TWM425030U - Torque screwdriver structure - Google Patents

Torque screwdriver structure Download PDF

Info

Publication number
TWM425030U
TWM425030U TW100220805U TW100220805U TWM425030U TW M425030 U TWM425030 U TW M425030U TW 100220805 U TW100220805 U TW 100220805U TW 100220805 U TW100220805 U TW 100220805U TW M425030 U TWM425030 U TW M425030U
Authority
TW
Taiwan
Prior art keywords
driving member
groove
driving
slot
shape
Prior art date
Application number
TW100220805U
Other languages
Chinese (zh)
Inventor
yu-dong Zhu
Original Assignee
yu-dong Zhu
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by yu-dong Zhu filed Critical yu-dong Zhu
Priority to TW100220805U priority Critical patent/TWM425030U/en
Publication of TWM425030U publication Critical patent/TWM425030U/en

Links

Landscapes

  • Details Of Spanners, Wrenches, And Screw Drivers And Accessories (AREA)

Description

M425030 五、新型說明: 【新型所屬之技術領域】 本創作係與扭力起子結構有關,尤指1扭力起子社 ;ΓΓ=及ΓΤ及第二驅動件,旋轉調整; 整件而調整彈性件之長度而具調 【先前技術】 案號==6=扭:起子結構,如美國專利 9直射i 3 7 6 9 2 ’台灣專利號Μ2 5 5 7 6 2專似稱:可調整扭力之起子 種可調整杻力之起子結構, ::=揭露- 動部2 0,及一連,士握拄却,η…握持邛1 〇、-驅 0,其中:該與驅動部20之調整部3 孔u可供調4;=端設有-插置孔…該插置 接孔22,而驅㈣2=;該驅動部20前端具有-套 段2 3可° G錢則m段23,該插人 :該調整部_係為 2、-下抵盤33、=上而下依序容置有-上抵盤3 整盤3 6,龙以_接人性件34、-推頂盤3 5、〜調 内,而該上抵邀3 將上述元件限位於外蓋3 1 上抵盤3 2之下置在於外蓋3 1内部頂面上,且 具有排齒3 3 2 :;抿’該排齒3 2 3與另〜 端係為一斜面3 κ 〇 3卡。,另,該推頂盤3 352’而調整盤36上端之斜面36^下 3 影^5030 則$推頂盤3 5下端之斜面3 5 2呈一相對應狀,令兩 面常態時呈-相互貼合關係,且調整盤3 6側 1 ^ 整鈕364 ; 調 如上所述之結構,在扳轉調整鈕3 6 4時,調 ^隨之轉動,使調整盤3 6之斜面3 6 2推抵推^ ?之斜面3 5 2,令推頂盤3 5向上移動,而推頂盤^ 之彈性件3 4亦會向上壓迫下抵盤3 3,使下抵盤 3 2與上抵盤3 2之排齒3 2 3卡合更為緊密, 而提南與上抵盤3 2連動之驅動部2 Q之扭力値者 但此專利案結構之缺失係在於: 者。 1、調整扭力值時係長期性扳轉調整 整盤3 6之斜面3 6 2師職使調 常性的摩擦,致二上=::面3 5 2即會經 傷。 2及3 5 2魏pa!係會產生損 2該可調整扭力之起子結構係因調 扳轉調整钮3 6 4 ’而如第三圖所示,若使用者』= 過大或使用_扭力起子碰m 使用者扳轉力道 裂。 起子碰撞而導致調整鈕3β4產生斷 3、如公報之第一 六個,扭力= 【新型内容】 新型所欲解決之問題:— 件、第一驅動件及第二 種扭力起子結構係設有調整 驅動件,旋轉調整件帶動第一驅動 件及第二驅動件 〆】、〇 而調整彈性 件之長度而具調整扭力 值大 -第解ίΓ之技術手段:1㈣起子結構,其係包括: 二Γ 系設有第一穿槽、第二穿槽、第三穿槽、第 二 螺紋部、第二螺紋部及第一固設部;一第 =結合於第一穿槽内一驅動部係包括:第一丄 第二本體内,該第一驅動件一端係設有第一齒牛 一驅動件另端係設有靠抵面;第二驅動件係容置 二-㈣,該第二驅動件—端係财第二齒面以與第 冰於=相喷合’鎖件係螺鎖於第—螺紋部處;彈性件係套 1第二驅動件與鎖件間;第三驅動件係與第-驅動件相 二調整件—端係抵於靠抵面上,該調整件外周面係 言又有=三觀部_鎖於H㈣處,該輕件設有第 ’第-職絲称力值之大小且係凸伸 體外。 + 對照先前技術之功效:該鎖件係螺合於第—本體之驾M425030 V. New description: [New technical field] This creation department is related to the structure of torsion screwdriver, especially 1 torsion screwdriver; ΓΓ = and ΓΤ and the second drive member, rotation adjustment; adjust the length of the elastic member And the adjustment [previous technology] case number == 6 = twist: starter structure, such as the US patent 9 direct i 3 7 6 9 2 'Taiwan patent number Μ 2 5 5 7 6 2 specifically called: adjustable torque starter species Adjusting the force of the kicker structure, ::= expose - the moving part 20, and one, the grip, but the η, the grip 邛1 -, - drive 0, where: the adjustment part 3 of the drive unit 20 hole u It can be adjusted to 4; the end is provided with an insertion hole... the insertion hole 22, and the drive (4) 2=; the front end of the drive portion 20 has a sleeve segment 2 3 can be G money then m segment 23, the insertion: The adjustment part _ is 2, - the lower plate 33, = the top and the bottom are sequentially accommodated - the upper plate 3 is the whole disk 3 6, the dragon is _ connected to the person 34, the push plate 3 5, ~ tune The upper portion 3 is disposed on the outer cover 3 1 under the abutment plate 3 2 on the inner top surface of the outer cover 3 1 and has a row of teeth 3 3 2 :; 2 3 and the other ~ end is a bevel 3 κ 〇 3 card. In addition, the ejector disk 3 352 ′ and the upper surface of the disk 36 are inclined 36 ^ 3 shadows ^ 5030, and the slant surface 3 5 2 of the lower end of the ejector disk 3 5 is in a corresponding state, so that the two sides are in a normal state - mutual Fit the relationship, and adjust the disc 3 6 side 1 ^ full button 364; adjust the structure as described above, when the adjustment knob 3 6 4 is turned, the adjustment will be rotated accordingly, so that the inclined surface of the adjustment disc 3 6 is pushed The slanting surface of the slanting surface 3 5 2 causes the ejector disc 35 to move upward, and the elastic member 34 of the ejector disc 2 also presses down the lower yoke 3 3 to make the lower yoke 3 2 and the upper yoke 3 The 2 teeth 3 2 3 are more tightly engaged, and the twisting force of the driving part 2 Q of the south and the upper plate 3 2 is the lack of the structure of the patent. 1. Adjust the torque value for long-term adjustment. The whole plate 3 6 slope 3 6 2 division makes the friction of the adjustment, the second is =:: face 3 5 2 will be injured. 2 and 3 5 2 Wei pa! The system will produce damage 2. The adjustable torque structure is due to the adjustment knob 3 6 4 ', as shown in the third figure, if the user 』 = too large or use _ torque screwdriver Touch the m user to turn the force. The collision of the screwdriver causes the adjustment button 3β4 to break. 3, as the first six of the bulletin, the torque = [new content] The new problem to be solved: - the first drive member and the second torque driver structure are adjusted The driving member, the rotation adjusting member drives the first driving member and the second driving member, and adjusts the length of the elastic member to adjust the torque value to be large - the technical solution of the first solution: 1 (four) screwdriver structure, the system includes: The first through slot, the second through slot, the third through slot, the second threaded portion, the second threaded portion and the first fixing portion are provided; a first coupling to the first through slot and a driving portion includes: In the first second body, the first driving member is provided with a first tooth-bearing member at one end and abutting surface at the other end; the second driving member is provided with two-(four), the second driving member- The second tooth surface of the end is made to be sprayed with the ice on the first phase, and the lock member is screwed to the first thread portion; the elastic member sleeve 1 is between the second drive member and the lock member; the third drive member is - the driver member phase two adjustment member - the end is against the abutment surface, and the outer peripheral surface of the adjustment member has a = three views The part _ is locked at H (four), and the light piece is provided with the magnitude of the first-ranking wire and is protruding outside the body. + Compared with the effect of the prior art: the lock is screwed to the first body

