M422454 五、新型說明: 【新型所屬之技術領域】 本創作係與扭力起子έ士播古 構’該驅動部係包括指-種扭力起子結 件及彈性件;以及設有义:、:二驅動件、第-鎖 *第一鎖件,使該第一鎖件;第螺=處’第二鎖件並通 動。 螺紋部處係不易自然轉 【先前技術】 按吾人先前所知,習用之知士 案號U S 701376Μ9 起子結構’如美國專利 。…=利申請號0932 揭露-種可調_之起子之 部(1〇)—驅動部(2()),及^主要係為一握持 與驅動部(2 0 )之憾握持部(1 〇 ) 〇)-』=〇)’其中:該握持部(1 味》又有一插置孔(1 1 ), 整部.(3 0 )插固;該驅動部( 1 1 )可供調 (22),而驅動部(2〇)後二):端具有-套接孔 該插入段(? 更㈣為—插入段(2 3 ), η〜 固於調整部(3 〇 ),嗲詷敕… 〇)外側係為一外蓋(31),該)=:以3 依序容置有一上杈般r q 0、 c 3 1 )内由上而下 杜r〇有上抵盤(32)、一下抵盤(3^η、—π 4)、一推頂盤(3 5)、一調整盤 , 接5座(3 7 )將上述元件限位於外蓋(3 内並以- M422454 上抵盤(32)係容置在於外蓋(3 1 )内部頂面 上抵盤(3 2)之下側設有排齒( 、 且 w與另-具有排2)之3下 另’該推頂盤(35)下端係為一斜面(3),:二’ 盤(3 Θ )上端之斜面(3 6 2 ),Pi丨調整 、〇 〇 Z ),則與推頂盤(3 5 端之斜面( 3 6 2 )呈-相對應狀,令兩斜面常離時呈一 相互貼合關係,且調整盤(36)側緣設有—調整 6 4); v ° 如上所述之結構,在扳轉調整紐(3 6 4 )日寺’調整 盤(3 6)將隨之轉動,使調整盤(3 6)之斜面( 2 )推抵推頂盤(3 5 )之斜面(3 5 2 ),令推頂盤(3 5)向上移動,而推頂盤(3 5)上之彈性件(34)亦 會向上壓迫下抵盤(3 3),使下抵盤(3 3)之排齒(3 3 2)與上缝(3 2)之㈣(3 2 3 )卡合更為緊密, 因而提高與上抵盤(.32)連動之驅動部(2 〇 )之扭力 値者。 但此專利案結構之缺失係在於: 1、 該可調整扭力之起子結構係因調整扭力值係長期 性扳轉調整鈕(3 6 4 )’使該調整盤(3 6 )之斜面(3 6 2)與推頂盤(3 5)之斜面(3 5 2)即會經常性的 摩擦,致該二斜面(3 6 2) ( 3 5 2 )彼此間係會產生 損傷。 2、 該可調整扭力之起子結構係因調整扭力值長期性 板轉調整紐(3 6 4 ),而如圖所示,若使用者扳轉力道過 M422454 大或使用時因扭力起子碰撞而導致調整鈕(3 6 4 )產生 斷裂。 3、如公報之第一圖所示,凸肋(3 6 3 )與凹槽(3 5 3 )係僅為六個,如此扭力起子係僅具六個調整扭力階 段。 本創作人鑑於上述習用可調整扭力之起子結構,乃積 多年扭力起子之製造經驗及試作經驗,終獲實用性之本創 作提出。 • 【新型内容】 新型所欲解決之問題:一種扭力起子結構,該驅動部 係包括:第一驅動件、第二驅動件、第一鎖件及彈性件; 以及設有一第二鎖件,第二鎖件係鎖固於第一螺紋部處且 迫壓第一鎖件,使第一鎖件於第一螺紋部處係不易自然轉 動。 解決問題之技術手段:一種扭力起子結構,其係包括: Φ 一第一本體係設有第一穿槽、第二穿槽、第一卡制部、第 一螺紋部及第二卡制部;一驅動部係包括:第一驅動件、 第二驅動件、第一鎖件及彈性件;一第二鎖件外周面係呈 螺紋狀,該第二鎖件係鎖固於第一螺紋部處,該第二鎖件 並迫塵第一鎖件,使該第一鎖件於第一螺紋部處係不易自 然轉動;一第二本體係套設於第一本體外部,該第二本體 内周緣係設有複數第四卡制部,該第四卡制部係與第二卡 制部相結合,該第二本體一端係設有第三穿槽,第三穿槽 係與第二穿槽相對正,第三穿槽以供第一驅動件之驅動部 M422454 凸伸。 對照先前技術之功效:設有一第二鎖件,該第二鎖件 係螺合於第一本體之第一螺紋部處,該第二鎖件並迫壓第 一鎖件,使該第一鎖件於第一螺紋部處係不易自然轉動, 如此該第一鎖件係由第二鎖件所迫壓保護,第一鎖件自然 轉動之機率即相當低,扭力起子即不會有自動改變扭力之 缺失。 為使鈞局委員及熟習此項技藝人士對本創作之功效 凡全瞭解,茲配合圖式及圖號就本創作之結構、組成說明 於後,惟以下所述者僅為用來解釋本創作之實施例,並非 企圖據以對本創作做任何形式上之限制,是以凡是在本創 作之精神下,所作的任何修飾變更皆仍應屬於本創作之保 護範圍。 μ 【實施方式】 首先請參閱第-圖至第三圖所示,第一圖係立體分解 圖’第二圖係第-本體(1 0 )側視圖,第三圖係第二圖 之A-Α處剖視圖,本創作係關於—種扭力起子結構,其 係包括; 一第一本體(1G)’該第-本體(1Q)係呈筒體狀, 該第-本體(1Q )内係設有第一穿槽(丄工)及第二穿 槽(12),第一穿槽(11)與第二穿槽(12.)係^相 通狀且係連設成貫穿狀,該第—穿槽( U2)係呈圓槽狀,第一穿槽(11)直徑係= 穿槽(12),第一穿槽(11)盘第一空 、丄丄;”弟一穿槽(1 2)因直 M422454 徑差係有抵面’第-穿槽(1 1)内周緣M422454 V. New description: [New technical field] The creation department and the torsion screwdriver gentleman broadcast the ancient structure 'The drive department includes the finger-type torque driver and elastic parts; and the meaning::: two drive a first lock member of the first lock member, the first lock member, and a second lock member at the first screw portion. The threaded part is not easy to rotate naturally. [Prior Art] As far as I know, the customary case number U S 701376Μ9 is used as a US patent. ...=利application No. 0932 Revealing - the adjustable part of the screwdriver (1〇) - the driving part (2 ()), and ^ is mainly a holding and driving part (20) regret grip ( 1 〇) 〇)-』=〇)' where: the grip (1 flavor) has an insertion hole (1 1 ), the whole part (3 0 ) is inserted; the drive part (1 1 ) is available Adjust (22), and the drive part (2〇) and the second part): the end has a socket hole, the insertion section (? more (4) is the - insertion section (2 3 ), η~ is fixed to the adjustment part (3 〇), 嗲詷敕... 