍合 之空間内,當調整穿桿31使其相對鎖固件35位移而使彈性件33受到迫抵時, 彈! 生件33推迫跳齒塊14、24及固定塊13、23,使跳齒塊14、24及固定塊13、 23在圍合之空間内移動;此外,藉由跳齒塊14、%相互响合及與彈性件劭 之配合’得以提供—適當扭力跳脫值(前述姻穿桿31調整跳齒塊14、24 相互I抵之力道係於本創作域前為之本鑛歧時,該穿桿3丨端部係 ”鎖口件35鎖σ m定,时本創作可提供—適當之固定扭力職值,讓使用 者對需求固定、精準扭力值之螺鎖件進行鶴時,使时只要直接以本創作對 螺鎖件進行套設驅_可,故不會發生如習躲_反覆職而造成扭力值誤 差之狀況);細者_設時賴直製取姆觸齡所需之扭力值之扭力 套同即可使用。當鎖設力道超過設定之扭力值時,如第五圖所揭示,第一接合 牛之跳齒塊14即相對第二接合件2之跳齒塊24於第一接合件土及第二接合 件2内跳脫,以警示驅動扭力值已達預設之程度,跳齒塊14相對跳齒塊24 旋轉跳脫於圍合空間内,因此,第—接合件!及第二接合件2不因跳齒㈣、 24之迫抵或唾合而開合碰撞或產生空隙;而當驅動孔22自螺鎖件或工具相對 技出時’則第-接合件!及第二接合件2回復至預設扭力狀態,職塊Μ以 M376386 及跳齒塊24恢復至相互咬合之狀態,俾利使用者再度使用,無須重新調整扭 力值,而當欲將螺鎖件旋鬆時,由於旋鬆之力道不會超越鎖緊之扭力值,因此 吏用者僅/頁將驅動孔22與螺鎖件套合,以相反於施力方向旋動即可使螺鎖件 鬆脫,使用操作上相當簡便。 而第六圖至第十圖為本創作之第二實施例,其中主要元件與第一實施例相 同者,諒此不再贅述,如下僅就不同結構敘述之。 • ;本創作之第一貫把例中,該第二嵌設孔21包令^一彈性體34,該彈性體 • 34彈抵於第二嵌設孔21之底部與固定塊23之間,當調整穿桿Μ使其相對鎖 固件35位移而使彈性件33受到迫抵時,跳齒塊14、%分別於第一嵌設孔^ 及第一後6又孔21所圍合之空間中移動,跳齒塊14、24受到彈性件泊及彈性 體34之推抵’使跳齒塊14、24間互制力量平均;此外,藉由該第一接合件】 及第二接合件2内皆設有雑件33及彈性體34,而得贿供—較廣之扭力值 祀圍,具有相當高的實用性。本創作可配合各式不同驅動工具使用,如第九、 十圖分別揭示本創作與-棘輪扳手4(第九圖)以及與一氣動工具5(第十圖)結 ^ . 合使用之示意圖。 — 藉由上述之描述,可得知本創作之結構具有下列之優點: 1、該跳齒塊14、24係與固定塊13、23結合,分別嵌設於第一接合件i 及第二接合件2内,藉由該第二接合件2與第—接合件丨之結合,形成一可供 固疋塊13 23跳齒塊14、24及彈性件33或彈性件33與彈性趙34前述二 者之組合活動之空間,當鎖設力道超過預設之扭力值時,跳齒塊Μ、Μ於該 空間内相互旋轉跳脫(如第五、八圖所示),第一接合件i及第二接合件2不因 跳齒塊、24間之迫抵或唾合_動開合而相互產生碰撞,因此第一接合件 9 M376386 1及第二接合件2於結構上不會造成磨損,使本創作可長期持續使用而不損壞。 2、此外,當使用者握持驅動本創作之扭力套筒結構時,由於該第一接 合件1及第一接合件2不因跳齒塊14、24間之相互迫抵或喝合而開合碰撞, 因此即便跳齒塊14、24相互旋轉跳脫,第一接合件1及第二接合件2間仍緊 密結合,不因跳齒塊旋跳而產生開合空隙,俾利使用者握持,提升使用上之安 全性。 3、該鎖固件35於驅動孔22底部鎖設於穿桿31 —端,提供本創作一固 定扭力值’俾利使用者可直接視螺鎖件所需而選擇相對應扭力值之扭力套筒, 無須於每次個時重新罐設餘力套狀扭力值,亦免除由手動調整設定扭 力值而造肋力值之誤差的驗,雜仙時扭力值之解度亦制使用者快 速作業。 由上所述者僅為用以轉本創作之較佳實施例,並非企圖據以對本創作做 任何形式上之限制,是以,凡有在相同之創作精神下所做有關本創作之任何修 飾或變更者,皆仍航括在本創作意_護之鱗内。 Τ上所述本創作扭力套筒結構」在結構設計、使用實用性及成本效益 上,確實是完全符合產f上發展㈣,且關露之結_作亦是具有前所未有 的創新構造,所以其具有「新穎性」應無疑慮,又本創作可較之習知結構更且 雜之增進,_具有「進步性」,其_____專利之 申请要件的規疋,乃依法提起專利申請,並敬請鈞局早日審查,並給予肯定。 【圖式簡單說明】 第一圖係本_扭力套騎構各部树之立齡解示意圖。 第二圖係本創作扭力套騎構跳贱另-勘示意圖。 第三圖係本創作扭力套騎構立料觀示意圖。 第四圖本創作扭力套筒結構跳齒塊相互唾合示意圖。 第五圖係本創作扭力套筒結構職塊超過扭力設定值之跳餘態示意圖。 第/、圖係本創作第二貫施例各部元件之立體分解圖。 第七圖係本創作第三實施例跳齒塊相互唾合示意圖。 第八圖穌創作第二實酬麵塊超過扭力奴值之跳脫狀態示意圖。 第九圖係本創作扭力套筒結構浦雛手結合顧示意圖。 第十圖係本創作扭力套筒結構與氣動工具結合使用示意圖。 【主要元件符號說明】 1第一接合件 11第一嵌設孔 12定位孔 13固定塊 14跳齒塊 15穿孔 2第二接合件 21第二嵌設孔 22驅動孔 23固定塊 24跳齒塊 26抵環 27滑套 3扭力設定部 31穿桿 32定位件 33彈性件 5氣動工具 Μ彈性體 35鎖固件 4棘輪扳手I M376386 % The lock and the value of the torque are easy to cause the setting of the torque setting. (4) Private, the workpiece of the button is not normal, and the operation and the operation are quite inconvenient. In summary, the structure of the torsion sleeve can be known, and the structure is easy to wear, the safety of use is negligible, and the torque value setting is easy to produce errors, etc., and there are still some unfilled designs in the design. The torsion sleeve hides 'there is still considerable improvement in the mess and solid carving _, which is necessary to improve. [New Content] 吁—This creation provides a torsion sleeve structure' to improve the torque value of the conventional torsion sleeve structure. It is easy to produce errors, structurally easy to wear and the safety of use. For the purpose of achieving the above purpose, the present invention includes a first engaging member-second engaging member, and a torque setting portion, wherein: the first engaging member-end Wei-first-embedded hole, the other end a positioning hole is provided, the second engaging member has a second embedded hole at the end, and a driving hole is disposed at the other end; the first embedded hole and the second embedded hole are divided into a fixed block. Forming a block-end and a skip connection, the first-joining member and the second Φ-jointing member are engaged with each other; - the torque setting portion includes a wearing