Hi部上’如此螺鎖式之結構’使調整扭力時係可固定 扭力^之基礎點’-般而言彈性件之彈力係很難有固定 值’藉由鎖件之螺鎖而使基礎扭力均為固定值及其於公 ===由鎖件之螺鎖,使該扭力起子岐時具有不同扫 力基礎值以符合各操作者❹之所需H鎖件螺4 二:=部處,旋轉調整件時’該鎖件係不會於第; 部處移’第一驅動件及第二驅動件移仇越靠人於株 時係扭力值趟大,整扭力時,只需旋轉調整二鮮又 M425030 便利,且一般使用者係慣用一手握持扭力起子,即可直接 使用左手旋轉調整件來調整扭力值,實用性係較確實。 為使鈞局委員及熟習此項技藝人士對本創作之功效 几全瞭解,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】 肩尤秸爹閲第一圖至第三圖所示,第一圖係立體分解 圖’第二圖係第-本體(1〇)之侧視圖,第三圖係第二 圖之A - Α處聽圖,本創作侧於—種扭力起子結構, 其係包括; 一第一本體(1 0)’該第-本體(1 0 )係呈握把狀 第本體(1 0)係供手握持旋動,該第一本體(1 〇) 内係設有第-穿槽(11)、第二穿槽(12)及第三穿和 (16)’該第一穿槽(11)、第二穿槽(12)及第三 穿槽(16)係以目触且係依序連設成貫?狀,該第一 穿槽(1 1 )、第二穿槽(1 2)及第三穿槽(i 6 )係! 圓槽狀該第一穿槽(11)直徑係大於第 2' 第一穿槽(1 1 )啟第一 , η、泊士 3、丄2 ) ^ /、第一穿槽(12)因直徑差係有抵面 二,該第二U内周緣係環設有複數第一卡制部(1 彳部(1 3 )係槽溝狀,該第一穿槽(丄工 端部處係設有第一螺紋部(14),且該第-卡制部(1 3 内係無第一螺纹Λβ f n j、 m -空_ f Γ 4 ),該第一螺紋部(14)係遠離 曰 2 ),該第二穿槽(1 2 ) —端内周緣係設有 螺、、文邓(1 5 ) ’第二螺紋部(1 5 )係設於第二穿槽 U2)與第三穿槽(16)間,該第三穿槽(16)直 握係大於第二穿槽(1 2),該第-本體(1 〇)-端係設 有第一固设部(1 7 ),該第-固設部(1 7 )係位於第三 穿槽(1 6) Μ 口處外周緣,第一固設部(工”係呈外 螺紋狀’該第-本體(! Q )另端係凸設有_直徑較小之 圓凸部(1 8 )’該第—穿槽(1 1 )係貫穿圓凸部(1 8), 該圓凸部(18)與第—本體(1 Q)連接處係設有第-套合部(1 8 1 )’該第—套合部(i 8 i )係呈環圈凹緣 狀; -第二本體(1 9)’該第二本體(丄9 )係呈圈體狀, 該第二本體(1 9)係套設於第一本體(1 〇)之第一穿 槽(1 1 )内,該第二本體(1 9)外周緣係設有複數第 二卡制部(1 9 1 ),該第二卡制部(^ 9 1 )係呈凸肋狀, 該第二卡制部(1 9 1 )係與第一本體(1 〇)之第一卡 制部(1 3)相結合,第二本體(丄9)内周緣係設有複 數第三卡制部(1 9 2),第三卡制部(i 9 2)係呈槽溝 狀; 一驅動部(2 0 )’該驅動部(2 〇 )係包括:第一驅 動件(2 1 )、第二驅動件(22)、鎖件(23)、彈性件 (2 4)、第三驅動件(2 6 )及螺合件(2 7); 該第一驅動件(21)係呈圓體狀,該第一驅動件(2 J ;係容置於第二本體(1 9 )内且係可於第二本體(;L 内位移一預定距離,該第一驅動件(2 1 ) —端係設 ::-齒面(211)’該第一驅動件(21)另端係設有 -面(2 1 2 )’該第-驅動件(2 i )係設有第四穿槽 狀2 13)’第四穿槽(2 13)係呈貫穿狀且係呈扑圓槽 該第二驅動件(2 2 )係呈圓體狀,該第二驅動件(2 係容置於第二本體(1 9)内且係可於第二本體(丄 2内位移-預定距離,該第二驅動件(2 2) 一端係設 :第:齒面(221)’第二齒面(221)係與第一驅動 (9ο、1)之帛齒面(211)相喷合,該第二驅動件 )外周面係凸設有複數第四卡制部(2 2 2 ),該第 =:上^2)係呈凸肋狀’該第四卡制部(2 2 2 ) 合於第二本體(19)之第三卡制部(192) 3)4-驅動件(22)另端係凸設有第—端部(22 該鎖件(2 3)係呈圓體狀,該鎖件 =紋狀,該鎖件(23)係螺鎖於第 部(2 ΓΠΊ4 )處鎖件(2 3 )係凸設有第二端 K231),該鎖件(23)與第二 二不同直徑之圓體狀,鎖件(2 3)與第二二= ^徑差係設有抵面,該鎖件(2 3 )係設有第一社 ( 2 3 2 ),第-結合槽( 2 3 2 )係、呈貫穿 、"曰 狀,第-結合槽(2 3 2 )係呈六角槽狀以供六且= M425030 動之; 該彈性件(24) 一端係套設於第1部 J,該彈性件(2 4)另端係套設於 處’該彈性件(24)之彈性頂力係使該第二齒Γ(22 。係與第一驅動件(21)之第一齒面(2 =二 =三駆動件(26)係呈長桿體狀,該第三驅動件 (26)-端係穿伸於第二穿槽(1 6)處,該第三驅動件(26)總邱後几认茅槽\ 、ab)舳部係凸伸於第一本體(1 〇)外,該第三驅動件(26)另端係凸伸有凸桿(26 1 )’該凸桿(2 6 1 )係套合於第—驅動件(2丄)之第 :穿槽(213)内,該凸桿(261)外周緣係設有外 螺紋; 該螺合件(2 7)係容置於第一驅動件(2工)内, 螺合件(2 7)係螺合於第三驅動件(2 6)之凸桿(2 6 1 )上’使該第-驅動件(2 i)及第三驅動件(2 6) 相固設; -蓋體(5 G )’該蓋體(5 Q )係套設於第—本體(丄 〇)之圓凸部(18)外周緣處,該蓋體(5〇)内周面 處係設有第二套合部(51 )m合部(51)係至 環圈凸緣狀’該第二套合部(5工)與第一本體(丄〇) 之圓凸部(1 8)上之第一套合部(i 8 i)相套合卡抵, 該第二套合部(5 1)與第一套合部(工8丄)間亦需使 用外力而相脫開,使該蓋體(5〇)移出圓凸部(18) 9 外; 一調整件(60),該調整件(60)係呈圓筒狀,該 調整件(6 0)係套設於第一本體(χ 0)之第二穿槽(工 2)及第三穿槽(1 6)内周緣,調整件(6 0)係設有 第五穿槽(61)’該第五穿槽(61)係呈貫穿狀,該第 五穿槽(6 1 )係供驅動部(2 〇)之第三驅動件(2 6) 穿伸,該調整件(6 0) —端係抵於第一驅動件(2 1 ) 之靠抵面(212)上,調整件(60)略中段處外周面 係設有第三螺紋部(6 2 ),第三螺紋部(6 2 )係螺鎖於 第一本體(1 0)之第二螺紋部(1 5)處,調整件(g 0 )另端外周緣係設有旋動端(6 3 ),旋動端(6 3 )外 周緣係呈複數凹緣狀,以供手指旋動握持時係較易相貼合 不易滑脫,該第三螺紋部(6 2 )與旋動端(6 3)間係 設有第一刻度(6 4 ),第一刻度(6 4 )係可為二種不同 單位,第一刻度(6 4)係表示扭力值之大小,該旋動端 (63)與第一刻度(64)處係凸伸於第一本體(丄〇) 外; 一刻度環(7 0 ),該刻度環(7 〇 )係呈環圈狀,該 刻度環(7 0 )内周面係設有第二固設部(7 1 ),該第二 固設部(7 1 )係螺鎖於第一固設部(丄7 )外周緣處, 使該刻度環(7 0)係結合於第一本體(i 〇 )上,該刻 度環(7 0)外周緣係設有環狀排列之複數第二刻度(7 2 ); 旋轉調整件(6 〇 ),該調整件(6 0 )係於第一本 M425〇3〇 (1 0)内旋轉且移位,調整件(6 〇)移位而控制第一 驅動件(2 1)及第二驅動件(2 2)移位,而調整彈性 件(2 4)之長度而調整扭力值,藉由調整件(6 〇)上 之某一第一刻度(64)係對正刻度環(7 〇)且某一第 二刻度(7 2)係對正第一刻度(6 4)而得知扭力值之 Λ小;The 'such a screw-type structure' on the Hi part makes it possible to fix the torsion force when the torque is adjusted. - Generally speaking, the elastic force of the elastic member is difficult to have a fixed value. The basic torque is achieved by the screw lock of the lock member. Both are fixed values and their === by the screw lock of the lock member, so that the torque driver has different sweep base values to meet the requirements of each operator. When the adjustment member is rotated, the lock member will not be moved at the first portion; the first drive member and the second drive member are moved to the enemy's position when the torque is large, and when the torque is full, only the rotation adjustment is required. The fresh M425030 is convenient, and the general user is accustomed to holding the torque driver with one hand, and the left hand rotation adjustment member can be used directly to adjust the torque value, and the practicality is more accurate. 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] The first figure to the third figure are shown in the first figure to the third figure. The first figure is a three-dimensional exploded view. The second figure is the side view of the first body (1〇), and the third figure is the second figure. A - 听 listening to the picture, the creation side is a kind of torque driver structure, the system includes: a first body (10) 'the first body (10) is a grip-like body (10) The hand is held by the hand, and the first body (1 〇) is provided with a first through groove (11), a second through groove (12) and a third through hole and (16) 'the first through groove ( 11), the second through slot (12) and the third through slot (16) are connected in series and in sequence. The first through groove (1 1 ), the second through groove (1 2), and the third through groove (i 6 ) are attached! The diameter of the first through groove (11) is larger than that of the second 'first through groove (11), the first, the η, the squirrel 3, the 丄2) ^ /, the first through groove (12) due to the diameter The second U inner peripheral ring is provided with a plurality of first clamping portions (1 彳 (1 3) grooved, the first through groove (the finished end is provided) a first threaded portion (14), and the first engaging portion (13 has no first thread Λβ fnj, m -empt_f Γ 4 ), the first threaded portion (14) being away from the 曰 2 ) The second through slot (12) is provided with a screw, and the second thread portion (15) is disposed in the second through slot U2) and the third through slot (16). The third through slot (16) is directly larger than the second through slot (12), and the first body (1 〇)-end is provided with a first fixing portion (17), the first The fixing portion (17) is located at the outer periphery of the third through groove (16), and the first fixing portion is externally threaded. The first body (! Q) is provided at the other end. a circular convex portion (1 8 ) having a smaller diameter _ the first through-groove (1 1 ) penetrates the circular convex portion (18), and the circular convex portion (18) and the first body (1) Q) the joint is provided with a first sleeve portion (1 8 1 ) 'the first sleeve portion (i 8 i ) is in the shape of a ring collar; - the second body (1 9) 'the second body (丄9) is