TWI701111B - Torsion structure - Google Patents

Abstract

本發明係關於一種扭力結構，其係包括：一第一本體係設有一容置槽、一第一穿槽及一第一環槽；一第二本體組係與該第一本體相套設，該第一本體轉動，使該第二本體組以自己為軸心轉動時，該第二本體組係具有扭力跳脫功效；一控制組係可作動至一鎖固位置及一非鎖固位置，該控制組位於該鎖固位置時，該第一本體與該第二本體組間係呈不轉動狀，該第一本體轉動而轉動該第二本體組，該控制組位於非鎖固位置時，該第一本體與該第二本體組係呈轉動狀；一調整件係容設於該容置槽內，該調整件位移時係可調整該第二本體組之扭力。 The present invention relates to a torsion structure, which includes: a first system provided with an accommodating groove, a first through groove, and a first ring groove; a second body set is nested with the first body, When the first body rotates and the second body group rotates on its own axis, the second body group has a torsion release function; a control group can be moved to a locked position and a non-locked position, When the control group is in the locked position, the first body and the second body group are in a non-rotating state, the first body rotates to rotate the second body group, and when the control group is in the unlocked position, The first body and the second body set are in a rotating shape; an adjusting member is accommodated in the accommodating groove, and the torsion force of the second body set can be adjusted when the adjusting member is displaced.

Description

扭力結構 Torsion structure

本發明係與一扭力結構有關，尤指一種扭力結構中，該第一本體轉動，使該第二本體組以自己為軸心受該第一本體轉動而轉動時，該第二本體組係具有扭力跳脫功效，該控制組係可作動至一鎖固位置及一非鎖固位置以控制該第一本體相對該第二本體組呈不轉動狀或轉動狀，轉動該第一本體，該第一本體係帶動該調整件轉動且位移即可調整該第二本體組之扭力。 The present invention is related to a torsion structure, especially a torsion structure in which the first body rotates so that when the second body group is rotated by the first body about its axis, the second body group has With torque release function, the control group can be moved to a locked position and a non-locked position to control the first body to be non-rotating or rotating relative to the second body group, rotating the first body, the first body A system drives the adjusting member to rotate and move to adjust the torque of the second body set.

按吾人先前所知，習用之扭力結構，如美國專利案號：2733622，其結構係包括：一本體10，該本體10係包括一作用端12及一桿體16；該作用端12內係設有一第一容槽20，該第一容槽20係呈圓槽狀，該作用端12一端係設有一螺紋部30，該螺紋部30與該第一容槽20係呈相通狀，該螺紋部30係呈內螺紋狀，該作用端12另端係設有一穿槽56，該穿槽56與該第一容槽20係呈相通狀，該第一容槽20係設於該螺紋部30與該穿槽56間，該穿槽56與該螺紋部30係呈相對正且相遠離狀，該穿槽56與該第一容槽20及該螺紋部30之軸心皆係位於同一線上，該穿槽56係呈貫穿之圓槽狀；該桿體16係呈圓桿體狀；一轉動件50，該轉動件50係螺合於該螺紋部30處，該轉動件 50一端係設有一轉動部34，該轉動部34係凸露於該作用端12外以供轉動，使該轉動件50於該螺紋部30處轉動位移，該轉動件50另端係設有一套合部72，該套合部72係與該第一容槽20呈相通狀，該套合部72係與該穿槽56呈相對正，該套合部72之開口係與該轉動部34相遠離，該轉動件50係呈外螺紋狀；一驅動桿70，該驅動桿70係穿設及樞設於該第一容槽20及該穿槽56處，該驅動桿70一端係設有一驅動部64，該驅動部64係凸露於該穿槽56外，該驅動部64係呈四角頭狀，該驅動桿70另端係套合於該套合部72處；一第一卡制件80，該第一卡制件80係固設於該第一容槽20處，由第3圖所示，該第一卡制件80應係與該本體10為一體成型結構，該第一卡制件80軸心處係設有一第一組設部，該第一組設部係與該穿槽56相對正，該第一組設部係供該驅動桿70相樞設，該第一組設部係呈圓穿孔狀，該第一卡制件80端部處係設有第一咬合部86，該第一咬合部86係呈環狀排列齒狀；一第二卡制件90，該第二卡制件90係套合於該驅動桿70上，該第二卡制件90被驅動而帶動該驅動桿70轉動，該第二卡制件90係設有一第二組設部92，該第二組設部92係與該第一組設部相對正，該第二組設部92係供該驅動桿70相套設，該第二組設部92係呈非圓穿孔狀，該第二組設部92應係為四角槽狀，該第二卡制件90一端部處係設有第二咬合部88，該第二咬合部88係呈環狀排列齒狀，該第二咬合部88係與該第一咬合部86相囓合； 一彈性元件96，該彈性元件96一端係彈抵於該第二卡制件90上；一彈抵片98，該彈抵片98一端係抵於該轉動件50上，該彈抵片98另端係與該彈性元件96相靠抵，該彈性元件96係彈抵於該第二卡制件90與該彈抵片98間；一蓋體24，該蓋體24係蓋合於該本體10之該第一容槽20開口處，使該第一容槽20呈封閉狀，該轉動件50之該轉動部34係凸露於該蓋體24外，且由第3圖所示該螺紋部30應係設於該蓋體24處，該蓋體24係呈圓體狀。 According to what I have previously known, the conventional torsion structure, such as US Patent No. 2,733,622, includes a body 10 that includes an acting end 12 and a rod 16; the acting end 12 is internally tied There is a first accommodating groove 20, the first accommodating groove 20 is in the shape of a circular groove, and one end of the acting end 12 is provided with a threaded portion 30 which communicates with the first accommodating groove 20. The threaded portion 30 is in the shape of an internal thread. The other end of the acting end 12 is provided with a through groove 56 which communicates with the first groove 20. The first groove 20 is arranged on the threaded portion 30 and Between the piercing grooves 56, the piercing groove 56 and the threaded portion 30 are relatively positive and spaced apart, and the piercing groove 56 is on the same line as the axis of the first receiving groove 20 and the threaded portion 30. The through groove 56 is in the shape of a circular groove that penetrates; the rod body 16 is in the shape of a round rod; a rotating member 50 is screwed on the threaded portion 30, and the rotating member One end of 50 is provided with a rotating part 34, and the rotating part 34 is protruding out of the acting end 12 for rotation, so that the rotating part 50 is rotated and displaced at the threaded part 30, and the other end of the rotating part 50 is provided with a set The fitting portion 72, the fitting portion 72 is in communication with the first receiving groove 20, the fitting portion 72 is aligned with the through slot 56, and the opening of the fitting portion 72 is aligned with the rotating portion 34 Far away, the rotating member 50 is in the shape of an external thread; a driving rod 70, the driving rod 70 is penetrated and pivoted at the first receiving groove 20 and the through groove 56, one end of the driving rod 70 is provided with a driving The driving part 64 is protruding out of the through slot 56, the driving part 64 is in the shape of a square head, the other end of the driving rod 70 is sleeved at the sleeve part 72; a first clamping part 80. The first clamping member 80 is fixedly arranged at the first receiving groove 20. As shown in FIG. 3, the first clamping member 80 should be an integral structure with the body 10, and the first clamping member 80 The shaft center of the workpiece 80 is provided with a first assembly portion, the first assembly portion is aligned with the through slot 56, the first assembly portion is for the driving rod 70 to pivot, the first assembly The setting portion is in the shape of a circular perforation. The end of the first clamping member 80 is provided with a first engaging portion 86, and the first engaging portion 86 is in the shape of a ring-shaped arrangement of teeth; a second clamping member 90, the The second clamping member 90 is sleeved on the driving rod 70, the second clamping member 90 is driven to drive the driving rod 70 to rotate, and the second clamping member 90 is provided with a second assembly portion 92, The second assembling portion 92 is opposite to the first assembling portion, the second assembling portion 92 is for the driving rod 70 to be sleeved, and the second assembling portion 92 is in the shape of a non-circular perforation. The second assembly portion 92 should be in the shape of a four-corner groove, and a second engaging portion 88 is provided at one end of the second clamping member 90. The second engaging portion 88 is in the shape of a ring-shaped arrangement of teeth. The portion 88 is engaged with the first engaging portion 86; An elastic element 96, one end of the elastic element 96 elastically abuts on the second clamping member 90; an elastic piece 98, one end of the elastic element 98 is attached to the rotating member 50, and the other elastic element 98 The end is abutted against the elastic element 96, the elastic element 96 elastically abuts between the second clamping member 90 and the elastic piece 98; a cover body 24, the cover body 24 is closed to the main body 10 The opening of the first accommodating groove 20 makes the first accommodating groove 20 in a closed shape, the rotating part 34 of the rotating member 50 is protruding out of the cover 24, and the threaded part is shown in Figure 3 30 should be attached to the cover 24, and the cover 24 is round.

但此習用扭力結構之缺失係在於： But the shortcomings of this conventional torsion structure are:

1、該本體10、該第一卡制件80與該第二卡制件90之間係僅具扭力跳脫之功效。 1. The main body 10, the first clamping member 80 and the second clamping member 90 only have the function of torsion release.

2、請輔以專利公報之圖3所示，該第一卡制件80與該本體10係為一體成型之結構，當欲組裝時，係得先將該驅動桿70依序穿設於該穿槽56、該第一卡制件80之該第一組設部、該第一容槽20及該螺紋部30處，再依序將該第二卡制件90、該彈性元件96及該彈抵片96套合於該驅動桿70上，最後將該轉動件50螺合於該螺紋部30處，並使該轉動件50之該套合部72與該驅動桿70相套合，一般而言若係為較大規格如四分之扭力接頭結構，該驅動桿70、該第二卡制件90、該彈性元件96及該彈抵片96係呈較大狀而較易依序組設於該第一容槽20內，但若規格係較小，如二分規格或如接桿規格時，該第一容槽20之體積並不大，該驅動桿70、該第二卡制件90、該彈性元件96及該彈抵片96亦係為較小狀，先將該驅動桿70穿設於該第一容槽20內 後，再將每一元件依序套合於該驅動桿70上係需花費較多組裝時間，係為不易組裝。 2. As shown in Figure 3 of the Patent Gazette, the first clamping member 80 and the main body 10 are formed as an integral structure. When assembling, the driving rod 70 must be inserted in the Through the slot 56, the first assembly portion of the first clamping member 80, the first receiving groove 20 and the threaded portion 30, and then the second clamping member 90, the elastic element 96 and the The resilient piece 96 is sleeved on the driving rod 70, and finally the rotating member 50 is screwed to the threaded portion 30, and the sleeve 72 of the rotating member 50 is fitted with the driving rod 70, generally In terms of a larger specification, such as a quarter-torque joint structure, the drive rod 70, the second clamping member 90, the elastic element 96 and the elastic piece 96 are larger and easier to be assembled in sequence. It is set in the first container 20, but if the specification is small, such as a two-part specification or a post specification, the volume of the first container 20 is not large, the driving rod 70, the second clamping member 90. The elastic element 96 and the elastic contact piece 96 are also small, and the driving rod 70 is first inserted into the first receiving groove 20 Afterwards, it takes a lot of assembly time to sequentially fit each component on the driving rod 70, which is not easy to assemble.

3、該本體10係一體成型該第一卡制件80，且該第一卡制件80係需設有環狀排列之該第一咬合部86，該本體10係不易成型，該本體10係有較大之成本。 3. The main body 10 is integrally formed with the first clamping member 80, and the first clamping member 80 needs to be provided with the first engaging portions 86 arranged in a ring shape. The main body 10 is not easy to form, and the main body 10 is There is a larger cost.

有鑑於上述習用結構之缺失，本發明人藉多年從事相關行業之製造、生產及設計經驗，終於有一能解決習用弊端之扭力結構之產品問世。 In view of the above-mentioned shortcomings of the conventional structure, the present inventor has finally produced a product with a torsion structure that can solve the drawbacks of the conventional structure through years of experience in manufacturing, production and design in related industries.

習用扭力結構中，該本體、該第一卡制件與該第二卡制件之間係僅具扭力跳脫之功效。本發明之扭力結構中，該第一本體轉動，使該第二本體組以自己為軸心受該第一本體轉動而轉動時，該第二本體組係具有扭力跳脫功效，該控制組係可作動至一鎖固位置及一非鎖固位置以控制該第一本體相對該第二本體組呈不轉動狀或轉動狀，轉動該第一本體，使該第一本體相對該第二本體組旋轉且位移時，該第一本體係同時帶動該調整件轉動且位移即可調整該第二本體組之整體扭力。 In the conventional torsion structure, the body, the first clamping member and the second clamping member only have the effect of torsion release. In the torsion structure of the present invention, when the first body rotates so that the second body group is rotated by the rotation of the first body about itself as an axis, the second body group has a torsion release function, and the control group is It can be moved to a locked position and a non-locked position to control the first body to be non-rotating or rotating relative to the second body set, and to rotate the first body so that the first body is relative to the second body set When rotating and displacing, the first system simultaneously drives the adjusting member to rotate and displace to adjust the overall torque of the second body set.