〇) The outer part is an outer cover (31), which is =: 3 is sequentially placed with a top-like rq 0, c 3 1) from top to bottom. ), the next plate (3^η, -π 4), one pusher plate (3 5), one adjustment plate, and 5 seats (3 7 ) to limit the above components to the outer cover (3 and with - M422454 The abutting plate (32) is placed on the inner top surface of the outer cover (3 1 ), and the lower side of the abutting plate (3 2) is provided with a row of teeth (and w and another - with row 2). The lower end of the top plate (35) is a bevel (3), and the upper end of the two 'disc (3 Θ) is inclined (3 6 2), Pi丨 is adjusted, 〇〇Z), and the top plate (3 5 end) The inclined surface (3 6 2 ) is in a corresponding shape, so that the two inclined surfaces are in a mutual abutting relationship when they are always apart, and the side edge of the adjusting plate (36) is provided with an adjustment 6 4); v ° as described above, On the turning adjustment button (3 6 4 ), the temple's adjustment plate (3 6) will rotate with it, so that the inclined surface ( 2 ) of the adjustment plate (3 6) is pushed against the inclined surface of the pusher plate (3 5 ) (3 5 2), the top plate (35) is moved upward, and the elastic member (34) on the pusher plate (35) is also pressed upward to press the lower plate (3 3) to make the lower plate (3 3) The teeth (3 3 2) are more closely engaged with the (4) (3 2 3) of the upper slit (3 2), thereby increasing the torsion of the driving portion (2 〇) that is interlocked with the upper abutment plate (.32). However, the lack of structure of the patent system lies in: 1. The adjustable torque structure of the screwdriver is due to the adjustment of the torque value by the long-term adjustment knob (3 6 4 )' to make the adjustment plate (36) bevel (3 6 2) Frequent friction with the inclined surface (3 5 2) of the pusher disc (3 5) causes damage to the two inclined surfaces (3 6 2) ( 3 5 2 ). 2, the adjustable torque of the screwdriver structure is due to the adjustment of the torque value of the long-term plate rotation adjustment button (3 6 4), and as shown in the figure, if the user turns the force through the M422454 or when used due to the torque driver collision The adjustment knob (3 6 4 ) produces a break. 3. As shown in the first figure of the bulletin, the rib (3 6 3 ) and the groove (3 5 3 ) are only six, so the torque driver has only six adjustment torque stages. In view of the above-mentioned conventional use of the adjustable torque actuator structure, the creator has accumulated many years of experience in the manufacture of the torque screwdriver and the experience of the trial, and finally achieved the practicality of this creation. • [New content] A new type of problem to be solved: a torsion driver structure comprising: a first driving member, a second driving member, a first locking member and an elastic member; and a second locking member, The two locking members are