in the form of a ring, the second body (19) is sleeved in the first through slot (1 1 ) of the first body (1 ,), and the outer periphery of the second body (19) The second clamping portion (1 9 1 ) is formed in a rib shape, and the second clamping portion (1 9 1 ) is coupled to the first body (1) The first clamping portion (13) of the second body (丄3) is provided with a plurality of third clamping portions (1 9 2), and the third clamping portion (i 9 2) is a driving portion (2 0 )' the driving portion (2 〇) includes: a first driving member (2 1 ), a second driving member (22), a locking member (23), and an elastic member (2) 4), a third driving member (26) and a screwing member (27); the first driving member (21) is in a circular shape, and the first driving member (2 J; the system is placed on the second body (1 9 ) can be displaced within the second body (; L by a predetermined distance, the first driving member (2 1 ) is end-mounted:: - tooth surface (211)' the first drive The movable member (21) is provided with a - face (2 1 2 ) at the other end. The first drive member (2 i ) is provided with a fourth through groove shape 2 13) 'the fourth through groove (2 13) is continuous The second driving member (2 2 ) is in a circular shape, and the second driving member (2 is disposed in the second body (1 9) and is detachable from the second body (丄2 internal displacement - predetermined distance, the second driving member (2 2) is provided at one end: the: tooth surface (221) 'the second tooth surface (221) is the tooth surface of the first driving (9, 1) 211) phase-spraying, the outer peripheral surface of the second driving member is convexly provided with a plurality of fourth clamping portions (2 2 2 ), and the second: the upper portion is a rib-like shape. (2 2 2 ) A third clamping portion (192) that is coupled to the second body (19). 3) The fourth end of the driving member (22) is convexly provided with the first end portion (22. The locking member (2 3) The lock body is in the shape of a circle, and the lock member (23) is screwed to the first portion (2 ΓΠΊ 4), and the lock member (23 is convexly provided with the second end K231), the lock member ( 23) In the shape of a circle of the second and second diameters, the lock member (23) and the second two = ^ diameter difference are provided with abutment surface, and the lock member (2 3) is provided with the first body (2 3 2 ), the first - The groove (2 3 2 ) is in a through-and-strip shape, and the first-joint groove (2 3 2) is in the shape of a hexagonal groove for the movement of six and = M425030; the elastic member (24) is sleeved at one end. In the first part J, the elastic member (24) is sleeved at the other end. The elastic top force of the elastic member (24) is the second gingival (22). And the first tooth surface of the first driving member (21) (2 = two = three moving members (26) is in the shape of a long rod, and the third driving member (26)-end is extended through the second through slot (16), the third driving member (26) has a plurality of ridges and ab), and the crotch portion protrudes beyond the first body (1 〇), and the third driving member (26) is at the other end. A protruding rod (26 1 ) is attached to the first driving member (2丄): a through groove (213), and the outer periphery of the protruding rod (261) The external thread is provided; the screwing member (27) is housed in the first driving member (2), and the screwing member (27) is screwed to the protruding rod of the third driving member (26) 2 6 1) Upper 'make the first drive member (2 i) and the third drive member (26) fixed; - cover (5 G) 'the cover (5 Q) is sleeved on the first At the outer peripheral edge of the convex portion (18) of the body (丄〇), a second fitting portion (51) and a m-joining portion (51) are attached to the inner circumferential surface of the cover body (5). The second sleeve portion (5 work) is engaged with the first sleeve portion (i 8 i) on the convex portion (18) of the first body (丄〇), the second sleeve Joint (5 1) and The fitting part (worker 8丄) also needs to be disengaged by using an external force to move the cover body (5〇) out of the round convex part (18) 9; an adjusting piece (60), the adjusting piece (60) In a cylindrical shape, the adjusting member (60) is sleeved on the inner circumference of the second through groove (2) of the first body (χ 0) and the third through groove (16), and the adjusting member (60) The fifth through groove (61) is formed in a penetrating shape, and the fifth through groove (61) is a third driving member (2 6) for the driving portion (2 )) The adjusting member (60) has an end portion abutting against the abutting surface (212) of the first driving member (2 1 ), and the outer peripheral surface of the adjusting member (60) is provided with a third thread portion at the middle portion ( 6 2), the third threaded portion (6 2 ) is screwed to the second threaded portion (15) of the first body (10), and the outer end of the adjusting member (g0) is provided with a rotating end (6 3 ), the outer peripheral edge of the rotating end (63) has a plurality of concave edges, so that when the finger is swung and held, it is easy to fit and not slip easily, and the third threaded portion (6 2 ) and the rotation The first end (6 4 ) is provided between the moving end (63), and the first scale (6 4 ) can be two different units, the first Degree (6 4) indicates the magnitude of the torque value, and the rotating end (63) and the first scale (64) protrude outside the first body (丄〇); a scale ring (70), the The scale ring (7 〇) is in a loop shape, and the inner peripheral surface of the scale ring (70) is provided with a second fixing portion (7 1 ), and the second fixing portion (7 1 ) is screwed to the first At the outer periphery of a fixed portion (丄7), the scale ring (70) is coupled to the first body (i 〇), and the outer circumference of the scale ring (70) is provided with a plurality of annular arrays Two scales (7 2 ); a rotation adjustment member (6 〇), the adjustment member (60) is rotated and displaced within the first M425〇3〇 (10), and the adjustment member (6 〇) is displaced Controlling the displacement of the first driving member (2 1) and the second driving member (22), and adjusting the length of the elastic member (24) to adjust the torque value by adjusting one of the first members (6 〇) The scale (64) is a pair of positive scale rings (7 〇) and a second scale (7 2) is aligned with the first scale (6 4) to know that the torque value is small;