本發明係關於一種扭力結構，其係包括：一第一本體係設有一容置槽、一第一穿槽及一第一環槽；一第二本體組係與該第一本體相套設，該第一本體轉動，使該第二本體組以自己為軸心轉動時，該第二本體組係具有扭力跳脫功效；一控制組係可作動至一鎖 固位置及一非鎖固位置，該控制組位於該鎖固位置時，該第一本體與該第二本體組間係呈不轉動狀，該第一本體轉動而轉動該第二本體組，該控制組位於非鎖固位置時，該第一本體與該第二本體組係呈轉動狀；一調整件係容設於該容置槽內，該調整件位移時係可調整該第二本體組之扭力。 The present invention relates to a torsion structure, which includes: a first system provided with an accommodating groove, a first through groove, and a first ring groove; a second body set is nested with the first body, When the first body rotates so that the second body group rotates on its own axis, the second body group has a torque release function; a control group can be actuated to a lock Fixed position and a non-locked position. When the control group is in the locked position, the first body and the second body group are in a non-rotating shape, the first body rotates to rotate the second body group, the When the control group is in the non-locking position, the first body and the second body group are rotating; an adjusting member is accommodated in the accommodating groove, and the second body group can be adjusted when the adjusting member is displaced The torque.

該第一本體轉動，使該第二本體組以自己為軸心受該第一本體轉動時，該第二本體組係具有扭力跳脫功效，該控制組係可作動至一鎖固位置及一非鎖固位置以控制該第一本體相對該第二本體組呈不轉動狀或轉動狀，該控制組位於該鎖固位置時，該第一本體及該第二本體組之間係因該控制組之限制，該第一本體與該第二本體組之間係呈不轉動狀，該第一本體轉動而轉動該第二本體組，該控制組位於非鎖固位置時，該第一本體與該第二本體組之間係呈轉動狀，轉動該第一本體，使該第一本體相對該第二本體組旋轉且位移時，該第一本體係同時帶動該調整件轉動且位移，該調整件轉動及位移時即可調整該第二本體組之整體扭力。 When the first body rotates so that the second body group is rotated by the first body about its axis, the second body group has a torsion release function, and the control group can be moved to a locked position and a The non-locking position controls the first body to be non-rotating or rotating relative to the second body group. When the control group is in the locked position, the control is between the first body and the second body group. The restriction of the group is that the first body and the second body group are in a non-rotating state, the first body rotates to rotate the second body group, and when the control group is in the unlocked position, the first body and the The second body group is in a rotating shape. When the first body is rotated to make the first body rotate and displace relative to the second body group, the first system simultaneously drives the adjustment member to rotate and displace, and the adjustment The overall torque of the second body group can be adjusted when the parts rotate and move.

為使 鈞局委員及熟習此項技藝人士對本發明之功效完全瞭解，茲配合圖式及圖號就本發明之結構、組成說明於後，惟以下所述者僅為用來解釋本發明之實施例，並非企圖據以對本發明做任何形式上之限制，是以凡是在本發明之精神下，所作的任何修飾變更皆仍應屬於本發明之保護範圍。 In order to enable the members of the Jun Council and those familiar with the art to fully understand the effects of the present invention, the structure and composition of the present invention are described in conjunction with the drawings and figure numbers. However, the following are only used to explain the implementation of the present invention For example, it is not an attempt to restrict the present invention in any form, so any modification made under the spirit of the present invention should still fall within the protection scope of the present invention.

10‧‧‧第一本體 10‧‧‧The first body

11‧‧‧容置槽 11‧‧‧Containing tank

12‧‧‧第一穿槽 12‧‧‧The first slot

14‧‧‧第一環槽 14‧‧‧The first ring groove

15‧‧‧限制槽 15‧‧‧Limit Slot

17‧‧‧第一扣槽 17‧‧‧First buckle slot

20‧‧‧第二本體組 20‧‧‧Second body group

21‧‧‧第二本體 21‧‧‧Second Body

211‧‧‧第一容槽 211‧‧‧First container

212‧‧‧定位槽 212‧‧‧Locating slot

213‧‧‧第一容孔 213‧‧‧The first volume hole

22‧‧‧彈性件組 22‧‧‧Elastic Parts Group

221‧‧‧第一彈性件 221‧‧‧First elastic part

222‧‧‧第一墊片 222‧‧‧First gasket

223‧‧‧第二墊片 223‧‧‧Second gasket

224‧‧‧第一珠體 224‧‧‧First Pearl

23‧‧‧驅動件 23‧‧‧Drive parts

231‧‧‧第一驅動部 231‧‧‧First Drive

232‧‧‧連接段 232‧‧‧Connecting section

233‧‧‧第一組設部 233‧‧‧The first group set up department

234‧‧‧第一端部 234‧‧‧First end

235‧‧‧第一環溝 235‧‧‧The first ring groove

236‧‧‧第二環溝 236‧‧‧Second ring groove

24‧‧‧第一齒盤 24‧‧‧First chainring

241‧‧‧第一套合部 241‧‧‧First Set

242‧‧‧第一囓合部 242‧‧‧First meshing part

243‧‧‧第二容孔 243‧‧‧Second Pore

244‧‧‧第二端部 244‧‧‧Second end

25‧‧‧第二齒盤 25‧‧‧Second chainring

251‧‧‧第二套合部 251‧‧‧Second Set

252‧‧‧第二囓合部 252‧‧‧Second meshing part

253‧‧‧第二組設部 253‧‧‧Second Group Department

257‧‧‧梢體 257‧‧‧Spot body

258‧‧‧第一環體 258‧‧‧First Ring Body

259‧‧‧第二環體 259‧‧‧Second Ring Body

26‧‧‧限制件 26‧‧‧Restrictions

27‧‧‧第三本體 27‧‧‧The Third Body

271‧‧‧第二容槽 271‧‧‧Second container

272‧‧‧第三容槽 272‧‧‧The third container

273‧‧‧第二抵緣 273‧‧‧Second Arrival

28‧‧‧外套環 28‧‧‧Outer Ring

30‧‧‧控制組 30‧‧‧Control Group

31‧‧‧控制套環 31‧‧‧Control ring

311‧‧‧彈簧槽 311‧‧‧Spring Groove

312‧‧‧第三抵緣 312‧‧‧The Third Arrival

313‧‧‧第一周面 313‧‧‧First week

314‧‧‧第二周面 314‧‧‧Second Week

315‧‧‧第一錐形槽 315‧‧‧First tapered groove

316‧‧‧第二錐形槽 316‧‧‧Second tapered groove

32‧‧‧第二彈性件 32‧‧‧Second elastic part

321‧‧‧第一端 321‧‧‧First end

322‧‧‧第二端 322‧‧‧Second end

33‧‧‧第三環體 33‧‧‧The third ring

34‧‧‧定位件 34‧‧‧Positioning piece

341‧‧‧第二環槽 341‧‧‧Second ring groove

35‧‧‧第四環體 35‧‧‧The fourth ring

351‧‧‧限制部 351‧‧‧Restriction Department

36‧‧‧第一扣環 36‧‧‧First buckle

40‧‧‧調整件 40‧‧‧Adjustment

第一圖、係本發明扭力結構之立體分解圖。 The first figure is a three-dimensional exploded view of the torsion structure of the present invention.

第二圖、係本發明扭力結構第二本體組之立體分解圖。 The second figure is a three-dimensional exploded view of the second body group of the torsion structure of the present invention.

第三圖、係本發明扭力結構第二本體組部份元件之立體組合圖。 The third figure is a three-dimensional assembly view of some elements of the second body group of the torsion structure of the present invention.

第四圖、係本發明扭力結構第二本體組部份元件之側視圖。 The fourth figure is a side view of some elements of the second body group of the torsion structure of the present invention.

第五圖、係本發明扭力結構第二本體組之立體組合圖。 Figure 5 is a three-dimensional assembly view of the second body group of the torsion structure of the present invention.

第六圖、係本發明扭力結構第二本體組之前視圖。 Figure 6 is a front view of the second body group of the torsion structure of the present invention.

第七圖、係本發明第六圖A-A處之剖視圖。 Figure 7 is a cross-sectional view at A-A in Figure 6 of the present invention.

第八圖、係本發明第六圖A-A處另一操作狀態之剖視圖之放大圖。 Figure 8 is an enlarged view of the cross-sectional view of another operating state at A-A in Figure 6 of the present invention.

第九圖、係本發明扭力結構第二本體組部份元件另一操作狀態之立體圖。 Figure 9 is a perspective view of another operating state of some elements of the second body group of the torsion structure of the present invention.

第十圖、係本發明扭力結構控制套環之側視圖。 Figure 10 is a side view of the torque structure control collar of the present invention.

第十一圖、係本發明第十圖B-B處之剖視圖。 Figure eleven is a cross-sectional view at B-B in Figure ten of the present invention.

第十二圖、係本發明扭力結構定位件之立體圖。 Figure 12 is a three-dimensional view of the torsion structure positioning member of the present invention.

第十三圖、係本發明扭力結構之立體組合圖。 Figure 13 is a three-dimensional assembly diagram of the torsion structure of the present invention.

第十四圖、係本發明扭力結構之側視圖。 Figure 14 is a side view of the torsion structure of the present invention.

第十五圖、係本發明第十四圖C-C處之剖視圖。 Figure 15 is a cross-sectional view at C-C of Figure 14 of the present invention.

第十六圖、係本發明第十五圖D處之放大圖。 Figure 16 is an enlarged view of D of Figure 15 of the present invention.

第十七圖、係本發明扭力結構另一操作狀態之側視圖。 Figure 17 is a side view of another operating state of the torsion structure of the present invention.

第十八圖、係本發明第十七圖C-C處之剖視圖。 Figure 18 is a cross-sectional view at C-C of Figure 17 of the present invention.

第十九圖、係本發明第十八圖D處之放大圖。 Figure 19 is an enlarged view of Figure D of Figure 18 of the present invention.