locked at the first threaded portion and urge the first locking member so that the first locking member is not easily rotated naturally at the first threaded portion. Technical solution for solving the problem: a torsion driver structure, comprising: Φ a first system provided with a first through groove, a second through groove, a first clamping portion, a first thread portion and a second clamping portion; a driving part includes: a first driving member, a second driving member, a first locking member and an elastic member; a second locking member has a threaded outer peripheral surface, and the second locking member is locked at the first thread portion The second lock member forces the first lock member to make the first lock member hard to rotate naturally at the first thread portion; a second system is sleeved on the outside of the first body, and the second body periphery The fourth clamping portion is coupled to the second clamping portion, the second body is provided with a third through slot at one end, and the third through slot is opposite to the second through slot The third through slot is for the driving portion M422454 of the first driving member to protrude. According to the prior art, a second lock member is screwed to the first threaded portion of the first body, and the second lock member presses the first lock member to make the first lock The piece is not easily rotated naturally at the first threaded portion, so that the first lock member is pressed and protected by the second lock member, and the probability of the first lock member rotating naturally is relatively low, and the torque driver does not automatically change the torque. Missing. In order to make the members of the bureau and those skilled in the art fully understand the effects of this creation, the structure and composition of the creation are described in conjunction with the drawings and drawings, but the following are only used to explain the creation. The examples are not intended to impose any form of restriction on the creation of the creations, and any modifications made in the spirit of this creation should remain within the scope of this creation. μ [Embodiment] First, please refer to the first to third figures. The first figure is an exploded view. The second figure is the side view of the first body (1 0), and the third figure is the A of the second figure. In the cross-sectional view, the present invention relates to a torque actuator structure, which includes: a first body (1G) 'the first body (1Q) is in the shape of a cylinder, and the first body (1Q) is provided a first through slot (completed) and a second through slot (12), the first through slot (11) and the second through slot (12.) are connected to each other and are connected in a through shape, the first through slot (U2) is a circular groove shape, the first through groove (11) diameter system = through groove (12), the first through groove (11) disk is the first empty, 丄丄; "the young one through the groove (1 2) Straight M422454 diameter difference has the inner circumference of the 'first-through groove (1 1)