rod, a locking member and an elastic member, the first The engaging member and the second engaging member are provided with a through hole extending through the positioning hole, a hole, a sharp hole, a second insertion hole and a through hole of the driving hole. The threading rod penetrates the first engaging member and the second engaging portion The perforation of the piece, and one end of the rod is provided with a positioning member that cannot be rotated with the positioning, and the other end is tied to the locking hole of the driving hole and the locking member is locked. Blocking the holes to make blocks; by jumping the tel blocks and interacting with the miscellaneous pieces, it is possible to preset the jumps to rotate each other. Torque value. 5 The second joint of the creation consists of - between the elastomers. ___ in the second embedded hole and the fixed block. The S] block of the creation is more than _, and _ embedded corresponds to the polygon of the fixed block. The shape of the second embedded hole is also provided by the two-piece joint spine of the original creation - the ring is abutting the ring with PP _ $ σ, and the second joint is combined with the first joint by the same position. The second engaging member of the present invention is provided with a sliding sleeve pivotable relative to the second engaging member for the user to hold the sliding sleeve. The first-embedded hole of the beta butterfly and the second embedded sulfur diameter are such that the mutual force between the piece, the fixed block and the tooth block is averaged. The positioning hole of the present creation and the periphery of the positioning member are polygonal. Therefore, this creation has improved many shortcomings of the conventional structure. It is a kind of practical and progressive creation, which is quite worthy of production. It has been promoted and publicized. [Embodiment] The present invention is a money-type torsion_structure, and the first to fifth rides are the first embodiment of the creation, which includes a -th joint member i, a second joint member 2, and A torque setting unit 3, wherein: the first engaging member! One end is provided with a first insertion hole u, and the other end is provided with a positioning hole 12 (fourth figure). One end of the second joint member 2 is provided with a second insertion hole 21, and the other end is provided with a driving hole 22; Each of the first embedded hole n and the second embedded hole 21 is provided with a polygonal fixing block 6 1./0386. 13 23 (this embodiment is a quadrangle), the first embedded hole 11 and the second embedded hole The shape of the hole 21 is also a shape corresponding to the fixing blocks 13 and 23, so that the fixing blocks 13 and 23 can be tightly locked in the first insertion hole 11 and the second insertion hole 21; 13, 23 - end and one jump block 14, 24, , ·. σ 'The first engaging member 1 and the second engaging member 2's skip block μ' 24 are engaged with each other; as shown in the first figure, the first engaging member! And the second engaging member 2 is tubular, and the first engaging hole 1 is recessed inwardly with the first embedded hole 11 , and the fixing block 13 and the protruding block are embedded in the first embedded hole n 14. The bottom end of the jumper block 14 is connected to the fixed block 13. The tooth surface of the jumper block 14 is facing the port. The fourth and fifth figures reveal that the other end of the first engaging member 1 is provided with a positioning hole. 12, the clamping hole 12 is polygonal (this is a quadrilateral shape); the second engaging member 2 - end is also