首先請參閱第一圖至第十二圖所示，第一圖係本發明扭力結構之立體分解圖，第二圖係本發明扭力結構之第二本體組20之立體分解圖，第三圖係本發明扭力結構第二本體組20之部份元件之立體組合圖，第四圖係本發明扭力結構第二本體組20之部份元件之側視圖，第五圖係本發明扭力結構第二本體組20之立體組合圖，第六圖係本發明扭力結構第二本體組20之前視圖，第七圖係本發明第六圖A-A處之剖視圖，第八圖係本發明第六圖A-A處另一操作狀態之剖視圖之放大圖，第九圖係本發明扭力結構第二本體組20之部份元件另一操作狀態之立體圖，第十圖係本發明扭力結構控制套環31之側視圖，第十一圖係本發明第十圖B-B處之剖視圖，第十二圖係本發明扭力結構定位件34之立體圖，本發明係關於一種扭力結構，其係包括：一第一本體10，該第一本體10係為一圓桿體狀，該第一本體10一端係套設有一握把，該第一本體10內部係設有一容置槽11，該容置槽11係呈中空之圓槽狀，該第一本體10上係設有一第一穿槽12，該第一穿槽12係與該容置槽11呈相通狀，該第一穿槽12係呈長孔槽狀，該第一本體10係設有一第一環槽14，該第一環槽14係呈凹圓環槽狀，該第一本體10係設有二限制槽15，該二限制槽15相對該第一穿槽12係呈相對稱狀，該第一本體10近該容置槽11之開口係設有一第一扣槽17，該第一扣槽17係呈凹圓環槽狀；一第二本體組20，請輔以第二圖所示，該第二本體組20係與該第一本體10相套設，該第一本體10轉動，使該第二本體組20以自己為軸心受該第一本體10轉動時，該第二本體組20係具有扭力跳脫功效，該第二 本體組20係半凸露於該第一本體10外，該第二本體組20係包括一第二本體21、一彈性件組22、一驅動件23、一第一齒盤24、一第二齒盤25、一梢體257、一第一環體258、一第二環體259、至少一限制件26、一第三本體27及一外套環28；該第二本體21一端係設有一第一容槽211，該第一容槽211係呈圓槽狀，該第二本體21另端之外周面係設有複數定位槽212，該複數定位槽212係隱於該容置槽11內，該第一本體10係可相對該第二本體21轉動，使該第一穿槽12可與每一定位槽212分別相對正，該複數定位槽212係呈環狀排列狀，該定位槽212之數目係為十個，每一定位槽212係呈凹弧形槽狀，該複數定位槽212係與該第一容槽211之開口相遠離，該第二本體21上係設有至少一第一容孔213，該第一容孔213與該第一容槽211係呈相通狀，該第一容孔213係設於該第一容槽211之開口與該複數定位槽212間，每一第一容孔213係呈圓孔狀，該複數第一容孔213係呈環狀排列狀，該第一容孔213之數目係為四個；該彈性件組22係容設於該第一容槽211內，該彈性件組22係包括有一第一彈性件221、一第一墊片222、一第二墊片223及一第一珠體224；該第一彈性件221係容設於該第一容槽211處，該第一彈性件221係為彈簧結構；該第一墊片222係容設於該第一容槽211內，該第一墊片222係抵於該第一彈性件221一端，該第一墊片222一端係設有一第一凹部，該第一凹部係對正該第一容槽211之開口，該第一凹部係呈凹弧形槽狀或任一 槽狀；該第二墊片223係容設於該第一容槽211內，該第二墊片223係抵於該第一彈性件221另端，該第一彈性件221係彈抵於該第一墊片222與該第二墊片223間；該第一珠體224係容設於該第一墊片222之該第一凹部處，該第一珠體224係部份凸露於該第一凹部外；該驅動件23係容設於該第一容槽211內，該驅動件23係於該第一容槽211內位移，該驅動件23係樞設於該第一容槽211內，該驅動件23一端係設有一第一驅動部231，該第一驅動部231之開口係凸露於該第二本體21外，該第一驅動部231係呈六角槽狀，該驅動件23另端係設有一連接段232，該連接段232端部係與該彈性件組22相靠抵，該彈性件組22係彈力壓抵該連接段232，該連接段232係與該第一驅動部231之開口相遠離，該連接段232係呈圓柱體狀，該連接段232端部係設有一第二凹部，該第二凹部係與該第一墊片222之該第一凹部相對正，該第一珠體224係容設於該第一凹部與該第二凹部間，該第二凹部係呈凹弧形槽狀，該第一墊片222及該第一珠體224係受該第一彈性件221之彈力而壓抵於該連接段232上，該連接段232上係設有一第一組設部233，該第一組設部233之軸心係與該連接段232之軸心相互垂直，該第一組設部233係貫穿該連接段232，該第一組設部233係呈圓穿孔狀，該驅動件23係設有一第一端部234，該第一端部234係設於該第一驅動部231與該連接段232間，該第一端部234係呈平面狀，該第一驅動部231之外周面上係設有一第一環溝235，該第一環溝235係設於近該第一端部234處，該第一環溝235係呈凹環槽狀，該第一驅動部231之外周面係設 有一第二環溝236，該第二環溝236係與該第一環溝235相遠離，該第二環溝236係設於近該第一驅動部231之開口處，該第二環溝236係呈凹環槽狀，該第二環溝236係凸露於該第二本體21外，該第二環溝236之寬度係大於該第一環溝235；該第一齒盤24係容設於該第一容槽211內，該第一齒盤24係呈中空之圓環體狀，該第一齒盤24係設有一第一套合部241，該第一套合部241係套合於該連接段232上，該第一套合部241係呈貫穿之圓槽狀，該第一齒盤24一端部係設有一第一囓合部242，該第一囓合部242係呈環繞排列狀齒，該第一齒盤24上係設有至少一第二容孔243，該第二容孔243係與該第一容孔213相對正，該第二容孔243係與該第一套合部241呈相通狀，該第二容孔243係呈圓孔狀，該第二容孔243之數係配合該第一容孔213之數目，該第一齒盤24另端係設有一第二端部244，該第二端部244係與該第一端部234相對正，該第二端部244與該第一端部234間係具有一間隔，該第二端部244係與該第一囓合部242相遠離，該第二端部244係呈平面狀，該第一齒盤24係呈圓體狀；該第二齒盤25係容設於該第一容槽211內，該第二齒盤25係呈中空之圓環體狀，該第二齒盤25係設有一第二套合部251，該第二套合部251係套合於該連接段232上，該第二套合部251係呈貫穿之圓槽狀，該連接段232係先套設該第一齒盤24後依序再套設該第二齒盤25，該第二齒盤25係設有一第二囓合部252，該第二囓合部252係與該第一囓合部242相囓合，使該第一齒盤24與該第二齒盤25係相囓合轉動，該第二囓合部252係呈環狀排列齒狀，該第二齒盤25係設有一第二組設部253，該第二組設部253係與該 第一組設部233相對正，該第二組設部253之軸心係與該第二套合部251之軸心呈相垂直狀，該第二組設部253係貫穿該第二齒盤25，該第二組設部253係與該第二套合部251呈相通狀，該第二組設部253係呈穿孔狀，該第二齒盤25係呈圓體狀；該第二齒盤25係與該驅動件23相組設，該第二齒盤25於該第一容槽211往該第一本體10之方向移位時，該第二齒盤25係帶動該驅動件23移位；該梢體257係穿設於該第一組設部233與該第二組設部253處，使該第二齒盤25與該驅動件23相組設，該梢體257係為具彈性之圓梢體狀；該第一環體258係套設於該第一環溝235處，該第一環體258係抵於該第一容槽211之壁面與該第一環溝235間，該第一環體258係呈C形環體狀；該第二環體259係套設於該第二環溝236處，該第二環體259係呈圓環體狀，該第二環體259係凸露於該第二本體21外；該驅動件23、該第一齒盤24、該第二齒盤25、該梢體257、該第一環體258及該第二環體259相組合後即如第三圖及第四圖所示，該第一齒盤24係套合於該連接段232上，該第二齒盤25係套合於該連接段232上，該第二囓合部252係與該第一囓合部242相囓合，該梢體257係穿設於該第一組設部233與該第二組設部253處，使該第二齒盤25與該驅動件23相組設，該第一環體258係套設於該第一環溝235處，該第二環體259係套設於該第二環溝236處； 該限制件26係容設於該第一容孔213與該第二容孔243處，使該第一齒盤24與該第二本體21相組設，當該第一本體10及該第二本體21轉動時，該第二本體21係帶動該第一齒盤24轉動，該第一齒盤24係在帶動該第二齒盤25轉動，該第二齒盤25再帶動該驅動件23轉動，以轉動套合於該第一驅動部231處之工具件，該限制件26之數目係配合該第一容孔213之數目；該第三本體27內係設有一第二容槽271，該第二容槽271係供該第二本體21相容設，使該第三本體27套合於該第二本體21上，該限制件26係受限於該第三本體27而不脫出該第二本體21外，該第二容槽271係呈圓槽狀，該限制件26係抵於該第二容槽271之壁面上，該第二容槽271一側係設有一第三容槽272，該第三容槽272與該第二容槽271係呈相通狀，該第三容槽272係供該驅動件23端部相容設，即該驅動件23係隱於該第二本體21與該第三本體27內，該第二環體259係抵於該第二環溝236與該第三容槽272之內周面之間，該第三容槽272之直徑係小於該第二容槽271之直徑，該第三容槽272係呈圓槽狀，該第二容槽271與該第三容槽272間係設有一第二抵緣273，該第二抵緣273係與該第二本體21之端部相靠抵，該第三本體27係呈圓筒體狀；該外套環28係結合於該第二本體21上，該第一本體10相對該第二本體組20轉動時，該外套環28係可供握持以便轉動該第一本體10，該外套環28上係設有複數紋路，該複數紋路係呈環狀排列狀，該外套環28係呈環體狀；請繼續輔以第五圖、第六圖及第七圖所示，該第二本體組20 相組合後即如第五圖所示，該彈性件組22係容設於該第一容槽211內，該驅動件23、該第一齒盤24、該第二齒盤25、該梢體257、該第一環體258及該第二環體259係先相組合後，如第三圖及第四圖所示，再容設於該第一容槽211內，每一限制件26係容設於每一第一容孔213及每一第二容孔243間，使該第一齒盤24係與該第二本體21相組設，該第三本體27係套合於該第二本體21及該驅動件23上，該外套環28係套合於該第二本體21及該第三本體27上；請輔以第八圖及第九圖所示，當該第二本體21與該第一本體10同步轉動時，該第二本體21係帶動該第一齒盤24轉動，並使該第一齒盤24帶動該第二齒盤25與該驅動件23轉動，以轉動套合於該第一驅動部231處之工具件，當旋動之扭力值過大時，該第一囓合部242與該第二囓合部252即會相脫開，該第二齒盤25係帶動該驅動件23往該彈性件組22之方向移位，該第一端部234與該第二端部244相靠近，該驅動件23並壓縮該彈性件組22；一控制組30，該控制組30係套設於該第一本體10上，該控制組30係可作動至一鎖固位置及一非鎖固位置以控制該第一本體10相對該第二本體組20呈不轉動狀或轉動狀，該控制組30位於該鎖固位置時，該第一本體10及該第二本體組20間係因該控制組30限制，該第一本體10與該第二本體組20間係呈不轉動狀，該第一本體10轉動而轉動該第二本體組20，該控制組30往該第二本體組20方向移位位於非鎖固位置時，該第一本體10與該第二本體組20係呈轉動狀，該第一本體10相對該第二本體組20轉動時，該控制組30隨該第一本體10轉動，該控制組30相對該第二本體組20係可發 出聲響，該控制組30位於非鎖固位置時係可定位於該第一本體10上，該控制組30係包括一控制套環31、一第二彈性件32、一第三環體33、一定位件34、一第四環體35及一第一扣環36；請輔以第十圖及第十一圖所示，該控制套環31係為金屬製圓環體狀，該控制套環31係套設於該第一本體10上，該控制套環31係可於該第一本體10上軸向移動至一鎖固位置及一非鎖固位置，該控制套環31之內周面之前側係設有一彈簧槽311，該彈簧槽311係延伸到該控制套環31之前端面呈開口狀，該彈簧槽311開口處係對向該第二本體組20，該彈簧槽311底部係設有一第三抵緣312，該控制套環31係設有一第一周面313，該第三抵緣312係設於該彈簧槽311與該第一周面313間，該第一周面313之直徑係小於該彈簧槽311之直徑，該第一周面313係具有最小之內直徑，該控制套環31係設有一第二周面314，該第一周面313係設於該第三抵緣312與該第二周面314間，該第二周面314之直徑係大於該第一周面313之直徑，該第一周面313與該第二周面314間係設有一第一錐形槽315，該第一錐形槽315係由該第一周面313往該第二周面314呈擴大狀，該第一周面313係設於該第三抵緣312與該第一錐形槽315間，該控制套環31係設有一第二錐形槽316，該第二錐形槽316係設於該控制套環31之內周面之後側，該第二錐形槽316係由該第二周面314往該控制套環31之後端面開口呈擴大狀，該第二錐形槽316與該第二周面314係呈相通狀，該第二周面314係設於該第一錐形槽315與該第二錐形槽316間，該控制套環31係依序設有該彈簧槽311、該第三抵緣312、該第一周面313、該第一錐形槽315、該第二周面314及該第二錐形槽316； 該第二彈性件32係套設於該第一本體10上，該第二彈性件32係彈抵於該控制套環31上，該第二彈性件32係使該控制套環31具有由非鎖固位置移動到鎖固位置之彈力頂抵功效，該第二彈性件32係容設於該彈簧槽311中，該第二彈性件32係設有一第一端321，該第一端321係對向該第一扣槽17處，該第二彈性件32係設有一第二端322，該第二端322係彈抵於該第三抵緣312處；該第三環體33係套設於該第一環槽14處，該第三環體33係隱於該控制套環31內，該第三環體33係略具外張彈性，該控制套環31軸向移動至一鎖固位置時，該第三環體33係抵於該第二周面314處，該控制套環31軸向移動一非鎖固位置時，該第三環體33係外張而抵於該第二錐形槽316處；請輔以第十二圖所示，該定位件34係為金屬材質，該定位件34係呈圓柱體狀，該定位件34係容設於該第一穿槽12處，該定位件34係隱於該控制套環31內，該定位件34係可卡制或不卡制於該定位槽212處，該定位件34一端係設有一第二環槽341，該第二環槽341係呈凹環槽狀，該定位件34一端係具有錐形體狀，該定位件34設有錐形體之一端係對向該第二彈性件32；該第四環體35係套設於該第一本體10及該第二環槽341上，該第四環體35二端部處係各設有一限制部351，該限制部351係容設於該限制槽15處，使該第四環體35不與該第一本體10相脫開，且該定位件34係受限於該第四環體35而不脫出該第一穿槽12外，該第四環體35係具有彈性恢復力； 該第一扣環36係套設於該第一扣槽17處，該第一扣環36係略凸露於該第一扣槽17外，該第一扣環36係隱於該控制套環31之該彈簧槽311內，該第二彈性件32之該第一端321係抵於該第一扣環36上，該第一扣環36係呈C形環體狀；當該控制套環31位於鎖固位置時，該第二彈性件32係往該第一驅動部231之反方向推頂該控制套環31，該第三環體33係抵於該第二周面314處，該定位件34一端即受該第一周面313頂抵而略隱於該第一穿槽12內，使該定位件34係定位頂抵於任一定位槽212處而無法位移，該第一本體10及該第二本體組20之間係受限於該定位件34，該第一本體10即無法相對該第二本體組20轉動，該定位件34另端即係對正於該第二周面314與該第一錐形槽315處；該控制套環31於該第一本體10上往該第二本體組20之方向移位而位於非鎖固位置時，該第二彈性件32係受該第三抵緣312壓抵而呈壓縮狀，該第三環體33係會外張，該第三環體33係抵於該第二錐形槽316處，該控制套環31係因該第三環體33而定位於非鎖固位置，該定位件34一端即與於該第一周面313相脫開，該定位件34係僅受該第四環體35限制，該第一本體10即可相對該第二本體組20轉動，使該定位件34係可於該第二本體21上位移而定位於任一定位槽212處，該定位件34係受該第二本體21之壁面推抵而撐開該第四環體35，當該定位件34由其一定位槽212移動至下一定位槽212處時，該定位件34係受該第四環體35之彈性恢復力而再容設於每一定位槽212時係會發出聲音，該定位件34與每一定位槽212之間即會產生聲音之提示聲，該定位件34所產生之提示聲亦可知該定位件34係已對正其一定位 槽212；一調整件40，該調整件40係容設於該容置槽11內，該調整件40係與該第二本體組20相組設，轉動該第一本體10，使該第一本體10相對該第二本體組20旋轉且位移時，該第一本體10係同時帶動該調整件40轉動且位移，該調整件40轉動及位移時即可調整該彈性件組22之總長度而調整扭力。 First, please refer to the first to twelfth figures. The first figure is a perspective exploded view of the torsion structure of the present invention, the second figure is a perspective exploded view of the second body set 20 of the torsion structure of the present invention, and the third figure is A three-dimensional assembly view of some elements of the second body group 20 of the torsion structure of the present invention. The fourth image is a side view of some elements of the second body group 20 of the torsion structure of the present invention. The fifth image is the second body of the torsion structure of the present invention. A three-dimensional assembly view of the group 20, the sixth diagram is a front view of the second body group 20 of the torsion structure of the present invention, the seventh diagram is a cross-sectional view of the sixth diagram of the present invention at AA, and the eighth diagram is another of the sixth diagram of the present invention at AA An enlarged view of the cross-sectional view of the operating state. Figure 9 is a perspective view of another operating state of some elements of the second body group 20 of the torsion structure of the present invention. Figure 10 is a side view of the control ring 31 of the torsion structure of the present invention. One figure is a cross-sectional view of the tenth figure of the present invention at BB, and the twelfth figure is a perspective view of the torsion structure positioning member 34 of the present invention. The present invention relates to a torsion structure, which includes: a first body 10, the first body 10 is a round rod shape, one end of the first body 10 is sleeved with a handle, the first body 10 is provided with an accommodating groove 11 inside, and the accommodating groove 11 is in the shape of a hollow circular groove. A body 10 is provided with a first through slot 12, the first through slot 12 is in communication with the accommodating slot 11, the first through slot 12 is in the shape of an elongated hole, and the first body 10 is provided with There is a first ring groove 14, the first ring groove 14 is in the shape of a concave circular groove, the first body 10 is provided with two restricting grooves 15, the two restricting grooves 15 are symmetrical with respect to the first through groove 12 The first body 10 is provided with a first buckle groove 17 near the opening of the accommodating groove 11, and the first buckle groove 17 is in the shape of a concave ring groove; a second body group 20, please supplement the second As shown in the figure, the second body set 20 is nested with the first body 10, and the first body 10 rotates so that when the second body set 20 is rotated by the first body 10 about its axis, the The second body set 20 has a torsion release function. The second body set 20 is semi-convex exposed outside the first body 10. The second body set 20 includes a second body 21, an elastic member set 22, A driving member 23, a first chainring 24, a second chainring 25, a tip body 257, a first ring body 258, a second ring body 259, at least one restricting member 26, a third body 27 and An outer ring 28; one end of the second body 21 is provided with a first receiving groove 211, the first receiving groove 211 is in the shape of a circular groove, and the outer peripheral surface of the second body 21 is provided with a plurality of positioning grooves 212, The plurality of positioning grooves 212 are concealed in the accommodating groove 11, and the first body 10 can rotate relative to the second body 21, so that the first through groove 12 can be opposite to each positioning groove 212. The positioning grooves 212 are arranged in a ring shape, the number of the positioning grooves 212 is ten, each positioning groove 212 is in the shape of a concave arc groove, and the plurality of positioning grooves 212 are aligned with the opening of the first receiving groove 211 Far away, the second body 21 is provided with at least one first The accommodating hole 213, the first accommodating hole 213 and the first accommodating groove 211 are in communication, the first accommodating hole 213 is provided between the opening of the first accommodating groove 211 and the plurality of positioning grooves 212, each A container hole 213 is in the shape of a circular hole, the plurality of first container holes 213 are arranged in a ring shape, and the number of the first container holes 213 is four; the elastic element group 22 is accommodated in the first container In the groove 211, the elastic element group 22 includes a first elastic element 221, a first gasket 222, a second gasket 223 and a first ball 224; the first elastic element 221 is accommodated in the At the first receiving groove 211, the first elastic member 221 is a spring structure; the first gasket 222 is accommodated in the first receiving groove 211, and the first gasket 222 abuts against the first elastic member One end of 221, one end of the first gasket 222 is provided with a first recess, the first recess is aligned with the opening of the first receiving groove 211, the first recess is in the shape of a concave arc groove or any groove; The second gasket 223 is accommodated in the first receiving groove 211, the second gasket 223 is pressed against the other end of the first elastic member 221, and the first elastic member 221 is elastically pressed against the first cushion Between the sheet 222 and the second gasket 223; the first bead 224 is accommodated in the first recess of the first gasket 222, and the first bead 224 partially protrudes from the first recess The driving member 23 is accommodated in the first accommodating groove 211, the driving member 23 is in the displacement of the first accommodating groove 211, the driving member 23 is pivoted in the first accommodating groove 211, the One end of the driving member 23 is provided with a first driving portion 231, the opening of the first driving portion 231 is protruding out of the second body 21, the first driving portion 231 is in the shape of a hexagonal groove, and the other end of the driving member 23 A connecting section 232 is provided. The end of the connecting section 232 abuts against the elastic element group 22, the elastic element group 22 is elastically pressed against the connecting section 232, and the connecting section 232 is connected to the first driving part 231 The connecting section 232 is in the shape of a cylinder. The end of the connecting section 232 is provided with a second recess which is aligned with the first recess of the first gasket 222. A bead 224 is accommodated between the first recess and the second recess. The second recess is in the shape of a concave arc groove. The first gasket 222 and the first bead 224 are affected by the first elasticity. The elastic force of the member 221 presses against the connecting section 232. The connecting section 232 is provided with a first assembly portion 233. The axis of the first assembly portion 233 and the axis of the connecting section 232 are perpendicular to each other. The first assembly portion 233 penetrates the connecting section 232, the first assembly portion 233 is in the shape of a circular perforation, the driving member 23 is provided with a first end portion 234, and the first end portion 234 is set at Between the first driving portion 231 and the connecting section 232, the first end portion 234 is planar, and a first ring groove 235 is formed on the outer peripheral surface of the first driving portion 231. The first ring groove 235 is Located near the first end 234, the first ring groove 235 is In the shape of a concave ring groove, the outer peripheral surface of the first driving portion 231 is provided with a second ring groove 236 which is far away from the first ring groove 235, and the second ring groove 236 is arranged in Near the opening of the first driving portion 231, the second ring groove 236 is in the shape of a concave ring groove, the second ring groove 236 is protruding out of the second body 21, and the width of the second ring groove 236 is Larger than the first ring groove 235; the first toothed disc 24 is accommodated in the first receiving groove 211, the first toothed disc 24 is in the shape of a hollow ring, and the first toothed disc 24 is provided with a The first sleeve portion 241, the first sleeve portion 241 is sleeved on the connecting section 232, the first sleeve portion 241 is in the shape of a penetrating circular groove, and one end of the first chainring 24 is provided with a The first meshing portion 242, the first meshing portion 242 is a circumferential arrangement of teeth, the first toothed disc 24 is provided with at least one second receiving hole 243, the second receiving hole 243 is connected to the first receiving hole 213 is relatively positive, the second containing hole 243 is in communication with the first sleeve portion 241, the second containing hole 243 is in the shape of a round hole, and the number of the second containing hole 243 matches the first containing hole The number of 213, the other end of the first chainring 24 is provided with a second end 244, the second end 244 is aligned with