二)有 rr(i3;係== 3)内係無第一螺紋部(14 二第-卡制部U 係設有第二卡制部(15),第二卡制:體J 〇)外周緣 狀; U(15)係呈凸肋 一驅動部(2 〇 ), 動件(2 1 )、第-° )係包括:第一驅 彈性件心)動件(22)、第-鎖件(川及 該第-驅動件(21)係 1 )係容置於第一太舻r , A、 狀該第—驅動件(2 該第-驅動件(2n—)之第—穿槽(11)内, 第-驅動件(2 i )另广係設有第—齒面(2 1 1 ),該 (21)另缒係設有驅動部(2 Ί (212)係穿伸於第二穿槽(12)): 2)係凸露於第-本體( ^ (2 1 該第二驅動件(2 2 )係呈圓體狀 二 2)係容置於第—穿槽(i i )内, 苑動件(2 ;端係設有第二齒面(221)’該二齒V動件(= 第-驅動件(21)之第一齒面(211 2八21)與 ^動件(2 2)外周面係凸設有複數第三卡制; ^ )’第三卡制部(2 2 2 )係呈凸肋狀,該第三卡口 (邮2 2 )係結合於第—本體(1G)之第— 。2 内’該第二驅動件(22)另端係凸設有第1二= M422454 3 ); 該第一鎖件r 0 係凸設有第H j1係呈圓體狀,該第—鎖件(2 3) 部(2 3 1 )係呈 1 ) ’第一鎖件(2 3)與第二端 面,該第-鎖件(二同f徑之圓體狀且因直徑差係有抵 c p Q 3 )係设有第一結合槽(2 3 2 ),第 係編乂 貫穿狀,第-結合槽⑴2) 鎖件(2 3)外周^槽*( 2 3 2 )係呈六角槽狀,第一 鎖件(2 3 )係螺鎖二:有f二螺紋部(2 3 3 ) ’使第一 4)處;螺鎖於第—本體(1〇)之第-螺紋部(1 5亥彈性件(2 4) 一端係套設於第-端部(2 2 3 ) 該彈性件(24)另端係套設於第二端部(231) ,第:=2〇),該第二鎖件(3〇)係呈圈體狀, 以第一鎖件(3 0)外周面係呈螺紋狀,該第二鎖件(3 0)係鎖固於第一本體(;◦)之第一螺紋部( 該第二鎖件(3 0)並迫壓第―鎖件(2 3 ),使該第 件(2 3)於第-螺紋部(14)處係不易自缺轉動,該 第二鎖件(3G)中央係設有第二結合槽(3 ^^ 結合槽(3 1)係為貫穿狀,該第二結合槽( 第一結合槽(232)相同形狀且係為相同規格尺寸第 二結合槽(3 1 )係呈六角槽狀,第二鎖件(3 =係有三個小圓孔槽以供—工具套合於三個小圓孔槽處 M422454 一第二本體(4 Q )’該第二本體(4 Q )係呈握把狀, 該第二本體(4 0)係套設於第-本體(1 0)外部,該 第-本體(4 0)内周緣係設有複數第四卡制部(4工), 第四卡制。ρ (4 1 )係呈溝槽狀,該第四卡制部(4 1 ) 係與第一本體(1 0)之第二卡制部(1 5)相結合,該 第一本體(4 0 ) -端係設有第三穿槽(4 2 ),第三穿槽 (4 2)係與第二穿槽(1 2)相對正且相連通,第:穿 =2)以供第-驅動件(川之驅動部(2ί;) -本;^體(5 〇 )’該第三本體(5 0 )係套設於第 =體上10)之第一穿槽(11)開口處,且二者間係 ;、)、入结構’該第三本體(5 ◦)係凸設有套合端(5 二 C (處 2),二9 ?三本體(5〇)係設有-卡槽(5 =卡槽(52)以供-扁料具套㈣取下第三本體(5 -起子套接件(6 Q ),該 有套管,套管U綠供祕起句,| ( 62—端係 :),端—端,六角端係套二= 係側=閱第第^圖;·;^本創作之立體組合圖,第五圖 該第-驅動件2=B~B處剖視圖,當組合時, -本體(】二丄)與第二雜動件(2 2)係容置” (1〇)之第-穿槽(11)内,且使第-齒面2 9 1 1 )與第二齒面(2 ? 1 ) 4日#人 係套入第—穿 相喷合,該彈性件(24) 』=(14)上,使彈性件(24)設 圖所示)及第-鎖件(23)間,組合至此印如= 該第二鎖件(3〇)再螺合於第一 。第-鎖件(30)並迫壓第一鎖件23 )上’ 件(2 3 )於楚一^ 羯件(2 3 ),使該第一鎖 第七圖所示處係不易自然轉動,如 之苐-穿〜係套合於第—本體(10) 合。 1)Μσ處’如第八圖所示,而完成其組 分解ί繼閱第九圖所示,係本創作第二實施例之立體 ιΤ);:^ (2 5 )、。 2 1 )相嚙合處係設有複數環珠體 第-十圖所示,係為本創作第三實施例,再輔助 5 實施例中,第一圖之第二本體(4〇) 把狀。 而第十圖之第二本體(40)係呈握 第十::二閱:十—圖所示’係為本創作第四實施例, 實例剖視圖,再辅助第一圖比較之,該 實"例中,該第—本體(1 0 )設有第三螺纹部(i 6), 弟二螺紋部(16)係與第—穿槽(Η)相通,該第二 鎖件(3〇)凸設有顧面(32>該第二_(4Q) M422454 係設有第四穿槽(43),第四穿槽( 紋部(1㈠,設有-第三鎖件(70)H(t螺 :螺合於第三螺紋部(16)上,第三鎖件-(鎖 、、迫屢於第二鎖件(3 Q )之頂磨面(3 :鎖件(3 0 )係不易鬆開,第一鎖件(2 3 )亦不易 本創作扭力起子結構之優點係在於·· 請再輔以第七圖所示,設有一第二鎖 合於第一蟫纹邻「, C d ϋ)係螺 第—L ^二鎖件(3〇)並迫壓 4)戌 ’使第—鎖件(2 3)於第-螺紋部(i 4)處係不易自然轉動’請再辅以第八圖所示, 體(5 0 )之套合端(5 i #套士 以一 之第二套合槽(3 D處,==鎖件(3〇) 然轉動,如此第一鎖件(23f=(3〇)亦避免白 第三卿◦)二1以Π二鎖件(30)及 f又忒保5蔓,第一鎖件(2 3)自缺轉 2機率即相當低’扭力起子即不會有自動改變扭力I缺 新V:上所Ϊ w本創作之扭力起子結構具有產業利用性、 及進步性’誠能符合新型專利之申請要件,依法提 11 M422454 【圖式簡單說明】 第一圖 '係本創作扭力起子結構之立體分解圖< 第一圖、係本創作第一本體之側視圖。 第三圖、係本創作第二圖之A —A處剖視圖。 第四圖、係本創作扭力起子結構之立體組合圖。 第五圖、係本創作扭力起子結構之侧視圖。 第六圖、係本創作第五圖之B — B處剖視圖。 第七圖、係本創作組合中之B — B處剖視圖。 第八圖、係本創作組合後之B 一 b處剖視圖。 第九圖、係本創作第二實施例之立體分解圖。 第十圖、係本創作第三實施例之立體分解圖。 第十一圖、係本創作第四實施例之立體分解圖。 第十一圖、係本創作第四實施例之剖視圖。 