concavely disposed with the second embedded hole 2 and the second recessed hole 21 is embedded There is a solid block 23 and a jumper block 24, and the jump tooth surface of the jumper block 24 faces the port so as to be engaged with the jumper block 14 of the first engaging member 1, and the end of the second engaging member 2 is fastened. There is an abutment ring 26 which is in contact with the first engaging member 1 and abuts against the port of the first insertion hole u. The ring 26 is used to limit the second engaging member 2 relative to the first engaging member. Combining the position, and by combining the second engaging member 2 with the first engaging member 1, forming a space for the fixing blocks 13, 23 and the jumping block 14, 24 to move; in addition, the second engaging member 2 External wire set - The sliding sleeve 27' pivoted relative to the second engaging member 2 is held by the user for driving operation; the torque setting portion 3 includes a wearing rod 31, an elastic member 33 and a locking member 35. The first engaging member 1 and the second engaging member 2 are disposed to axially penetrate the bottom of the positioning hole 12 and the first embedded hole! a fixing block, 23, a jumper block 14, 24, a second buttonhole 21 and a through hole 15 of the driving hole 22 (as shown in the first, fourth, and jade figures); the hole 15 has a smaller aperture than the positioning hole 12 and the driving hole 22; in addition, as shown in the drawings of the first, fourth and fifth figures, the wearing rod 31 is in the form of a rod, and the perforation 15 penetrating through the first engaging member 7 1 and the second engaging member 2 is worn through The rod 31 is provided with a positioning member 32 that is fixed to the positioning hole 12 and cannot be rotated. The circumference of the positioning member 32 is a polygon corresponding to the positioning hole 12 (the quadrilateral in this embodiment), so that the fixed reading 32 is fixed. The other end of the front rod 31 cannot be rotated; the other end of the front rod 31 penetrates through the bottom of the driving hole 22 and is fixed with the condition of the workpiece 35; as shown in the fourth figure, the wearing is performed through the 31 through hole perforation 15' The miscellaneous member 33 causes the elemental member (10) to be elastically engaged between the bottom of the first-embedded hole n and the fixed block 13 in the first engaging member, and the first embedded hole and the second embedded hole 21 The apertures are the same, so that the elastic member 33, the fixing blocks 13, 23 and the jumper blocks 14, 24 are disposed in the enclosed space, and the elastic member is adjusted when the wear rod 31 is adjusted to be displaced relative to the fastener 35. When the 33 is forced to hit, the bullets 33 push the jumper blocks 14, 24 and the fixed blocks 13, 23 to move the jumper blocks 14, 24 and the fixed blocks 13, 23 in the enclosed space; Appropriate torsion jump value is provided by the jumper block 14 and the % mutual engagement and the engagement with the elastic member ( (the aforementioned lashing rod 31 adjusts the force of the jumper blocks 14 and 24 to each other in front of the creative field For the sake of the mine, the 3 丨 end of the wearing rod is locked by the locking member 35, and the creation can provide a suitable fixed torque value, so that the user can fix the screw with a fixed torque. When the lock is carried out, it is only necessary to directly install the screw lock with this creation. Therefore, there is no such situation as the error of the torque value caused by the _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ The torsion sleeve for obtaining the torque value required for the age of the ear can be used. When the locking force exceeds the set torque value, as disclosed in the fifth figure, the first engaging cow's jumper block 14 is relatively second engaged. The jumper block 24 of the member 2 is tripped in the first joint member soil and the second joint member 2 to warn that the driving torque value has reached a preset level. The jumper block 14 rotates and disengages from the jumper block 24 in the enclosed space. Therefore, the first engaging member and the second engaging member 2 are not opened or closed by the jumping teeth (four), 24, or the saliva. a gap; and when the drive hole 22 is relatively self-contained from the screw or the tool, the first engagement member and the second engagement member 2 are returned to the preset torque state, and the member block is restored to each other with the M376386 and the jumper block 24. In the state of occlusion, the user can use it again without re-adjusting the torque value. When the screw lock is to be loosened, the force of the unscrewing will not exceed the torque value of the lock, so the user will only/page The driving hole 22 is sleeved with the screw lock member, and the screw lock member can be loosened by rotating in the opposite direction to the biasing direction, and the operation is quite simple. The sixth embodiment to the tenth embodiment are the second embodiment of the present invention, wherein the main components are the same as those of the first embodiment, and will not be described again, and only the different structures will be described below. In the first example of the present invention, the second insertion hole 21 encloses an elastic body 34 that is elastically engaged between the bottom of the second insertion hole 21 and the fixed block 23, When the wear rod is adjusted to be displaced relative to the fastener 35 to urge the elastic member 33, the jumper block 14 and % are respectively in the space enclosed by the first embedded hole ^ and the first rear 6 hole 21 Moving, the jumper blocks 14, 24 are subjected to the elastic member and the elastic body 34 to push the average force between the jumper blocks 14, 24; in addition, by the first joint member and the second joint member 2 Both the shackle 33 and the elastic body 34 are provided, and the bribe is provided - a wide range of torque values, and has a relatively high practicality. This creation can be used with a variety of different driving tools. For example, the ninth and tenth drawings respectively show the schematic diagram of the creation and the ratchet wrench 4 (the ninth diagram) and the pneumatic tool 5 (the tenth diagram). - By the above description, it can be known that the structure of the present invention has the following advantages: 1. The jumper blocks 14, 24 are combined with the fixed blocks 13, 23, respectively embedded in the first joint member i and the second joint In the piece 2, by the combination of the second engaging member 2 and the first engaging member ,, a retaining block 13 23 jumper block 14, 24 and an elastic member 33 or an elastic member 33 and an elastic Zhao 34 are formed. The space of the combined activity, when the locking force exceeds the preset torque value, the jumper blocks and the cymbals rotate and diverge in the space (as shown in the fifth and eighth figures), the first engaging member i and The second engaging member 2 does not collide with each other due to the jumping block, the pressing force of the 24 or the sliding joint, so that the first engaging member 9 M376386 1 and the second engaging member 2 are not structurally worn. This creation can be used continuously for a long time without damage. 