-起子套接件(8 0 ),該起子套接件(8 〇 ) 一端係 有套套管呈✓、角狀供套接起子頭,起子套接件(8 〇 ) 另端係設有六角端,六角端係套設於第三驅動件(2 6) 請參閱第四圖所示係為本創作之立體組合圖,第五圖 係前視圖,第六圖係第五圖之Β 當組合時,第二本體(1 9 相結合。 一 Β處剖視圖。 )係與第一本體(1 〇) 該第三驅動件(2 6)係與第—驅動件(2 i )相 合楚第-驅動件(21)與第二驅動件(22)係再容: 於第一本體(1 9)内’第一驅動件(2丄)之第一齒 (⑴)與第二驅動件(22)之第二齒面(221 相喷合,彈性件(24)係套人第—穿槽(11)内, :(2 3)再螺合於第-螺紋部(1 4)上,彈性件( 係設於第二驅動件(22)及鎖件(Μ)間, =内驅動部(20)之所有元件係容置於第一本體 一本體(1 0)之第二 該調整件(6 0)係螺合於第- a screwdriver sleeve (8 0 ), the starter sleeve (8 〇) has a sleeve at one end and a ferrule for the screwdriver, the starter sleeve (8 〇) and the other end with a hex end The hexagonal end sleeve is set on the third driving member (2 6). Please refer to the fourth figure for the three-dimensional combination diagram of the creation, the fifth diagram is the front view, and the sixth figure is the fifth diagram. , the second body (1 9 combined. A cross-sectional view at one point) is attached to the first body (1 〇), the third driving member (26) is coupled with the first driving member (2 i ) (21) Re-accommodating with the second driving member (22): in the first body (1 9), the first tooth ((1)) and the second driving member (22) of the first driving member (2) Two teeth surface (221 phase spray, elastic member (24) is sleeved in the first groove - (11), : (2 3) is screwed onto the first thread portion (14), elastic member Between the second driving member (22) and the locking member (,), all components of the inner driving portion (20) are accommodated in the second body of the first body (10), and the adjusting member (60) is Screw in the first