【主要元件符號說明】 (10)第一本體 (12)第二穿槽 (1 4)第一螺紋部 (1 6)第三螺紋部 (2 0)驅動部 (211)第一齒面 (2 2)第二驅動件 (2 2 2 )第三卡制部 (2 3)第一鎖件 (2 3 2)第一結合槽 (11)第一穿槽 (1 3)第一卡制部 (15)第二卡制部 (2 1)第一驅動件 (2 1 2)驅動部 (2 2 1)第二齒面 (2 2 3)第一端部 (2 3 1)第二端部 (2 3 3 )第二螺紋部 12 M422454 (2 4)彈性件 (.3 Ο )第二鎖件 (3 2)頂壓面 (4 0)第二本體 (41)第四卡制部 (4 3 )第四穿槽 (5 0)第三本體 (5 2)卡槽 (6 0)起子套接件 (2 5)環珠體 3 1 )第二結合槽 (4 2)第三穿槽 (51)套合端 (7 0)第三鎖件 13b) There is no first thread part in rr (i3; system == 3) (14 second - card part U is provided with second card part (15), second card type: body J 〇) outer circumference a rib (U) is a rib-drive portion (2 〇), and the moving member (2 1 ), the first-degree includes: a first drive elastic member) a moving member (22), a first-lock member (Chuan and the first drive member (21) is 1) is placed in the first sun 舻r, A, the first drive member (2 the first drive member (2n-) first through the slot (11 Inside, the first driving member (2 i ) is additionally provided with a first tooth surface (2 1 1 ), and the (21) is further provided with a driving portion (2 Ί (212) is threaded through the second wearing The groove (12)): 2) is exposed in the first body (^ (2 1 the second driving member (2 2 ) is in the shape of a circle 2) and is placed in the first through groove (ii), The moving parts of the court (2; the end is provided with a second tooth surface (221)' the two-tooth V-moving member (= the first tooth surface of the first-drive member (21) (211 2 eight 21) and the moving member (2 2) The outer peripheral surface is convexly provided with a plurality of third card systems; ^) 'the third carding portion (2 2 2 ) is ribbed, and the third bayonet (mail 2 2) is coupled to the first body ( 1G)第—.2 inside' the second drive member (22) The first locking member r 0 is convexly provided with the first H j1 system in a circular shape, and the first locking member (23) is in the form of a circle (2 3 1 ) 1) 'The first lock member (2 3) and the second end face, the first lock member (the same as the round diameter of the same diameter and having a diameter difference of cp Q 3 ) is provided with the first joint groove (2) 3 2 ), the first series is braided, the first-joining groove (1) 2) The locking member (2 3) is surrounded by a hexagonal groove, and the first lock (2 3 ) is a screw lock. : There are two threaded parts of the f (2 3 3 ) 'make the first 4); the screw is locked to the first threaded part of the first body (1〇) (the one end of the elastic member (2 4) is set at the end - end portion (2 2 3 ), the other end of the elastic member (24) is sleeved on the second end portion (231), the first: (= 2〇), and the second locking member (3〇) is in a ring shape. The outer peripheral surface of the first lock member (30) is threaded, and the second lock member (30) is locked to the first thread portion of the first body (the second lock member (3 0) And pressing the first lock member (2 3 ) so that the first member (23) is not easily rotated at the first thread portion (14), and the second lock member (3G) is provided with a second center Bonding groove (3 ^^ knot The joint groove (3 1) is a through-type, and the second joint groove (232) has the same shape and is of the same size. The second joint groove (3 1 ) is a hexagonal groove shape, and the second lock member (3 = there are three small circular holes for the tool - the sleeve is fitted to the three small circular holes M422454 a second body (4 Q )' the second