the first end 234, the second end 244 and the first end There is a gap between 234, the second end 244 is far away from the first engaging portion 242, the second end 244 is flat, the first toothed disc 24 is round; the second The toothed disk 25 is accommodated in the first accommodating groove 211, the second toothed disk 25 is in the shape of a hollow ring, and the second toothed disk 25 is provided with a second sleeve part 251. The second sleeve The joint portion 251 is sleeved on the connecting section 232, the second sleeve portion 251 is in the shape of a penetrating circular groove, and the connecting section 232 is first sleeved with the first chainring 24 and then the first chainring 24 is sleeved in sequence. The second chainring 25 is provided with a second meshing portion 252 which is engaged with the first meshing portion 242 so that the first chainring 24 and the second chainring 25 is meshing and rotating, the second meshing portion 252 is arranged in a ring-shaped arrangement of teeth, the second chainring 25 is provided with a second assembly portion 253, the second assembly portion 253 is connected with the first assembly The portion 233 is relatively straight, the axis of the second assembly portion 253 is perpendicular to the axis of the second sleeve portion 251, the second assembly portion 253 penetrates the second chainring 25, and the The second set portion 253 is in communication with the second sleeve portion 251, the second set portion 253 is in the shape of a perforation, the second toothed disk 25 is in the shape of a round body; the second toothed disk 25 is connected to The driving member 23 is assembled together. When the second chainring 25 is displaced in the direction of the first housing 211 toward the first body 10, the second chainring 25 drives the driving member 23 to shift; The body 257 is inserted through the first assembly part 233 and the second assembly part 253, so that the second chainring 25 and the driving member 23 are assembled together, and the tip body 257 is an elastic round tip body The first ring body 258 is sleeved at the first ring groove 235, the first ring body 258 abuts between the wall surface of the first receiving groove 211 and the first ring groove 235, the first ring The body 258 is in the shape of a C-shaped ring; the second ring 259 is sleeved at the second ring groove 236, the second ring 259 is in the shape of a circular ring, and the second ring 259 is protruding Outside the second body 21; the driving member 23, the first chainring 24, the second chainring 25, the tip body 257, the first ring body 258 and the second ring body 259 are combined as As shown in the third and fourth figures, the first chainring 24 is sleeved on the connecting section 232, the second chainring 25 is sleeved on the connecting section 232, and the second engaging portion 252 is connected with The first engaging portion 242 is engaged, and the tip body 257 is inserted through the first assembling portion 233 and the second assembling portion 253, so that the second chainring 25 and the driving member 23 are assembled together, The first ring body 258 is sleeved at the first ring groove 235, the second ring body 259 is sleeved at the second ring groove 236; the restricting member 26 is accommodated in the first receiving hole 213 At the second receiving hole 243, the first chainring 24 is assembled with the second body 21. When the first body 10 and the second body 21 rotate, the second body 21 drives the second body 21 A sprocket 24 rotates, the first sprocket 24 drives the second sprocket 25 to rotate, and the second sprocket 25 drives the driving member 23 to rotate to rotate and fit the first driving part 231. Tool element, the number of the limiting element 26 matches the number of the first cavity 213; the third body 27 is provided with a second cavity 271, and the second cavity 271 is compatible with the second body 21 Assume that the third body 27 is sleeved on the second body 21, the restricting member 26 is restricted by the third body 27 and does not come out of the second body 21, and the second receiving groove 271 is In the shape of a circular groove, the restricting member 26 abuts against the wall surface of the second accommodating groove 271, a third accommodating groove 272 is provided on one side of the second accommodating groove 271, the third accommodating groove 272 and the second accommodating groove 271 is in a communicating shape, and the third receiving groove 272 is provided for the end of the driving member 23 to be compatible, that is, the driving member 23 is hidden in the second body 21 and the third body 27, and the second ring body 259 is located between the second annular groove 236 and the inner peripheral surface of the third groove 272. The diameter of the third groove 272 is smaller than the diameter of the second groove 271, and the third groove 272 is In the shape of a circular groove, a second abutting edge 273 is arranged between the second receiving groove 271 and the third receiving groove 272. The second abutting edge 273 abuts against the end of the second body 21, and the first The third body 27 is cylindrical; the outer ring 28 is coupled to the second body 21, when the first body 10 rotates relative to the second body set 20, the outer ring 28 can be held for rotation In the first body 10, the outer casing ring 28 is provided with a plurality of patterns, the plural patterns are arranged in a ring shape, and the outer casing ring 28 is in a ring shape; please continue to supplement As shown in Fig. 5, Fig. 6 and Fig. 7, the second body group 20 is combined as shown in Fig. 5. The elastic element group 22 is accommodated in the first receiving groove 211, and the driving element 23. The first chainring 24, the second chainring 25, the tip body 257, the first ring body 258 and the second ring body 259 are combined first, as shown in the third and fourth figures , And then accommodated in the first accommodating groove 211, each restricting member 26 is accommodated between each first accommodating hole 213 and each second accommodating hole 243, so that the first chainring 24 and the first The two bodies 21 are assembled together, the third body 27 is sleeved on the second body 21 and the driving member 23, and the outer ring 28 is sleeved on the second body 21 and the third body 27; please As shown in the eighth and ninth figures, when the second body 21 rotates synchronously with the first body 10, the second body 21 drives the first chainring 24 to rotate, and makes the first chainring 24 drives the second chainring 25 and the driving part 23 to rotate to rotate the tool part fitted at the first driving part 231. When the torque value of the rotation is too large, the first engaging part 242 and the second The engaging portion 252 will be disengaged, the second chainring 25 drives the driving member 23 to shift in the direction of the elastic member group 22, the first end 234 is close to the second end 244, and the driving 23 and compress the elastic element group 22; a control group 30, the control group 30 is sleeved on the first body 10, the control group 30 can be moved to a locked position and a non-locked position to control The first body 10 is non-rotating or rotating relative to the second body group 20. When the control group 30 is in the locked position, the first body 10 and the second body group 20 are due to the control group 30 Restricted, the first body 10 and the second body group 20 are in a non-rotating state, the first body 10 rotates to rotate the second body group 20, and the control group 30 is displaced in the direction of the second body group 20 When in the unlocked position, the first body 10 and the second body group 20 are rotating. When the first body 10 rotates relative to the second body group 20, the control group 30 rotates with the first body 10 The control group 30 can emit a sound relative to the second body group 20. The control group 30 can be positioned on the first body 10 when it is in the unlocked position. The control group 30 includes a control collar 31, A second elastic member 32, a third ring body 33, a positioning member 34, a fourth ring body 35 and a first buckle 36; please supplement with the tenth and eleventh figures, the control sleeve The ring 31 is in the shape of a metal circular ring, the control collar 31 is sleeved on the first body 10, and the control collar 31 is axially movable on the first body 10 to a locked position and a non-locked position, front side 31 of the ring system of the inner peripheral surface of the control sleeve is provided with a spring groove 311, the spring groove 311 extends into the system control sleeve 31 of the front end face of the ring-shaped opening, the opening spring groove 311 Opposite to the second body set 20, a third abutting edge 312 is provided at the bottom of the spring groove 311, and the control collar 3 1 is provided with a first peripheral surface 313, the third abutting edge 312 is provided between the spring groove 311 and the first peripheral surface 313, the diameter of the first peripheral surface 313 is smaller than the diameter of the spring groove 311, the The first peripheral surface 313 has the smallest inner diameter, the control collar 31 is provided with a second peripheral surface 314, and the first peripheral surface 313 is provided between the third abutting edge 312 and the second peripheral surface 314, The diameter of the second circumferential surface 314 is greater than the diameter of the first circumferential surface 313, a first tapered groove 315 is formed between the first circumferential surface 313 and the second circumferential surface 314, the first tapered groove 315 From the first peripheral surface 313 to the second peripheral surface 314 is expanded, the first peripheral surface 313 is provided between the third abutting edge 312 and the first tapered groove 315, the control collar 31 is A second tapered groove 316 is provided. The second tapered groove 316 is located behind the inner peripheral surface of the control collar 31, and the second tapered groove 316 extends from the second peripheral surface 314 to the control sleeve. The opening of the rear end surface of the ring 31 is enlarged, the second tapered groove 316 and the second peripheral surface 314 are in communication shape, and the second peripheral surface 314 is provided in the first tapered groove 315 and the second tapered groove 315 Between the grooves 316, the control collar 31 is sequentially provided with the spring groove 311, the third abutting edge 312, the first peripheral surface 313, the first tapered groove 315, the second peripheral surface 314 and the first Two tapered grooves 316; The second elastic element 32 is sleeved on the first body 10, the second elastic element 32 is elastically pressed against the control collar 31, and the second elastic element 32 makes the control The collar 31 has an elastic force resisting function that moves from the unlocked position to the locked position. The second elastic member 32 is accommodated in the spring groove 311, and the second elastic member 32 is provided with a first end 321, The first end 321 faces the first buckle groove 17, the second elastic member 32 is provided with a second end 322, and the second end 322 springs against the third abutting edge 312; the third The ring body 33 is sleeved at the first ring groove 14, the third ring body 33 is concealed in the control collar 31, the third ring body 33 is slightly elastic, and the control collar 31 has a shaft When moving to a locked position, the third ring body 33 abuts on the second peripheral surface 314, and when the control collar 31 moves axially to a non-locking position, the third ring body 33 is stretched out And the second tapered groove 316; please supplement with the twelfth figure, the positioning member 34 is made of metal, the positioning member 34 is cylindrical, and the positioning member 34 is accommodated in the At the first slot 12, the positioning member 34 is hidden in the control collar 31, the positioning member 34 can be locked or not locked at the positioning groove 212, and one end of the positioning member 34 is provided with a second A ring groove 341, the second ring groove 341 is in the shape of a concave ring groove, one end of the positioning member 34 has a cone shape, and one end of the positioning member 34 is provided with a cone facing the second elastic member 32; The four ring body 35 is sleeved on the first body 10 and the second ring groove 341, and each of the two ends of the fourth ring body 35 is provided with a The restricting portion 351 is accommodated in the restricting groove 15 so that the fourth ring body 35 is not separated from the first body 10, and the positioning member 34 is restricted by the fourth ring body 35 without coming out of the first through groove 12, the fourth ring body 35 has an elastic restoring force; the first buckle 36 is sleeved at the first buckle groove 17, the first buckle 36 is Slightly protruding outside the first buckle groove 17, the first buckle ring 36 is hidden in the spring groove 311 of the control collar 31, and the first end 321 of the second elastic member 32 abuts against the first On a buckle 36, the first buckle 36 is in the shape of a C-shaped ring; when the control collar 31 is in the locked position, the second elastic member 32 is pushed in the opposite direction of the first driving portion 231 Abut the control collar 31, the third ring body 33 is attached to the second peripheral surface 314, and one end of the positioning member 34 is pressed by the first peripheral surface 313 and is slightly hidden in the first through groove 12 , The positioning member 34 is positioned against any positioning groove 212 and cannot be displaced. The first body 10 and the second body group 20 are limited by the positioning member 34, and the first body 10 is Cannot rotate relative to the second body set 20, the other end of the positioning member 34 is aligned with the second peripheral surface 314 and the first tapered groove 315; the control collar 31 moves upward on the first body 10 When the direction of the second body set 20 is shifted to the non-locking position, the second elastic member 32 is pressed by the third abutting edge 312 to be compressed, and the third ring body 33 will expand outward. The third ring body 33 is attached to the second tapered groove 316, the control collar 31 is positioned at the non-locking position due to the third ring body 33, and one end of the positioning member 34 is connected to the first The peripheral surface 313 is disengaged, the positioning member 34 is only restricted by the fourth ring body 35, the first body 10 can rotate relative to the second body set 20, so that the positioning member 34 can be attached to the second body 21 is displaced upward and positioned at any positioning groove 212. The positioning member 34 is pushed by the wall of the second body 21 to open the fourth ring body 35. When the positioning member 34 moves by one of the positioning grooves 212 When it reaches the next positioning groove 212, the positioning member 34 is subjected to the elastic restoring force of the fourth ring body 35 and then is accommodated in each positioning groove 212, and a sound is generated. The positioning member 34 and each positioning groove A sound prompt will be generated between 212, and the prompt generated by the positioning member 34 can also tell that the positioning member 34 has been aligned with one of the positioning grooves 212; an adjustment member 40, the adjustment member 40 is accommodated in the In the accommodating groove 11, the adjusting member 40 is assembled with the second body group 20. When the first body 10 is rotated, the first body 10 rotates and displaces relative to the second body group 20. The main body 10 drives the adjusting member 40 to rotate and displace at the same time. When the adjusting member 40 rotates and displaces, the total length of the elastic member group 22 can be adjusted to adjust the torque.