M4ZDUJU 螺紋部(1 5 )上,調整件(6 〇 )係壓抵於第一驅動件 认f1:之罪抵面(212)上’刻度環(7。)係結合 \ η、體(1 〇)之第一固設部(1 7)處,最後蓋體 (50)係樞設於第一本體(1〇)之圓凸部(18)外 周緣。 清繼續參閱第七圖之作動後Β-Β處剖視圖所示,當 使用者轉動調整件(6 0 ),該調整件(6 〇 )於第一本體 (1 〇)内旋轉位移而係帶動第一驅動件(2 1 )及第二 驅動件(2 2)位移’該第一驅動件(2工)及第二驅動 件(2 2)即於第二本體(丄9 )内移位,第一驅動件(2 1)及第一驅動件(2 2)移位即調整彈性件(2 4)之 長度,如此而調整扭力起子之扭力大小,當調整至所需扭 力後’該調整件(6 〇)上之某-第-刻度(6 4)係對 正刻度環(7 0)且某-第二刻度(7 2)係對正第一刻 度(6 4 ),如此而可得知扭力值之大小,該第一刻度(6 4)相對刻度環(7 〇)之第二刻度(7 2)旋動一圈, 該第一刻度(Θ 4)相對刻度環(7 〇)係會調整一單位 杻力。 旋動調整件(6 0 ),使第一驅動件(2 1 )及第二驅 動件(2 2 )移位壓迫彈性件(2 4 ),使該第一驅動件(2 1)之第一齒面(2 1 1)與第二驅動件(2 2)之第二 齒面(2 2 1)嚙合更為緊密而提高驅動部(2 〇)之扭 力值,反之,旋動調整件(6 0 ),使該第一驅動件(2 1 ) 及第一驅動件(2 2 )位移而鬆開彈性件(2 4),而降低 12 M425030 驅動部(2 0)之扭力值,第二驅動件(2 2)受到彈性 件C 2 4)不同程度之彈力推抵,而使其具有不同扭力值。 請繼續參閱第八圖之示意圖所示,係為本創作第二實 施例之第二驅動件(2 2)立體圖,該實施例中,該第二 驅動件(2 2)之第二齒面(2 2 1)係亦呈鋸齒狀,該 第一驅動件(2 1)之第一齒面(2 χ i)係呈配合之鋸 齒狀。 請繼續參閱第九圖所示,係為本創作第三實施例之第 一驅動件(2 1)與第二驅動件(2 2)立體圖,該實施 例中,该第二驅動件(2 6)係與第一驅動件(2 1)呈 -體狀’該第三驅動件(2 6)前端係設有—直徑較小之 圓柱體,該圓柱體橫向係設有—缺槽,該第_驅動件(2 1 )與第二料件(2 2 )㉟合處係設有複數環珠體(2 請刺㈣第十圖所心係為本㈣第四實施例之立 ♦體組合圖^實施例中,該驅動部(2〇)之第三驅動件 (2 6)前端係呈四角頭狀之套合部,該套合部係供套接 =旋=度環(7〇)係與第一本體(1〇)成一 0、 P本體(10)前端係直接設有第二刻度(7 本創作扭力起料構之優_在於: 如“1 ,該鎖件(2 3 )係螺合於第—螺紋部(14)上 螺鎖式之結構’使調整扭力時係可蚊扭力值之基域 ^言_件(24)之彈力係很时固定值,藉 M425030 由鎖件(2 3)之螺鎖而使基礎扭力均為固定值及其於公 差内,或藉由鎖件(2 3)之螺鎖,使該扭力起子出廠時 具有不同扭力基礎值以符合各操作者使用之所需。 2、設有一鎖件(2 3)螺合於第一螺紋部(丄4) 處,旋轉調整件(6 〇)時,該鎖件(2 3)係不會於第 -螺紋部(14)處位移,第—驅動件(2 i )及第二驅 動件(2 2)移位越靠合於鎖件(2 3)處時係扭力值越 大。 3、 調整扭力時,只需旋轉調整件(6 〇 ),輕鬆又便 利,且一般使用者係慣用一手握持扭力起子,即可直接使 用左手旋轉調整件(6 0)來調整扭力值,實用性係較確 實。 4、 該調整件(6 〇)上之某一第一刻度(6 4)係 對正刻度環(7 G)且某-第二刻度(7 2)係對正第一 刻度(6 4),如此而可得知扭力值之大小,該第一刻度(6 4)及第二刻度(72)之相配合關係,即可從一處得知 扭力值。 5、 該扭力起子結構於使用一段時間後,多少會有元 件磨損,取下蓋體(5 0)後’即可取下容置於第一本體 (1 0)内之驅動部(2 0)之所有元件而更換損害之元 件。 因此本創作之扭力起子結構具有產業利用性、新穎性 及進步性,誠能符合新型專利之申請要件,爰依法提出申 請 M425030 【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。 第二圖、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、係摘作扭力起子結構之前視圖。 第六圖、係本創作第五圖之B〜B處剖視圓。 第七圖、係本創作作動後之B — β處剖視圖。 第八圖係本創作第二實施例之第二驅動件立體圖〇 第九圖係、本創作第三實施例之驅動部立體圖。 第十圖係 '本創作第四實施例之立體組合圖。 【主要元件符號說明】 (11)第一穿槽 (13)第一卡制部 (15)第二螺紋部 (17)第一固設部 (181)第一套合部 (191)第二卡制部 (2 1)第一驅動件 (2 1 2)靠抵面 (2 2)第二驅動件 (2 2 2 )第四卡制部 (2 3)鎖件 (1Q)第一本體 (12)第二穿槽 (14)第一螺故部 (1 6)第三穿槽 (1 8)圓凸部 (19)第二本體 (1 9 2)第三卡制部 (2 0)驅動部 (211)第一齒面 (213)第四穿槽 (2 2 1)第二齒面 (223)第一端部 15 M425030 34680024020 22225666778On the M4ZDUJU threaded portion (1 5 ), the adjusting member (6 〇) is pressed against the first driving member to recognize f1: the sin-to-face (212) is on the 'scale ring (7.) system combination η, body (1 〇 At the first fixed portion (17), the last cover (50) is pivotally disposed on the outer periphery of the convex portion (18) of the first body (1). After continuing to refer to the operation of the seventh figure, as shown in the cross-sectional view of the Β-Β, when the user rotates the adjustment member (6 0 ), the adjustment member (6 〇) is rotated and displaced in the first body (1 〇) to drive the first a driving member (2 1 ) and a second driving member (22) are displaced by the first driving member (2) and the second driving member (2 2) in the second body (丄9), The displacement of the driving member (2 1) and the first driving member (2 2) adjusts the length of the elastic member (24), thereby adjusting the torque of the torque driver, and after adjusting to the required torque, the adjusting member 6 〇) some - the first scale (6 4) is the positive scale ring (7 0) and the certain - second scale (7 2) is aligned with the first scale (6 4 ), so that it can be known The magnitude of the torque value, the first scale (6 4) is rotated one turn relative to the second scale (7 2) of the scale ring (7 〇), the first scale (Θ 4) relative to the scale ring (7 〇) The department will adjust one unit of force. Rotating the adjusting member (60) to displace the first driving member (2 1 ) and the second driving member (2 2 ) to press the elastic member (2 4 ) to make the first driving member (21) The tooth surface (2 1 1) meshes with the second tooth surface (2 2 1) of the second driving member (2 2 ) to increase the torque value of the driving portion (2 〇), and vice versa, the rotation adjusting member (6) 0), the first driving member (2 1 ) and the first driving member (2 2 ) are displaced to loosen the elastic member (2 4), and the torque value of the 12 M425030 driving portion (20) is lowered, and the second driving is performed. The piece (2 2) is subjected to different degrees of elastic force by the elastic member C 2 4) to have different torque values. Please refer to the schematic diagram of the eighth figure, which is a perspective view of the second driving member (2 2) of the second embodiment of the present invention. In this embodiment, the second tooth surface of the second driving member (2 2) 2 2 1) The system is also serrated, and the first tooth surface (2 χ i) of the first driving member (2 1) is in a zigzag shape. Please refer to the ninth figure, which is a perspective view of the first driving member (21) and the second driving member (2 2) according to the third embodiment of the present invention. In this embodiment, the second driving member (26) And the first driving member (2 1) is formed in a body shape. The front end of the third driving member (26) is provided with a cylinder having a smaller diameter, and the cylindrical body is provided with a notch, the first The _ drive member (2 1 ) and the second material member (2 2 ) 35 are provided with a plurality of ring beads (2 thorns (4), the tenth figure is based on the core (4), the fourth embodiment of the body In the embodiment, the front end of the third driving member (26) of the driving portion (2) is a quadrangular head-shaped fitting portion, and the fitting portion is for socketing = rotation = degree ring (7〇) system The first body (1〇) is formed into a 0, and the front end of the P body (10) is directly provided with a second scale (7 is superior to the original torsion material structure): such as: "1, the lock member (2 3) is a screw Combined with the screw-type structure on the first threaded part (14), the elastic field of the mosquito torque value is adjusted when the torque is adjusted. The elastic force of the piece (24) is a fixed value, and the lock is used by M425030 (2) 3) the screw lock makes the basic torque a fixed value and Within the tolerance, or by the screw lock of the lock member (23), the torque driver has different torque base values at the factory to meet the needs of each operator. 2. A lock (2 3) is provided for screwing. At the first threaded portion (丄4), when the adjusting member (6 〇) is rotated, the locking member (23) is not displaced at the first threaded portion (14), and the first driving member (2 i ) and The more the second drive member (2 2) shifts closer to the lock member (23), the greater the torque value. 3. When adjusting the torque, just rotate the adjustment member (6 〇), which is easy and convenient, and generally The user is accustomed to holding the torque driver with one hand, and the left hand rotation adjustment member (60) can be directly used to adjust the torque value, and the practicality is more reliable. 4. A certain first scale on the adjustment member (6 〇) (6 4) The pair of positive scale rings (7 G) and a certain - second scale (7 2) are aligned with the first scale (6 4), so that the magnitude of the torque value can be known, the first scale The matching relationship between (6 4) and the second scale (72) can be used to know the torque value from one place. 5. After the use of the torque driver structure for a period of time, some components will wear out and be removed. After the cover body (50), it is possible to remove all the components of the driving portion (20) accommodated in the first body (10) and replace the damaged components. Therefore, the torsion screwdriver structure of the present invention has industrial applicability, Novelty and progress, can meet the application requirements of the new patent, and apply for M425030 according to law [Simple description of the diagram] The first picture is the three-dimensional exploded view of the torsion screwdriver structure. The second picture, the first creation The third figure is a sectional view of the 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 taken as a front view of the torque driver structure. The sixth picture is the cross-sectional circle at the B~B of the fifth picture of this creation. The seventh figure is a cross-sectional view of B-β after the creation of this creation. The eighth drawing is a perspective view of the second driving member of the second embodiment of the present invention. The ninth drawing is a perspective view of the driving portion of the third embodiment of the present creation. The tenth figure is a three-dimensional combination diagram of the fourth embodiment of the present creation. [Description of main component symbols] (11) First through groove (13) First clamping portion (15) Second thread portion (17) First fixing portion (181) First fitting portion (191) Second card The first driving member (2 1 2) abuts the surface (2 2) the second driving member (2 2 2 ) the fourth clamping portion (23) the locking member (1Q) the first body (12) Second slot (14) first screw portion (16) third through slot (18) round convex portion (19) second body (1 9 2) third locking portion (20) driving portion (211) first tooth surface (213) fourth through groove (2 2 1) second tooth surface (223) first end portion 15 M425030 34680024020 22225666778