body (4 Q ) is in the shape of a grip, the first The two bodies (40) are sleeved on the outside of the first body (10), and the inner circumference of the first body (40) is provided with a plurality of fourth clamping portions (4 work), and a fourth card system. ρ (4 1 ) is groove-shaped, and the fourth clamping portion (4 1 ) is combined with the second clamping portion (15) of the first body (10), the first body (40) - the end is provided with a third through groove (42), the third through groove (42) is relatively positive and connected to the second through groove (12), and the first: through: 2) for the first drive (Kawasuke's drive unit (2 ί;) - this; ^ body (5 〇) 'the third body (50) is sleeved on the first body 10) the first slot (11) opening, and Between the two;,), into the structure 'the third body (5 ◦) is convex with a sleeve end (5 2 C (2), 2 9 ? 3 body (5 〇) is equipped with - card slot (5 = card slot (52) for the - flat material sleeve (four) to remove the third body (5 - screwdriver socket (6 Q), the sleeve, the sleeve U green for the secret sentence, | ( 62 - End:), end-end, hex end sleeve 2 = system side = read the first ^ figure; ·; ^ the three-dimensional combination of the creation, the fifth picture of the first-driver 2 = B ~ B section view When combined, the - body (] two) and the second mob (2 2) are housed in the first through slot (11), and the first tooth surface 2 9 1 1 ) with the second tooth surface (2 ? 1) 4 days #人套The first-phase-spraying, the elastic member (24) 』=(14) is disposed between the elastic member (24) and the first-lock member (23), and the combination is printed as the second lock The piece (3〇) is screwed to the first. The first lock member (30) and the first lock member 23) is pressed onto the first piece (2 3 ) to the first piece (2 3 ) to make the first The lock shown in the seventh figure is not easy to rotate naturally, such as the 苐-wear-tie fits on the first-body (10). 1) Μσ at 'as shown in the eighth figure, and completes its group decomposition ί 继The ninth figure shows the stereoscopic Τ of the second embodiment of the present invention;: ^ (2 5 ), 2 1 ) the meshing portion is provided with a plurality of ring beads, as shown in the tenth figure, which is the creation In the third embodiment, in the fifth embodiment, the second body (4〇) of the first figure is shaped. The second body (40) of the tenth figure is held by the tenth:: two reading: ten-graph The 'shows the fourth embodiment of the creation, the example cross-sectional view, and then assists the comparison of the first figure. In the example, the first body (10) is provided with a third thread portion (i 6), The two threaded portion (16) is in communication with the first through slot (Η), the second locking member (3〇) There is a face (32); the second _(4Q) M422454 is provided with a fourth through groove (43), and the fourth through groove (the first portion (1) is provided with a third lock member (70) H (t screw) : screwing on the third threaded portion (16), the third lock member - (locking, forcing