請繼續參閱第十三圖至第十六圖所示，第十三圖係本發明扭力結構之立體組合圖，第十四圖係本發明扭力結構之側視圖，第十五圖係本發明第十四圖C-C處之剖視圖，第十六圖係本發明第十五圖D處之放大圖，由圖示可清楚所示，該第二本體組20係與該第一本體10相樞設，該控制組30係套設於該第一本體10上，該定位件34一端係受該第一周面313頂抵，使該定位件34係定位於任一定位槽212處，以限制該第一本體10相對該第二本體21轉動，該第一本體10即帶動該第二本體21轉動，該第四環體35係套設於該第二環槽341上，第十六圖即係該控制套環31位於鎖固位置狀態。 Please continue to refer to Figures 13 to 16. Figure 13 is a three-dimensional assembly view of the torsion structure of the present invention, Figure 14 is a side view of the torsion structure of the present invention, and Figure 15 is a perspective view of the torsion structure of the present invention. The cross-sectional view at CC in Fig. 14 and the enlarged view at D in Fig. 15 of the present invention are shown in Fig. 16, which clearly shows that the second body set 20 is pivotally arranged with the first body 10. The control group 30 is sleeved on the first body 10, and one end of the positioning member 34 is pressed against the first peripheral surface 313, so that the positioning member 34 is positioned at any positioning groove 212 to limit the second A body 10 rotates relative to the second body 21, the first body 10 drives the second body 21 to rotate, the fourth ring body 35 is sleeved on the second ring groove 341, the sixteenth figure shows the The control collar 31 is in the locked position.