部 部件 端 紋度度接 二件桿體 件螺刻環刻套 第性凸珠體整三 一 度二子 }彈}環蓋調第第刻第I (2 3 2 )第一結合槽 (2 6)第三驅動件 (2 7)螺合件 (51)第二套合部 (6 1 )第五穿槽 (6 3)旋動端 (71)第二固設部The end of the part is connected to the two pieces of the rod body, the engraved ring engraved sleeve, the spheroidal convex body, the whole body, the third degree, the second sub}}} the ring cover, the first moment, the first I (2 3 2) first joint groove (2 6 ) third driving member (27) screwing member (51) second fitting portion (6 1 ) fifth through groove (63) rotating end (71) second fixing portion

Claims (1)

M425030 六、申請專利範圍: 1、一種扭力起子結構,其係包括: 一第一本體,該第一本體内係設有第一穿槽、第二穿 槽及第三穿槽,該第一穿槽、第二穿槽及第三穿槽係呈相 通狀且依序連設成貫穿狀,第一穿槽、第二穿槽及第三穿 槽係呈圓槽狀,該第一穿槽内周緣係環設有複數第一卡制 部,該第一穿槽端部處係設有第一螺紋部,且第一卡制部 内係無第一螺紋部,第一螺紋部係遠離第二穿槽,該第二 穿槽一端内周緣係設有第二螺紋部,該第一本體一端係設 有第一固設部,該第一固設部係位於第三穿槽開口處外周 緣; 一第二本體,該第二本體係呈圈體狀,該第二本體係 套設於第一本體之第一穿槽内,該第二本體外周緣係設有 複數第二卡制部,該第二卡制部係與第一本體之第一卡制 部相結合,第二本體内周緣係設有複數第三卡制部; 一驅動部,該驅動部係包括:第一驅動件、第二驅動 件、鎖件、彈性件及第三驅動件; 該第一驅動件係呈圓體狀,該第一驅動件係容置於第 二本體内且係可於第二本體内位移一預定距離,該第一驅 動件一端係設有第一齒面,該第一驅動件另端係設有靠抵 面; 該第二驅動件係呈圓體狀,該第二驅動件係容置於第 二本體内且係可於第二本體内位移一預定距離,該第二驅 動件一端係設有第二齒面,第二齒面係與第一齒面相嚙 17 M425030 合,該第二驅動件外周面係凸設有複數第四卡制部,該第 四卡制部係套設於第三卡制部内.; 該鎖件係呈圓體狀,該鎖件外周面係為螺紋狀,該鎖 件係螺鎖於第一本體之第一螺紋部處; 該彈性件係套設於第二驅動件與鎖件間,該彈性件之 彈性頂力係使該第二齒面係與第一驅動件之第一齒面相嚙 合; 該第三驅動件係呈長桿體狀,該第三驅動件一端係穿 伸於第二穿槽與第三穿槽處,該第三驅動件端部係凸伸於 第一本體外,該第三驅動件係與第一驅動件相固設; 一調整件,該調整件係呈圓筒狀,該調整件係套設於 第一本體之第二穿槽及第三穿槽内周緣,調整件係設有第 五穿槽,該第五穿槽係呈貫穿狀,該第五穿槽係供驅動部 之第三驅動件穿伸,該調整件一端係抵於第一驅動件之靠 抵面上,調整件外周面係設有第三螺紋部,第三螺紋部係 螺鎖於第一本體之第二螺紋部處,近該第三螺紋部處係設 有第一刻度,第一刻度係表示扭力值之大小,該第一刻度 處係凸伸於第一本體外; 一刻度環,該刻度環係呈環圈狀,刻度環内周面係設 有第二固設部,該第二固設部係結合於第一固設部外周緣 處,刻度環外周緣係設有環狀排列之複數第二刻度; 旋轉調整件,該調整件係於第一本體内旋轉且移位, 調整件移位而控制第一驅動件及第二驅動件移位,而調整 彈性件之長度而調整扭力值,藉由調整件上之某一第一刻 M425030 度係對正刻度環且某一第二刻度係對正第一刻度而得知扭 力值。 2、 如請求項1所述之扭力起子結構,其中,該第一 穿槽直徑係大於第二穿槽,第一穿槽與第二穿槽因直徑差 係有抵面。 3、 如請求項2所述之扭力起子結構,其中,該第一 卡制部係槽溝狀,該第二卡制部係呈凸肋狀。 4、 如請求項3所述之扭力起子結構,其中,該第三 ® 卡制部係呈槽溝狀,該第四卡制部係呈凸肋狀。 5、 如請求項4所述之扭力起子結構,其中,該第二 螺紋部係設於第二穿槽與第三穿槽間,該第三穿槽直徑係 大於第二穿槽。 6、 如請求項5所述之扭力起子結構,其中,該第一 固設部係呈外螺紋狀,該第二固設部係螺鎖於第一固設部 外周緣處,使該刻度環係結合於第一本體上。 Φ 7、如請求項6所述之扭力起子結構,其中,該第一 刻度係為二種不同單位。 8、如請求項7所述之扭力起子結構,其中,該第一 本體另端係凸設有一直徑較小之圓凸部,該第一穿槽係貫 穿圓凸部,該圓凸部與第一本體連接處係設有第一套合 部,該第一套合部係呈環圈凹緣狀,設有一蓋體,該蓋體 係套設於第一本體之圓凸部外周緣處,該蓋體内周面處係 設有第二套合部,該第二套合部係呈環圈凸緣狀,該第二 套合部與圓凸部上之第一套合部相套合卡抵,該第二套合 财25030 ^與第一套合部間亦需使用外力而相脫開,使該蓋體移出 圓凸部外。 9、如請求項8所述之扭力起子結構,其中,調整件 另端外周緣係設有旋動端,旋動端外周緣係呈複數凹緣 狀以供手指旋動握持時係較易相貼合不易滑脫,該旋動 端與第一刻度處係凸伸於第一本體外,該第一刻度係設於 第二螺紋部與旋動端間。 一 1〇、如請求項9所述之扭力起子結構,其中,該第 :驅動件另端係凸設有第一端部,該鎖件係凸設有第二端 ,該鎖件與第二端部係呈二不同直徑之圓體狀,該彈性 件一端係套設於第一端部處,該彈性件另端係套設於第二 端部處。 1 1、如請求項1〇所述之扭力起子結構,其中,該 鎖件係設有第一結合槽,第一結合槽係呈貫穿狀且係呈非 圓狀,第一結合槽係呈六角槽狀。 12、如請求項1 1所述之扭力起子結構,其中,該 刻度環係與第-本體成-體狀,亦即第—本體前端係直接 設有第二刻度。 1 3、如請求項12所述之扭力起子結構,其中,該 第-驅動件係設有第四穿槽,第四穿槽係呈貫穿狀且係呈 非圓槽狀’該第二驅動件另端係凸伸有凸桿,該凸桿係套 合於第-驅動件之第四穿槽内,該凸桿外周緣係設有外螺 紋,該驅動㈣設有-螺合件,剌合件係容置於第—驅 動件内,螺合件係螺合於第三驅動件之凸桿上,使該第〜 20 M425030 驅動件及第三驅動件相固設。 其中,該 第-驅:件求項13所述之扭力起子結構, 3 =:=嗜合處係設有複數環珠體。 該 第树係呈握把狀,第一本體係供手握持旋動。 1 6、如請求項i 5所述之扭力起社 =起子套接件’該起子套接件-端係有套管4;呈:M425030 VI. Patent Application Range: 1. A torsion driver structure, comprising: a first body, the first body is provided with a first through slot, a second through slot and a third through slot, the first wearing The groove, the second through groove and the third through groove are in a communicating manner and are sequentially connected in a penetrating shape, and the first through groove, the second through groove and the third through groove are in a circular groove shape, and the first through groove is in the first through groove The peripheral loop is provided with a plurality of first engaging portions, the first threaded end is provided with a first threaded portion, and the first threaded portion has no first threaded portion, and the first threaded portion is away from the second threaded portion. a first threaded portion is disposed at one end of the first through hole, and the first fixed portion is located at an outer periphery of the third through slot opening; a second body, the second system is in a ring shape, the second system is sleeved in the first through slot of the first body, and the second outer peripheral edge is provided with a plurality of second clamping portions, the first The second card portion is combined with the first card portion of the first body, and the second body body is provided with a plurality of third card portions; The driving part includes: a first driving member, a second driving member, a locking member, an elastic member and a third driving member; the first driving member is in a circular shape, and the first driving member is disposed in the second The first driving member is provided with a first tooth surface at one end, and the first driving member is provided with abutting surface at the other end; the second driving member is The second driving member is disposed in the second body and is displaceable in the second body by a predetermined distance. The second driving member is provided with a second tooth surface at one end, and the second tooth surface is coupled to the second tooth surface. The first tooth surface is engaged with the 17 M425030, and the outer peripheral surface of the second driving member is convexly provided with a plurality of fourth clamping portions, and the fourth clamping portion is sleeved in the third clamping portion. The locking member is round The outer peripheral surface of the lock member is threaded, and the lock member is screwed to the first thread portion of the first body; the elastic member is sleeved between the second drive member and the lock member, and the elastic member is The elastic top force causes the second flank to mesh with the first tooth surface of the first driving member; the third driving member is a long rod The third driving member has one end extending through the second through slot and the third through slot, the third driving member end protruding from the first body, the third driving member and the first driving The adjusting member is formed in a cylindrical shape, and the adjusting member is sleeved on the inner circumference of the second through groove and the third through groove of the first body, and the adjusting member is provided with the fifth through groove The fifth through slot is formed in a penetrating manner, and the fifth through slot is for the third driving member of the driving portion to extend, and one end of the adjusting member is abutted against the abutting surface of the first driving member, and the outer peripheral surface of the adjusting member is The third threaded portion is screwed to the second threaded portion of the first body, and the first thread is disposed near the third threaded portion, and the first scale indicates the magnitude of the torque value. The first scale protrudes from the first body; a scale ring has a loop shape, and the inner circumference of the scale ring is provided with a second fixing portion, and the second fixing portion is Combined with the outer periphery of the first fixing portion, the outer circumference of the scale ring is provided with a plurality of second scales arranged in an annular shape; a rotation adjusting member, the adjusting member is The first body rotates and shifts, the adjusting member shifts to control the displacement of the first driving member and the second driving member, and adjusts the length of the elastic member to adjust the torque value, by adjusting a first moment on the member M425030 The degree of torque is known to the positive scale ring and a second scale is aligned with the first scale. 