the top grinding surface of the second lock member (3 Q) (3: the lock member (30) is not easy to loosen The first lock member (23) is also not easy to be used. The advantage of the twisted screwdriver structure is that it is supplemented by the seventh figure, and a second lock is attached to the first ridge pattern ", C d ϋ". The snail first - L ^ two locks (3 〇) and forced to press 4) 戌 'to make the first lock (2 3) at the first threaded part (i 4) is not easy to rotate naturally 'please supplemented with the eighth As shown in the figure, the sleeve end of the body (5 0 ) (5 i #套士一一第二套槽 (3 D, == lock (3〇), then the first lock (23f = (3〇) also avoids the white third ◦ ◦) 2 1 Π 2 locks (30) and f 忒 5 vines, the first lock (2 3) from the lack of 2 probability is quite low 'torque screwdriver That is, there will be no automatic change of the torsion force I lack of new V: Shangyu Ϊ w This creation of the torsion screwdriver structure has industrial utilization, and progressive 'cheng can meet the new patent The application requirements, according to the law, 11 M422454 [Simple description of the diagram] The first picture 'The three-dimensional exploded view of the torsion screwdriver structure of the present creation> The first picture, the side view of the first body of the creation. The third figure is a cross-sectional view of A-A of the second figure of the present creation. The fourth figure is a three-dimensional combination diagram of the torsion screwdriver structure. The fifth figure is a side view of the structure of the torque driver. The sixth picture is a cross-sectional view of B-B in the fifth picture of this creation. The seventh figure is a cross-sectional view of B-B in the creation combination. The eighth figure is a cross-sectional view of B-b after the combination of the creations. The ninth drawing is an exploded perspective view of the second embodiment of the present creation. The tenth figure is an exploded perspective view of the third embodiment of the present creation. The eleventh figure is a perspective exploded view of the fourth embodiment of the present creation. Figure 11 is a cross-sectional view showing a fourth embodiment of the present creation. [Description of main component symbols] (10) First body (12) Second slot (14) First threaded portion (16) Third threaded portion (20) Drive portion (211) First tooth surface (2) 2) second driving member (2 2 2) third locking portion (23) first locking member (2 3 2) first coupling groove (11) first through groove (13) first locking portion ( 15) second clamping portion (21) first driving member (2 1 2) driving portion (2 2 1) second tooth surface (2 2 3) first end portion (2 3 1) second end portion ( 2 3 3) second threaded portion 12 M422454 (2 4) elastic member (.3 Ο) second lock member (32) pressing surface (40) second body (41) fourth clamping portion (4 3 ) fourth through slot (50) third body (52) card slot (60) screwdriver socket (2 5) bead body 3 1) second coupling slot (42) third slot (51) ) The end of the sleeve (70) the third lock 13