請參閱第十七圖至第十九圖所示，第十七圖係本發明扭力結構另一操作狀態之側視圖，第十八圖係本發明第十七圖C-C處之剖視圖，第十九圖係本發明第十八圖D處之放大圖，由圖示可清楚所示，當該控制套環31於該第一本體10上往該第二本體組20之方向移動至非鎖固位置時，即往如第十七圖所示之箭頭方向移動，該第二彈性件32係受該第三抵緣312壓抵而呈壓縮狀，該第三環體33係頂抵於該第二錐形槽316處，使該控制套環31定位於非鎖固位置上，該定位件34一端係與於該第一周面313相脫開，該第 一本體10即可相對該第二本體組20轉動，該第一本體10即帶動該調整件40轉動且位移，該調整件40轉動及位移時即可調整該彈性件組22之總長度而調整扭力。 Please refer to Figures 17 to 19, Figure 17 is a side view of the torsion structure of the present invention in another operating state, Figure 18 is a cross-sectional view at CC of Figure 17 of the present invention, and Figure 19 The figure is an enlarged view of the eighteenth figure D of the present invention. It can be clearly shown by the figure that when the control collar 31 moves on the first body 10 toward the second body group 20 to the non-locking position When moving in the direction of the arrow as shown in Figure 17, the second elastic member 32 is pressed by the third abutting edge 312 to be compressed, and the third ring body 33 abuts against the second At the tapered groove 316, the control collar 31 is positioned at the non-locking position. One end of the positioning member 34 is disconnected from the first peripheral surface 313, and the second A body 10 can rotate relative to the second body set 20, and the first body 10 drives the adjusting member 40 to rotate and move. When the adjusting member 40 rotates and moves, the total length of the elastic member set 22 can be adjusted. Torque.

本發明扭力結構之優點係在於： The advantages of the torsion structure of the present invention are:

1、該第一本體10轉動，使該第二本體組20以自己為軸心受該第一本體10轉動時，該第二本體組20係具有扭力跳脫功效，該控制組30係可作動至一鎖固位置及一非鎖固位置以控制該第一本體10相對該第二本體組20呈不轉動狀或轉動狀，該控制組30位於該鎖固位置時，該第一本體10及該第二本體組20間係因該控制組30限制，該第一本體10與該第二本體組20間係呈不轉動狀，該第一本體10轉動而轉動該第二本體組20，該控制組30位於非鎖固位置時，該第一本體10與該第二本體組20係呈轉動狀，該第一本體10相對該第二本體組20轉動時，該控制組30係隨該第一本體10轉動，該控制組30相對該第二本體組20係可發出聲響。轉動該第一本體10，使該第一本體10相對該第二本體組20旋轉且位移時，該第一本體10係同時帶動該調整件40轉動且位移，該調整件40轉動及位移時即可調整該彈性件組22之總長度而調整扭力。 1. The first body 10 rotates, and when the second body group 20 is rotated by the first body 10 about itself as the axis, the second body group 20 has a torsion release function, and the control group 30 is movable To a locked position and a non-locked position to control the first body 10 to be non-rotating or rotating relative to the second body group 20. When the control group 30 is in the locked position, the first body 10 and The second body group 20 is restricted by the control group 30, the first body 10 and the second body group 20 are in a non-rotating shape, the first body 10 rotates to rotate the second body group 20, the When the control group 30 is in the unlocked position, the first body 10 and the second body group 20 are rotated. When the first body 10 rotates relative to the second body group 20, the control group 30 follows the second body group 20. When a main body 10 rotates, the control group 30 can make a sound relative to the second main body group 20. When the first body 10 is rotated to rotate and displace the first body 10 relative to the second body set 20, the first body 10 simultaneously drives the adjustment member 40 to rotate and displace. When the adjustment member 40 rotates and displaces, The total length of the elastic element group 22 can be adjusted to adjust the torque.