2. The torque driver structure of claim 1, wherein the first through-groove diameter is larger than the second through-groove, and the first through-groove and the second through-groove have a surface difference due to a difference in diameter. 3. The torque driver structure of claim 2, wherein the first engaging portion is grooved, and the second engaging portion is ribbed. 4. The torque driver structure of claim 3, wherein the third ® engaging portion has a groove shape, and the fourth engaging portion has a rib shape. 5. The torque driver structure of claim 4, wherein the second threaded portion is disposed between the second through slot and the third through slot, the third through slot having a larger diameter than the second through slot. The torque driver structure of claim 5, wherein the first fixing portion is externally threaded, and the second fixing portion is screwed to the outer periphery of the first fixing portion to make the scale ring The system is coupled to the first body. Φ 7. The torque driver structure of claim 6, wherein the first scale is two different units. 8. The torque driver structure of claim 7, wherein the first end of the first body is convexly provided with a small convex portion having a small diameter, the first through groove extending through the circular convex portion, the circular convex portion and the first a body of the body is provided with a first sleeve portion, the first sleeve portion is in the shape of a concave ring of the ring, and is provided with a cover body. The cover system is sleeved on the outer circumference of the convex portion of the first body. a second sleeve portion is disposed on the circumferential surface of the cover body, the second sleeve portion is in the shape of a ring flange, and the second sleeve portion is sleeved with the first sleeve portion on the round convex portion. In addition, the second set of Fucai 25030^ and the first set of joints also need to use external force to disengage, so that the cover body moves out of the round convex part. 9. The torque driver structure according to claim 8, wherein the outer peripheral edge of the adjusting member is provided with a rotating end, and the outer periphery of the rotating end is in the shape of a plurality of concave edges for the finger to be held by the finger. The sliding end is not easy to slip off, and the rotating end and the first scale protrude from the first body, and the first scale is disposed between the second threaded portion and the rotating end. The torque driver structure of claim 9, wherein the first driving member is convexly provided with a first end portion, and the locking member is convexly provided with a second end, the locking member and the second member The end portion is in the shape of a circle having two different diameters, and one end of the elastic member is sleeved at the first end portion, and the other end of the elastic member is sleeved at the second end portion. 1 . The torque driver structure according to claim 1 , wherein the lock member is provided with a first coupling groove, the first coupling groove is penetrating and non-circular, and the first coupling groove is hexagonal. Grooved. 12. The torque driver structure of claim 1, wherein the scale ring system is formed in a body shape with the first body, that is, the front end of the first body is directly provided with a second scale. The torque driver structure of claim 12, wherein the first driving member is provided with a fourth through slot, and the fourth through slot is penetrating and non-circular in shape. The other end of the protruding protrusion has a protruding rod, the protruding rod is sleeved in the fourth through groove of the first driving member, the outer circumference of the protruding rod is provided with an external thread, and the driving (4) is provided with a screwing member. The locating member is placed in the first driving member, and the screwing member is screwed onto the protruding rod of the third driving member to fix the -20 M425030 driving member and the third driving member. Wherein, the first drive: the torsion driver structure described in Item 13, 3 =: = the fascination is provided with a plurality of ring beads. The first tree is in the shape of a grip, and the first system is held by the hand. 1 6. Torque starting as claimed in claim i 5 = screwdriver socket 'The screwdriver sleeve - end is sleeved 4; =套接起子頭,起子套接件另端係設有六角端二 端係套設於第三驅動件上。 ’其中,該 該圓柱體橫 1 7、如請求項i 5所述之扭力起子結構 第二驅動件前端係設有一直徑較小之圓柱體, 向係設有一缺槽。 1 8、如晴求項1 5所述之扭力起子結構,其中,該 驅動部之第三驅動件前端係呈四角頭狀之套合部,該套合 部係供套接套筒旋動。 口 19、如請求項I?所述之扭力起子結構,其中,該 第三驅動件係與第一驅動件成一體狀。 21= The screwdriver bit is sleeved, and the other end of the screwdriver sleeve is provided with a hexagonal end and a second end sleeve is sleeved on the third driving member. The cylindrical body of the second embodiment of the second driving member is provided with a cylinder having a smaller diameter, and the cylinder is provided with a slot. The torque driver structure of the fifth aspect of the invention, wherein the front end of the third driving member of the driving portion is a quadrangular head-shaped fitting portion, and the fitting portion is for the socket sleeve to be rotated. The torque driver structure of claim 1, wherein the third driving member is integral with the first driving member. twenty one
TW100220805U 2011-11-04 2011-11-04 Torque screwdriver structure TWM425030U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
TW100220805U TWM425030U (en) 2011-11-04 2011-11-04 Torque screwdriver structure