2. In addition, when the user holds the torsion sleeve structure driving the creation, the first engagement member 1 and the first engagement member 2 are not opened by the mutual engagement or engagement between the jumper blocks 14, 24. Colliding, so even if the jumper blocks 14, 24 are mutually rotated and disengaged, the first joint member 1 and the second joint member 2 are tightly coupled, and the opening and closing gaps are not generated due to the jumper block jump, so that the user can grip Hold and improve the security of use. 3. The locking member 35 is locked at the bottom of the driving hole 22 at the bottom of the driving rod 22, and provides a fixed torque value of the present invention. The torque sleeve can be selected by the user to directly select the corresponding torque value. It is not necessary to re-set the residual torque value at each time, and also eliminate the error of the rib force value by manually adjusting the set torque value. The solution of the torque value of the miscellaneous is also made for the user to work quickly. The above description is only a preferred embodiment for the purpose of transferring the original creation, and is not intended to impose any formal restrictions on the creation, so that any modification related to the creation in the same creative spirit is made. Or the changers are still included in the scale of this creative meaning. In terms of structural design, practicality and cost-effectiveness, the design of the torsion sleeve structure is completely in line with the development of production (4), and the knot of the closure is also an unprecedented innovative structure, so its "Newty" should be undoubtedly considered, and this creation can be more and more complicated than the conventional structure. _ has "progressiveness", and the s____ patent application requirements are legally filed according to law. Please check with the bureau for an early review and give it affirmation. [Simple description of the diagram] The first picture is a schematic diagram of the aging of the tree of each part of the _ torsion sleeve. The second picture is a schematic diagram of the creation of the torsion sleeve riding structure flea. The third picture is a schematic view of the design of the torsion sleeve riding structure. The fourth figure is a schematic diagram of the mutual engagement of the torsion sleeve structure of the torsion sleeve structure. The fifth figure is a schematic diagram of the jumping state of the torsion force set value of the created torque sleeve structure. The / / figure is a three-dimensional exploded view of the components of the second embodiment of the creation. The seventh figure is a schematic diagram of the salivation blocks of the third embodiment of the present invention. The eighth picture shows the state of the second real paying face over the state of the torsion slave. The ninth figure is a schematic diagram of the combination of the prototype of the torsion sleeve structure of the present. The tenth figure is a schematic diagram of the combination of the torsion sleeve structure and the pneumatic tool. [Main component symbol description] 1 first joint member 11 first insertion hole 12 positioning hole 13 fixing block 14 jumper block 15 perforation 2 second joint member 21 second insert hole 22 drive hole 23 fixed block 24 jump block 26 resisting ring 27 sliding sleeve 3 torque setting portion 31 wearing rod 32 positioning member 33 elastic member 5 pneumatic tool Μ elastic body 35 locking member 4 ratchet wrench