2、組裝該第二本體組20時，先依序將該彈性件組22容設於該第一容槽211之端部處，再將該驅動件23、該第一齒盤24、該第二齒盤25、該梢體257、該第一環體258及該第二環體259先相組合後，如第三圖及第四圖所示，再容設於該第一容槽211內，較小規格時，該驅動件23、該第一齒盤24、該第二齒盤25、該梢體257、該第一環體258及該第二環體259每一元件之大小係皆為較小，在該第二本體21外先相組合後再容設於該第一容槽211內，即較 容易組裝且快速。 2. When assembling the second body set 20, first place the elastic element set 22 at the end of the first accommodating groove 211 in sequence, and then the driving element 23, the first chainring 24, and the second After the two toothed disc 25, the tip body 257, the first ring body 258 and the second ring body 259 are combined first, as shown in the third and fourth figures, they are then accommodated in the first receiving groove 211 , When the size is smaller, the size of each element of the driving member 23, the first chainring 24, the second chainring 25, the tip body 257, the first ring body 258 and the second ring body 259 is all Is smaller, and is combined with the outside of the second body 21 before being accommodated in the first container 211, that is, Easy to assemble and fast.

3、該第一齒盤24及該第二齒盤25均為單一元件狀，而具有較節省元件成本。 3. Both the first chainring 24 and the second chainring 25 are in the shape of a single component, which saves component cost.

4、承第2點所述，該驅動件23、該第一齒盤24、該第二齒盤25、該梢體257、該第一環體258及該第二環體259相組合後再容設於該第一容槽211內時，該驅動件23之該連接段232之端部係設有該第二凹部，即可與該彈性件組22之該第一珠體224快速對正，該驅動件23與該彈性件組22之間即可快速對正同軸心。 4. As described in point 2, the driving member 23, the first chainring 24, the second chainring 25, the tip body 257, the first ring body 258, and the second ring body 259 are combined. When accommodated in the first receiving groove 211, the end of the connecting section 232 of the driving member 23 is provided with the second recess, which can be quickly aligned with the first bead 224 of the elastic member group 22 , The drive member 23 and the elastic member group 22 can quickly align the coaxial center.

5、該控制組30位於非鎖固位置時，該控制組30係可定位於該第一本體10上。 5. When the control group 30 is in the unlocked position, the control group 30 can be positioned on the first body 10.

6、該控制套環31位於非鎖固位置時，該第一本體10係可相對該第二本體組20轉動，使該定位件34可於該第二本體組20上位移而定位於任一定位槽212處，當該定位件34由其一定位槽212移動至下一定位槽212處時，該定位件34係受該第二本體21之外周面推抵而撐開該第四環體35，該定位件34再對正下一定位槽212時，該定位件34係受該第四環體35之彈性恢復力而再容設於下一定位槽212時係會發生進入該定位槽212之聲音，該定位件34與每一定位槽212之間再容設即會產生提示聲，以供了解該調整件40調整扭力值之旋轉狀態，亦可知該定位件34係已容設於其一定位槽212，若該扭力結構已調整至所需之扭力值時，即可便於將該控制套環31再回位於鎖固位置處。 6. When the control collar 31 is in the unlocked position, the first body 10 can be rotated relative to the second body set 20, so that the positioning member 34 can be displaced on the second body set 20 to be positioned at any one At the positioning groove 212, when the positioning member 34 moves from one of the positioning grooves 212 to the next positioning groove 212, the positioning member 34 is pushed by the outer peripheral surface of the second body 21 to open the fourth ring body 35. When the positioning member 34 is aligned with the next positioning groove 212, the positioning member 34 will enter the next positioning groove 212 by the elastic restoring force of the fourth ring body 35. 212, when the positioning member 34 and each positioning groove 212 are further accommodated, a prompt sound will be generated for understanding the rotational state of the adjusting member 40 to adjust the torque value. It can also be known that the positioning member 34 has been accommodated in One of the positioning grooves 212, if the torque structure has been adjusted to the required torque value, it is convenient for the control collar 31 to return to the locked position.

7、該定位件34再容設於該定位槽212時係為該第四環體35之彈性恢復力，具有該第四環體35之彈性恢復力之限制而容設，該定位件34之移位路 徑即為依據該定位槽212之弧面而進行，因此該定位件34之再容設之聲音係為較確實，該定位件34之移位時係受該第四環體35限制該聲音亦可較為順利。 7. When the positioning member 34 is further accommodated in the positioning groove 212, it is the elastic restoring force of the fourth ring body 35, and is accommodated within the limit of the elastic restoring force of the fourth ring body 35. Shift path The diameter is based on the arc of the positioning groove 212. Therefore, the sound of the positioning member 34 is more reliable. When the positioning member 34 is displaced, the sound is restricted by the fourth ring body 35. It can be smoother.

8、該定位槽212係隱於該第一本體10內，因此可藉由聲音即可知該定位件34已容設於所需之扭力值之該定位槽212內，操作時可藉由聲音判斷較具有實用性。 8. The positioning groove 212 is hidden in the first body 10, so it can be known by sound that the positioning member 34 has been accommodated in the positioning groove 212 of the required torque value, and the operation can be judged by sound More practical.

9、當該控制套環31於該第一本體10上往該第二本體組20之方向移動至非鎖固位置時，該第二彈性件32係受該第三抵緣312壓抵而呈壓縮狀，該第三環體33係外張而頂抵於該第二錐形槽316處，使該控制套環31係定位於非鎖固位置上，該手即不需一直推抵該控制套環31而方便手旋動該第一本體10，該第三環體33外張而頂抵該第二錐形槽316處時，該第三環體33外張會具有聲音，亦可依其該第三環體33已發聲而確定該控制套環31係位於非鎖固位置。 9. When the control collar 31 moves on the first body 10 toward the second body set 20 to the unlocked position, the second elastic member 32 is pressed by the third abutting edge 312 to form In a compressed shape, the third ring body 33 expands outwards and abuts against the second tapered groove 316, so that the control collar 31 is positioned at the non-locking position, and the hand does not need to be pushed against the control all the time. The ring 31 is convenient to rotate the first body 10 by hand. When the third ring 33 expands outwards and abuts against the second tapered groove 316, the third ring 33 expands outwards to have a sound. The third ring body 33 has uttered and it is determined that the control collar 31 is in the unlocked position.

10、該第一本體10相對該第二本體組20旋轉時係具有聲音，該控制套環31位於非鎖固位置時亦具有聲音，二個調整扭力動作時係均具有聲音之提示聲。 10. The first body 10 has a sound when it rotates relative to the second body set 20, the control ring 31 also has a sound when it is in the unlocked position, and both have a sound prompt sound when the two torque adjustment actions are performed.

11、該第二本體21之該複數定位槽212係為十個，因此該第一本體10相對該第二本體組20轉動一圈時係會有十個該定位件34再容設於該定位槽212之聲音，亦即該第一本體10相對該第二本體組20轉動一圈時係可調整十段之扭力值。 11. The plurality of positioning grooves 212 of the second body 21 are ten, so when the first body 10 rotates one turn relative to the second body set 20, there will be ten positioning members 34 and then accommodated in the positioning The sound of the groove 212, that is, when the first body 10 rotates one revolution relative to the second body group 20, the torque value of ten levels can be adjusted.

12、當該控制套環31位於鎖固位置時，該第二彈性件32係往該第一驅動部231之反方向推頂該控制套環31，該定位件34即受該控制套環31之該第 一周面313頂抵，使該定位件34定位頂抵於任一定位槽212處，該第一本體10及該第二本體組20係因該定位件34之限制，以限制該第一本體10相對該第二本體組20轉動。 12. When the control collar 31 is in the locked position, the second elastic member 32 pushes the control collar 31 in the opposite direction of the first driving part 231, and the positioning member 34 is affected by the control collar 31 The title The peripheral surface 313 is pressed against, so that the positioning member 34 is positioned and pressed against any positioning groove 212. The first body 10 and the second body set 20 are restricted by the positioning member 34 to restrict the first body 10 It rotates relative to the second body group 20.

13、該控制套環31位於鎖固位置時，該第一本體10及該第二本體組20間係藉由該定位件34而不相互轉動，該定位件34係呈圓柱體狀，該定位件34與該定位槽212之間具有更大之接觸面積，該定位件34係具有更大之結構支撐力。 13. When the control collar 31 is in the locked position, the positioning member 34 does not rotate between the first body 10 and the second body group 20. The positioning member 34 is cylindrical, and the positioning The member 34 has a larger contact area with the positioning groove 212, and the positioning member 34 has a larger structural support force.

14、該第三本體27係套合於該第二本體21上，該限制件26亦受限於該第三本體27而不脫出該第二本體21外，該第三本體27係緊配合於該第二本體21上，該第三本體27與該第二本體21間具有很大之接觸面積，該扭力結構若不愖掉落撞擊時，該第三本體27脫開該第二本體21之機率即相當低，該限制件26受該第三本體27限制，該限制件26亦不可能掉出而具有結構之安全性。 14. The third body 27 is sleeved on the second body 21, the restricting member 26 is also restricted by the third body 27 and does not come out of the second body 21, and the third body 27 is tightly fitted On the second body 21, the third body 27 has a large contact area with the second body 21. If the torsion structure does not fall and impact, the third body 27 will be separated from the second body 21 The probability is quite low. The restricting member 26 is restricted by the third body 27, and the restricting member 26 is unlikely to fall out and has structural safety.

15、該第一環體258及該第二環體259係分別套設於該第一環溝235及該第二環溝236處，該第一環體258及該第二環體259係皆為略具彈性之材質，該驅動件23之外周面與該第一容槽211之內周面之間可有較大之公差，使該第二本體21與該驅動件23相對轉動時，該第二本體21與該驅動件23之間係減少轉動磨擦。 15. The first ring body 258 and the second ring body 259 are respectively sleeved at the first ring groove 235 and the second ring groove 236, and the first ring body 258 and the second ring body 259 are both It is made of slightly elastic material. There can be a large tolerance between the outer peripheral surface of the driving member 23 and the inner peripheral surface of the first receiving groove 211, so that when the second body 21 and the driving member 23 rotate relatively, the The rotation friction between the second body 21 and the driving member 23 is reduced.

因此本發明之扭力結構具有產業利用性、新穎性及進步性，誠能符合發明專利之申請要件，爰依法提出申請。 Therefore, the torsion structure of the present invention is industrially usable, novel and progressive, and can truly meet the requirements of an invention patent application, and an application is filed according to law.

10‧‧‧第一本體 10‧‧‧The first body

11‧‧‧容置槽 11‧‧‧Containing tank

12‧‧‧第一穿槽 12‧‧‧The first slot

14‧‧‧第一環槽 14‧‧‧The first ring groove

15‧‧‧限制槽 15‧‧‧Limit Slot

17‧‧‧第一扣槽 17‧‧‧First buckle slot

20‧‧‧第二本體組 20‧‧‧Second body group

30‧‧‧控制組 30‧‧‧Control Group

31‧‧‧控制套環 31‧‧‧Control ring

32‧‧‧第二彈性件 32‧‧‧Second elastic part

321‧‧‧第一端 321‧‧‧First end

322‧‧‧第二端 322‧‧‧Second end

33‧‧‧第三環體 33‧‧‧The third ring

34‧‧‧定位件 34‧‧‧Positioning piece

341‧‧‧第二環槽 341‧‧‧Second ring groove

35‧‧‧第四環體 35‧‧‧The fourth ring

351‧‧‧限制部 351‧‧‧Restriction Department

36‧‧‧第一扣環 36‧‧‧First buckle

40‧‧‧調整件 40‧‧‧Adjustment

Claims (13)