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
TW100220805U TWM425030U (en) 2011-11-04 2011-11-04 Torque screwdriver structure

Publications (1)

Publication Number Publication Date
TWM425030U true TWM425030U (en) 2012-03-21

Family

ID=46462198

Family Applications (1)

Application Number Title Priority Date Filing Date
TW100220805U TWM425030U (en) 2011-11-04 2011-11-04 Torque screwdriver structure

Country Status (1)

Country Link
TW (1) TWM425030U (en)

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
TWI504376B (en) * 2012-08-14 2015-10-21 Kabo Tool Co Surgical torque screwdriver
TWI593518B (en) * 2016-06-14 2017-08-01 魏嘉佑 Torque wrench capable of coaxially adjusting the torque
TWI680842B (en) * 2018-11-30 2020-01-01 財團法人金屬工業研究發展中心 Torque hand tool device for medical use
TWI735350B (en) * 2020-10-13 2021-08-01 張卉錚 screwdriver

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
TWI504376B (en) * 2012-08-14 2015-10-21 Kabo Tool Co Surgical torque screwdriver
TWI593518B (en) * 2016-06-14 2017-08-01 魏嘉佑 Torque wrench capable of coaxially adjusting the torque
TWI680842B (en) * 2018-11-30 2020-01-01 財團法人金屬工業研究發展中心 Torque hand tool device for medical use
TWI735350B (en) * 2020-10-13 2021-08-01 張卉錚 screwdriver

Similar Documents

Publication Publication Date Title
USD807506S1 (en) Hand-held dental tool and removable soft tips
USD833023S1 (en) Stackable biofeedback therapeutic device
TWM425030U (en) Torque screwdriver structure
US8387198B2 (en) Paint brush extension fastener
US20160167215A1 (en) Arm holder for a pole-handled tool
WO2012051353A3 (en) Universal trimmer handle assembly
WO2016032731A3 (en) Modular surgical instrument
US9409287B2 (en) Hex wrench tool handle
EP2048988B1 (en) Tooth-care device
CN204394623U (en) A kind of celectome
USD572779S1 (en) Baseball bat with a cone knob handle
TWM422455U (en) Torque screwdriver
TWM438951U (en) Torsion connector structure
WO2016064651A3 (en) Bathing wand
TW201221311A (en) Wrench with trigger
US20140283318A1 (en) Hand Trowel
TWM316777U (en) Improved structure for ratchet wrench
US20090290957A1 (en) Fastener
USD756220S1 (en) Nail polish applicator handle
TWM392038U (en) Reciprocation movable wrench
CN203777040U (en) Multipurpose screwdriver for orthopedics and capable of being used in bent mode
TWM438358U (en) Ratchet wrench adjustment structure
TW200946296A (en) Structural improvement of multi-purpose connection rod
TWM422454U (en) Torque screwdriver
TWI558519B (en) Tool structure

Legal Events

Date Code Title Description
MM4K Annulment or lapse of a utility model due to non-payment of fees