一種扭力結構，其係包括：一第一本體，該第一本體內部係設有一容置槽，該第一本體上係設有一第一穿槽，該第一穿槽係與該容置槽呈相通狀，該第一本體係設有一第一環槽，該第一本體係設有二限制槽，該二限制槽相對該第一穿槽係呈相對稱狀，該第一本體近該容置槽之開口係設有一第一扣槽；一第二本體組，該第二本體組係與該第一本體相套設，該第一本體轉動，使該第二本體組以自己為軸心受該第一本體轉動而轉動時，該第二本體組係具有扭力跳脫功效；一控制組，該控制組係套設於該第一本體上，該控制組係可作動至一鎖固位置及一非鎖固位置以控制該第一本體相對該第二本體組呈不轉動狀或轉動狀，該控制組位於該鎖固位置時，該第一本體及該第二本體組間係因該控制組限制，該第一本體與該第二本體組間係呈不轉動狀，該第一本體轉動而轉動該第二本體組，該控制組往該第二本體組方向移位位於非鎖固位置時，該第一本體與該第二本體組係呈轉動狀；一調整件，該調整件係容設於該容置槽內，該調整件係與該第二本體組相組設，轉動該第一本體，使該第一本體相對該第二本體組旋轉且位移時，該第一本體係同時帶動該調整件轉動且位移，該調整件轉動及位移時即可調整該第二本體組之扭力。 A torsion structure includes: a first body, an accommodating groove is arranged inside the first body, a first through groove is arranged on the first body, and the first through groove is connected to the accommodating groove In a communicating shape, the first system is provided with a first ring groove, the first system is provided with two restricting grooves, the two restricting grooves are symmetrical with respect to the first through groove, and the first body is close to the container. The opening of the slot is provided with a first buckle groove; a second body set, the second body set is nested with the first body, the first body rotates, so that the second body set takes itself as the axis When the first body is rotated and rotated, the second body group has a torsion release function; a control group, the control group is sleeved on the first body, the control group can be moved to a locked position And a non-locking position to control the first body to be non-rotating or rotating relative to the second body group. When the control group is in the locked position, the relationship between the first body and the second body group is due to the The control group is restricted, the first body and the second body group are in a non-rotating state, the first body rotates to rotate the second body group, and the control group is shifted toward the second body group in a non-locking position Position, the first body and the second body group are in a rotating shape; an adjustment piece, the adjustment piece is accommodated in the accommodating groove, the adjustment piece is assembled with the second body group, rotating When the first body rotates and displaces the first body relative to the second body group, the first system simultaneously drives the adjustment member to rotate and displace, and the second body group can be adjusted when the adjustment member rotates and displaces The torque. 如請求項1所述之扭力結構，其中，該第一本體係為一圓桿體狀，該第一本體一端係套設有一握把，該容置槽係呈中空之圓槽狀，該第一穿槽係呈長孔槽狀，該第一環槽係呈凹圓環槽狀。 The torsion structure according to claim 1, wherein the first system is in the shape of a round rod, one end of the first body is sleeved with a handle, the accommodating groove is in the shape of a hollow circular groove, and the first The through groove is in the shape of a long hole groove, and the first ring groove is in the shape of a concave circular groove. 如請求項1所述之扭力結構，其中，該第二本體組係半凸露於該第一本體外，該第二本體組係包括一第二本體、一彈性件組、一驅動件、一第一齒盤、一第二齒盤、一梢體、至少一限制件及一第三本體；該第二本體一端係設有一第一容槽，該第二本體另端之外周面係設有複數定位槽，該複數定位槽係隱於該容置槽內，該第一本體係可相對該第二本體轉動，使該第一穿槽可與每一定位槽分別相對正，該複數定位槽係呈環狀排列狀，該第二本體上係設有至少一第一容孔，該第一容孔與該第一容槽係呈相通狀，該第一容孔係設於該第一容槽之開口與該複數定位槽間；該彈性件組係容設於該第一容槽內；該驅動件係容設於該第一容槽內，該驅動件係於該第一容槽內位移，該驅動件係樞設於該第一容槽內，該驅動件一端係設有一第一驅動部，該驅動件另端係設有一連接段，該連接段端部係與該彈性件組相靠抵，該彈性件組係彈力壓抵該連接段，該連接段係與該第一驅動部相遠離，該連接段係呈圓柱體狀，該連接段上係設有一第一組設部，該第一組設部之軸心係與該連接段之軸心相互垂直，該驅動件係設有一第一端部，該第一端部係設於該第一驅動部與該連接段間；該第一齒盤係容設於該第一容槽內，該第一齒盤係呈中空之圓環體狀，該第一齒盤係設有一第一套合部，該第一套合部係套合於該連接段上，該第一套合部係呈貫穿之圓槽狀，該第一齒盤一端部係設有一第一囓合部，該第一囓合部係呈環繞排列狀齒，該第一齒盤上係設有至少一第二容孔，該第二容孔係與該第一容孔相對正，該第一齒盤另端係設有一第二端部，該第二端部係與該第一端部相對正，該第二端部與該第一端部間係具有一間隔，該第二端部係與該第一囓合部相遠離；該第二齒盤係容設於該第一容槽內，該第 二齒盤係呈中空之圓環體狀，該第二齒盤係設有一第二套合部，該第二套合部係套合於該連接段上，該第二套合部係呈貫穿之圓槽狀，該連接段係先套設該第一齒盤後依序再套設該第二齒盤，該第二齒盤係設有一第二囓合部，該第二囓合部係與該第一囓合部相囓合，使該第一齒盤與該第二齒盤係相囓合轉動，該第二囓合部係呈環狀排列齒狀，該第二齒盤係設有一第二組設部，該第二組設部係與該第一組設部相對正，該第二組設部之軸心係與該第二套合部之軸心呈相垂直狀；該第二齒盤係與該驅動件相組設，該第二齒盤於該第一容槽往該第一本體之方向移位時，該第二齒盤係帶動該驅動件移位；該梢體係穿設於該第一組設部與該第二組設部處，使該第二齒盤與該驅動件相組設；該限制件係容設於該第一容孔與該第二容孔處，使該第一齒盤與該第二本體相組設，當該第一本體及該第二本體轉動時，該第二本體係帶動該第一齒盤轉動，該第一齒盤係在帶動該第二齒盤轉動，該第二齒盤再帶動該驅動件轉動；該第三本體內係設有一第二容槽，該第二容槽係供該第二本體相容設，使該第三本體套合於該第二本體上，該限制件係受限於該第三本體而不脫出該第二本體外，該第二容槽係呈圓槽狀，該限制件係抵於該第二容槽之壁面上。 The torsion structure according to claim 1, wherein the second body set is semi-protrusively exposed outside the first body, and the second body set includes a second body, an elastic element set, a driving element, and a A first toothed disc, a second toothed disc, a tip body, at least one restricting member and a third body; one end of the second body is provided with a first receiving groove, and the other end of the second body is provided with a peripheral surface A plurality of positioning grooves, the plurality of positioning grooves are hidden in the accommodating groove, the first system can be rotated relative to the second body, so that the first through groove can be aligned with each of the positioning grooves, the plurality of positioning grooves Is arranged in a ring shape, the second body is provided with at least one first containing hole, the first containing hole is in communication with the first containing groove, and the first containing hole is provided in the first containing Between the opening of the groove and the plurality of positioning grooves; the elastic element group is accommodated in the first accommodating groove; the driving member is accommodated in the first accommodating groove, and the driving member is accommodated in the first accommodating groove Displacement, the driving member is pivoted in the first receiving slot, one end of the driving member is provided with a first driving part, the other end of the driving member is provided with a connecting section, and the end of the connecting section is assembled with the elastic member Abut, the elastic element assembly is elastically pressed against the connecting section, the connecting section is away from the first driving part, the connecting section is cylindrical, and the connecting section is provided with a first assembly part , The axis of the first assembly part and the axis of the connecting section are perpendicular to each other, the driving member is provided with a first end, and the first end is arranged between the first driving part and the connecting section ; The first toothed disk is accommodated in the first cavity, the first toothed disk is in the shape of a hollow ring, the first toothed disk is provided with a first sleeve, the first sleeve The portion is sleeved on the connecting section, the first sleeve portion is in the shape of a circular groove penetrating through, and one end of the first gear plate is provided with a first engaging portion, and the first engaging portion is arranged in a circumferentially arranged tooth , The first sprocket is provided with at least one second accommodating hole, the second accommodating hole is aligned with the first accommodating hole, the other end of the first sprocket is provided with a second end, the second The end portion is aligned with the first end portion, the second end portion and the first end portion are spaced apart, and the second end portion is away from the first meshing portion; the second toothed disk system Contained in the first container, the first The second tooth disc is in the shape of a hollow ring, the second tooth disc is provided with a second sleeve, the second sleeve is sleeved on the connecting section, and the second sleeve is penetrating The connecting section is firstly sleeved with the first chainring and then the second chainring is sleeved in sequence. The second chainring is provided with a second meshing portion, and the second meshing portion is connected to the The first meshing portion meshes, so that the first toothed disk and the second toothed disk are meshed and rotated. The second toothed disk is arranged in a ring-shaped arrangement of teeth, and the second toothed disk is provided with a second assembly part. , The second assembly part is opposite to the first assembly part, the axis of the second assembly part is perpendicular to the axis of the second assembly part; the second gear plate is aligned with The driving member is assembled together, and when the second chainring is displaced in the direction of the first cavity toward the first body, the second chainring drives the driving member to shift; the pin system penetrates the first body A set of setting portion and the second set of setting portion, so that the second chainring and the driving member are assembled; the restricting member is accommodated in the first cavity and the second cavity, so that the first A sprocket is assembled with the second body. When the first body and the second body rotate, the second system drives the first sprocket to rotate, and the first sprocket drives the second tooth When the disk rotates, the second toothed disk drives the driving member to rotate; the third body is provided with a second accommodating groove, and the second accommodating groove is compatible with the second body so that the third body fits On the second body, the restricting member is restricted by the third body and does not come out of the second body, the second container is in the shape of a circular groove, and the restricting member abuts against the second container On the wall. 如請求項3所述之扭力結構，其中，該第一容槽係呈圓槽狀，該定位槽之數目係為十個，每一定位槽係呈凹弧形槽狀，該複數定位槽係與該第一容槽之開口相遠離，每一第一容孔係呈圓孔狀，該複數第一容孔係呈環狀排列狀，該第一容孔之數目係為四個；該第一驅動部之開口係凸露於該第二本體外，該第一驅動部係呈六角槽狀，該第一組設部係貫穿該連接段，該第一組設部係呈圓穿孔狀，該第一端部係呈平面狀；該第二容孔係 與該第一套合部呈相通狀，該第二容孔係呈圓孔狀，該第二容孔之數係配合該第一容孔之數目，該第二端部係呈平面狀，該第一齒盤係呈圓體狀；該第二組設部係貫穿該第二齒盤，該第二組設部係與該第二套合部呈相通狀，該第二組設部係呈穿孔狀，該第二齒盤係呈圓體狀；該梢體係為具彈性之圓梢體狀；該限制件之數目係配合該第一容孔之數目。 The torsion structure according to claim 3, wherein the first pocket is in the shape of a circular groove, the number of the positioning grooves is ten, each positioning groove is in the shape of a concave arc groove, and the plurality of positioning grooves are Far away from the opening of the first container, each first container hole is in the shape of a circular hole, the plurality of first container holes are arranged in a ring shape, and the number of the first container holes is four; The opening of a driving part protrudes outside the second body, the first driving part is in the shape of a hexagonal groove, the first assembly part penetrates the connecting section, and the first assembly part is in the shape of a circular perforation, The first end is flat; the second cavity is It is in communication with the first sleeve portion, the second cavity is in the shape of a round hole, the number of the second cavity is matched with the number of the first cavity, the second end is in a plane shape, the The first gear plate is in the shape of a round body; the second assembly portion penetrates the second gear plate, the second assembly portion is in communication with the second sleeve portion, and the second assembly portion is In a perforated shape, the second tooth disc is round; the tip system is a round tip with elasticity; the number of the restricting member is matched with the number of the first cavity. 如請求項3所述之扭力結構，其中，該彈性件組係包括有一第一彈性件、一第一墊片、一第二墊片及一第一珠體；該第一彈性件係容設於該第一容槽處，該第一彈性件係為彈簧結構；該第一墊片係容設於該第一容槽內，該第一墊片係抵於該第一彈性件一端，該第一墊片一端係設有一第一凹部，該第一凹部係對正該第一容槽之開口，該第一凹部係呈凹弧形槽狀；該第二墊片係容設於該第一容槽內，該第二墊片係抵於該第一彈性件另端，該第一彈性件係彈抵於該第一墊片與該第二墊片間；該第一珠體係容設於該第一墊片之該第一凹部處，該第一珠體係部份凸露於該第一凹部外；該連接段端部係設有一第二凹部，該第二凹部係與該第一墊片之該第一凹部相對正，該第一珠體係容設於該第一凹部與該第二凹部間，該第二凹部係呈凹弧形槽狀，該第一墊片及該第一珠體係受該第一彈性件之彈力而壓抵於該連接段上。 The torsion structure according to claim 3, wherein the elastic element group includes a first elastic element, a first gasket, a second gasket, and a first ball; the first elastic element contains At the first accommodating groove, the first elastic element is a spring structure; the first gasket is accommodated in the first accommodating groove, the first gasket is attached to one end of the first elastic element, the One end of the first gasket is provided with a first recess, the first recess is aligned with the opening of the first container, the first recess is in the shape of a concave arc groove; the second gasket is received in the first recess In a container, the second gasket abuts against the other end of the first elastic member, the first elastic member elastically abuts between the first gasket and the second gasket; the first bead system contains At the first recess of the first gasket, the first bead system partly protrudes outside the first recess; the end of the connecting section is provided with a second recess, and the second recess is connected to the first recess. The first recess of the gasket is relatively straight, the first bead system is accommodated between the first recess and the second recess, the second recess is in the shape of a concave arc groove, the first gasket and the first The bead system is pressed against the connecting section by the elastic force of the first elastic member. 如請求項3所述之扭力結構，其中，該第一驅動部之外周面上係設有一第一環溝，該第一環溝係設於近該第一端部處，該第一環溝係呈凹環槽狀，該第一驅動部之外周面係設有一第二環溝，該第二環溝係與該第一環溝相遠離，該第二環溝係設於近該第一驅動部之開口處，該第二環溝係呈凹環槽狀，該第二環溝係凸露於該第二本體外，該第二環溝之寬度係大 於該第一環溝；該第二本體組係設有第一環體，該第一環體係套設於該第一環溝處，該第一環體係抵於該第一容槽之壁面與該第一環溝間，該第一環體係呈C形環體狀；該第二本體組係設有第二環體，該第二環體係套設於該第二環溝處，該第二環體係呈圓環體狀，該第二環體係凸露於該第二本體外；該第二容槽一側係設有一第三容槽，該第三容槽與該第二容槽係呈相通狀，該第三容槽係供該驅動件端部相容設，即該驅動件係隱於該第二本體與該第三本體內，該第二環體係抵於該第二環溝與該第三容槽之內周面之間，該第三容槽之直徑係小於該第二容槽之直徑，該第三容槽係呈圓槽狀，該第二容槽與該第三容槽間係設有一第二抵緣，該第二抵緣係與該第二本體之端部相靠抵，該第三本體係呈圓筒體狀。 The torsion structure of claim 3, wherein a first annular groove is provided on the outer peripheral surface of the first driving portion, the first annular groove is provided near the first end, and the first annular groove It is in the shape of a concave ring groove, the outer peripheral surface of the first driving part is provided with a second ring groove, the second ring groove is away from the first ring groove, and the second ring groove is provided near the first ring groove. At the opening of the driving part, the second ring groove is in the shape of a concave ring groove, the second ring groove is protruding out of the second body, and the width of the second ring groove is large In the first ring groove; the second body set is provided with a first ring body, the first ring system is sleeved at the first ring groove, and the first ring system abuts against the wall surface of the first tank and Between the first ring groove, the first ring system is in the shape of a C-shaped ring; the second body set is provided with a second ring body, the second ring system is sleeved at the second ring groove, and the second The ring system is in the shape of a circular ring, and the second ring system protrudes outside the second body; a third container is provided on one side of the second container, and the third container and the second container are formed The third accommodating groove is compatible with the end of the driving member, that is, the driving member is hidden in the second body and the third body, and the second ring system abuts against the second ring groove and Between the inner peripheral surface of the third container, the diameter of the third container is smaller than the diameter of the second container, the third container is in the shape of a circular groove, the second container and the third container A second abutting edge is arranged between the grooves, and the second abutting edge abuts against the end of the second body, and the third system is cylindrical. 如請求項3所述之扭力結構，其中，該第二本體組係設一外套環，該外套環係結合於該第二本體上，該第一本體相對該第二本體組轉動時，該外套環係可供握持以便轉動該第一本體，該外套環上係設有複數紋路，該複數紋路係呈環狀排列狀，該外套環係呈環體狀。 The torsion structure according to claim 3, wherein the second body set is provided with an outer sleeve ring, and the outer sleeve ring is coupled to the second body, and when the first body rotates relative to the second body set, the outer sleeve The ring system can be held to rotate the first body. The outer ring is provided with a plurality of lines, the plurality of lines are arranged in a ring shape, and the outer ring is in a ring shape. 如請求項1所述之扭力結構，其中，該第一扣槽係呈凹圓環槽狀。 The torsion structure according to claim 1, wherein the first buckle groove is in the shape of a concave circular groove. 如請求項1所述之扭力結構，其中，該第一本體相對該第二本體組轉動時，該控制組隨該第一本體轉動，該控制組相對該第二本體組係可發出聲響，該控制組位於非鎖固位置時係可定位於該第一本體上。 The torsion structure according to claim 1, wherein when the first body rotates relative to the second body group, the control group rotates with the first body, the control group can make a sound relative to the second body group, the When the control group is in the unlocked position, it can be positioned on the first body. 如請求項1所述之扭力結構，其中，該控制組係包括一控制套環、一第二彈性件、一第三環體、一定位件、一第四環體及一第一扣環；該控制套環係套設於該第一本體上，該控制套環係可於該第一本體上軸向移動至一鎖固位置及一非鎖固位置，該控制套環之內周面之前側係設有一彈簧 槽，該彈簧槽係延伸到該控制套環之前端面呈開口狀，該彈簧槽開口處係對向該第二本體組，該彈簧槽底部係設有一第三抵緣，該控制套環係設有一第一周面，該第三抵緣係設於該彈簧槽與該第一周面間，該第一周面之直徑係小於該彈簧槽之直徑，該第一周面係具有最小之內直徑，該控制套環係設有一第二周面，該第一周面係設於該第三抵緣與該第二周面間，該第二周面之直徑係大於該第一周面之直徑，該第一周面與該第二周面間係設有一第一錐形槽，該第一錐形槽係由該第一周面往該第二周面呈擴大狀，該第一周面係設於該第三抵緣與該第一錐形槽間，該控制套環係設有一第二錐形槽，該第二錐形槽係設於該控制套環之內周面之後側，該第二錐形槽係由該第二周面往該控制套環之後端面開口呈擴大狀，該第二錐形槽與該第二周面係呈相通狀，該第二周面係設於該第一錐形槽與該第二錐形槽間，該控制套環係依序設有該彈簧槽、該第三抵緣、該第一周面、該第一錐形槽、該第二周面及該第二錐形槽；該第二彈性件係套設於該第一本體上，該第二彈性件係彈抵於該控制套環上，該第二彈性件係使該控制套環具有由非鎖固位置移動到鎖固位置之彈力頂抵功效，該第二彈性件係容設於該彈簧槽中，該第二彈性件係設有一第一端，該第一端係對向該第一扣槽處，該第二彈性件係設有一第二端，該第二端係彈抵於該第三抵緣處；該第三環體係套設於該第一環槽處，該第三環體係隱於該控制套環內，該第三環體係略具外張彈性，該控制套環軸向移動至一鎖固位置時，該第三環體係抵於該第二周面處，該控制套環軸向移動一非鎖固位置時，該第三環體係外張而抵於該第二錐形槽處；該定位件係容設於該第一穿槽處，該定位件係隱於該控制套環內，該定位件係可卡制或不卡制於該定位槽 處，該定位件一端係設有一第二環槽，該第二環槽係呈凹環槽狀；該第四環體係套設於該第一本體及該第二環槽上，該第四環體二端部處係各設有一限制部，該限制部係容設於該限制槽處，使該第四環體不與該第一本體相脫開，且該定位件係受限於該第四環體而不脫出該第一穿槽外，該第四環體係具有彈性恢復力；該第一扣環係套設於該第一扣槽處，該第一扣環係略凸露於該第一扣槽外，該第一扣環係隱於該控制套環之該彈簧槽內，該第二彈性件之該第一端係抵於該第一扣環上。 The torsion structure according to claim 1, wherein the control group includes a control collar, a second elastic member, a third ring body, a positioning member, a fourth ring body and a first buckle ring; The control collar is sleeved on the first body, and the control collar can move axially on the first body to a locked position and a non-locked position. The inner peripheral surface of the control collar is in front of Side system with a spring The spring groove extends to the front end of the control collar to be open, the opening of the spring groove faces the second body set, the bottom of the spring groove is provided with a third abutting edge, and the control collar is provided There is a first peripheral surface, the third abutting edge is provided between the spring groove and the first peripheral surface, the diameter of the first peripheral surface is smaller than the diameter of the spring groove, and the first peripheral surface has the smallest inner diameter Diameter, the control collar is provided with a second peripheral surface, the first peripheral surface is set between the third abutment edge and the second peripheral surface, and the diameter of the second peripheral surface is larger than that of the first peripheral surface Diameter, a first tapered groove is arranged between the first circumferential surface and the second circumferential surface, and the first tapered groove expands from the first circumferential surface to the second circumferential surface, and the first circumferential surface The surface is provided between the third abutting edge and the first tapered groove, the control collar is provided with a second tapered groove, and the second tapered groove is provided behind the inner peripheral surface of the control collar The opening of the second tapered groove from the second peripheral surface to the rear end surface of the control collar is enlarged, the second tapered groove and the second peripheral surface are in communication, and the second peripheral surface is provided with Between the first tapered groove and the second tapered groove, the control collar is sequentially provided with the spring groove, the third abutting edge, the first peripheral surface, the first tapered groove, and the second tapered groove. Two peripheral surfaces and the second tapered groove; the second elastic element is sleeved on the first body, the second elastic element is elastically pressed against the control collar, and the second elastic element makes the control The collar has an elastic force to resist the effect of moving from the non-locking position to the locked position, the second elastic member is accommodated in the spring groove, the second elastic member is provided with a first end, and the first end is Opposite the first buckle groove, the second elastic member is provided with a second end, and the second end is elastically pressed against the third abutting edge; the third ring system is sleeved at the first ring groove , The third ring system is concealed in the control collar, the third ring system is slightly elastic, and when the control collar axially moves to a locked position, the third ring system abuts against the second circumference When the control collar moves axially to a non-locking position, the third ring system stretches out and abuts against the second tapered groove; the positioning member is accommodated in the first through groove, the The positioning member is hidden in the control collar, and the positioning member can be locked or not locked in the positioning groove At the position, one end of the positioning member is provided with a second ring groove, the second ring groove is in the shape of a concave ring groove; the fourth ring system is sleeved on the first body and the second ring groove, the fourth ring Each of the two ends of the body is provided with a restricting portion, and the restricting portion is accommodated in the restricting groove so that the fourth ring body is not separated from the first body, and the positioning member is restricted by the first body. The four-ring body does not fall out of the first piercing groove, the fourth ring system has elastic restoring force; the first buckle is sleeved in the first buckle groove, and the first buckle is slightly exposed Outside the first buckle groove, the first buckle ring is concealed in the spring groove of the control collar, and the first end of the second elastic member is attached to the first buckle ring. 如請求項10所述之扭力結構，其中，該控制套環係為金屬製圓環體狀，該定位件係為金屬材質，該定位件係呈圓柱體狀，該定位件一端係具有錐形體狀，該定位件設有錐形體之一端係對向該第二彈性件，該第一扣環係呈C形環體狀。 The torsion structure according to claim 10, wherein the control collar is in the shape of a metal ring, the positioning member is made of metal, the positioning member is cylindrical, and one end of the positioning member has a cone The positioning member is provided with one end of a cone facing the second elastic member, and the first buckle is in the shape of a C-shaped ring. 如請求項10所述之扭力結構，其中，當該控制套環位於鎖固位置時，該第二彈性件係往該第一驅動部之反方向推頂該控制套環，該第三環體係抵於該第二周面處，該定位件一端即受該第一周面頂抵而略隱於該第一穿槽內，使該定位件係定位頂抵於任一定位槽處而無法位移，該第一本體及該第二本體組之間係受限於該定位件，該第一本體即無法相對該第二本體組轉動，該定位件另端即係對正於該第二周面與該第一錐形槽處；該控制套環於該第一本體上往該第二本體組之方向移位而位於非鎖固位置時，該第二彈性件係受該第三抵緣壓抵而呈壓縮狀，該第三環體係會外張，該第三環體係抵於該第二錐形槽處，該控制套環係因該第三環體而定位於非鎖固位置，該定位件一端即與於該第一周面相脫開，該定位件係僅受該第四環體限制，該第一本體即可相對該第二本體組轉動，使該定位件係可 於該第二本體上位移而定位於任一定位槽處，該定位件係受該第二本體之壁面推抵而撐開該第四環體，當該定位件由其一定位槽移動至下一定位槽處時，該定位件係受該第四環體之彈性恢復力而再容設於每一定位槽時係會發出聲音，該定位件與每一定位槽之間即會產生聲音之提示聲，該定位件所產生之提示聲亦可知該定位件係已對正其一定位槽。 The torsion structure according to claim 10, wherein when the control collar is in the locked position, the second elastic member pushes the control collar in the opposite direction of the first driving part, and the third ring system When pressed against the second peripheral surface, one end of the positioning member is pressed by the first peripheral surface and is slightly hidden in the first through groove, so that the positioning member is positioned against any positioning groove and cannot be displaced , The first body and the second body set are limited by the positioning member, the first body cannot rotate relative to the second body set, and the other end of the positioning member is aligned with the second peripheral surface And the first tapered groove; when the control collar is displaced on the first body in the direction of the second body group and is in the unlocked position, the second elastic member is pressed by the third abutting edge Is compressed, the third ring system will expand outward, the third ring system abuts against the second tapered groove, the control collar is positioned at the non-locking position due to the third ring body, the One end of the positioning member is disengaged from the first peripheral surface. The positioning member is only restricted by the fourth ring body, and the first body can rotate relative to the second body set, so that the positioning member can be Displacement on the second body to be positioned at any positioning groove, the positioning member is pushed by the wall of the second body to prop up the fourth ring body, when the positioning member moves from one of the positioning grooves to the lower When a positioning groove is located, the positioning element is subjected to the elastic restoring force of the fourth ring body and then is accommodated in each positioning groove, and a sound will be generated between the positioning element and each positioning groove. The prompt sound, the prompt sound generated by the positioning element can also tell that the positioning element has been aligned with one of the positioning grooves. 如請求項3所述之扭力結構，其中，該調整件轉動及位移時即可調整該彈性件組之總長度而調整扭力。 The torsion structure according to claim 3, wherein the total length of the elastic element group can be adjusted to adjust the torque when the adjusting member rotates and displaces.

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