1375607 六、發明說明: 【發明所屬之技術領域】 本發明係與F柄扳手結構有關,尤指一種 構係設有^塊、頂桿及驅動結構相連動,使該F柄扳^ =本體處控㈣動結構之PUSH作動而更具操作功 【先前技術】 按吾人先前所知,習用夕太μ , US7 U 祕手結構,如美國專利 6 7 2 4 9 B 1,同台灣專利號 r03’該專利名稱:套茼扳手快速釋放裝置, =手快速#放裝置’其主要係於套筒接頭(21)之= 二間(2 6)内置有-復位彈簧(2 4)及推桿( 前端及套筒接頭(21)側邊穿設-穿(2 5 ),並置入—壓桿(3 〇 ) 2)、(33),藉壓桿(3〇)之厂堅桿凹部(3=(= 推桿(2 3)呈垂直相抵狀態,得使虔桿 ^ 及復位’連動推桿(2 3)之上昇與復位,以進二 =)。之抵緊與釋放動作為其特徵者’此係該習用 盥推要之優點係在於:本創作藉由料q ◦) 以控制卡掣鋼珠(22)在孔(27)内=:吏其件 態’並可物(3 〇 )作雙咖控制之動作釋 對套筒與料接社捿合,達躲速㈣及 = 3 1375607 值者。 T =利套筒扳手結構之缺失係在於: 1、違屋桿(3 〇)與推 _ 而控制套筒接頭(2 〃 干 3)—π件係相連動 構之功能性係稍顯不足。之P U S Η結構’僅—種控制結 .無法作心立_,該套2丄= ' 不足。 再<便用擴充性係稍顯 • 3、該壓桿(2 η、+ ~ 而具套筒接頭=控制Ϊ桿(23)移位 握柄頭(2 8 )間又需壓"且套同接碩(2 1 )與 需有移位及枢設二種功效 U干(3 0) 套筒接頭(2 1 )座握^ η ( 3 〇 )需移位下,該 實。 』柄碩(28)間抱設狀態即較不確 =鑑於上述習W柄扳手結構之缺失,本發明 年攸事相關行業之經驗,终於有__At & 曰夕 •問世。 、方、有月匕改善習用弊端之產品 _ 【發明内容】 發明所欲解決之問題··卩紅 桿、複數彈體及姑 。構係設有推塊、頂 干複數弹體及驅動結構,使該F柄板 .動推塊而控制驅動結構之Pu s 了由本體處推 性。 作動,而更具操作功能 解決問題之技術手段:本發明係關於一種士 構’其係包括:-本體設有U型開口之支臂、第一柩^ 4 l3?56〇7 頂桿(3 0)前端係略凸露於容桿孔(14)夕卜該頂桿 二3〇)使該二推塊(2〇)容設於本體( 槽(1 3 )處; —第一彈體(4〇),該第—彈體(4〇)係套設於 叫(30)上,該第一彈體(4〇) 一端係抵於推塊(2 〇)上’另端係抵於本體(10)之容桿槽(13)内壁 面上; 該頂桿(30)係組設於二推塊(2〇)上,該第一 彈體(4 0 )係套設於頂桿(3 〇 )上,該第一彈體(4 〇 )-端係抵於推塊(2 Q)上而另端抵於容桿槽(丄3 ) 内壁面上,移動該推塊(2〇)而克服第一彈體(4〇) 之彈力,該推塊(2 0)即係帶動頂桿(3 〇)移位,該 丁頁桿(3 0)即更凸露於本體(1〇)之容桿孔(14) 外;1375607 VI. Description of the invention: [Technical field of the invention] The invention relates to the structure of the F-handle wrench, in particular, a structure is provided with a block, a jack and a driving structure, so that the F-handle is at the body Control (4) PUSH actuation of the moving structure and more operational work [Prior Art] As we have previously known, the use of Xixi μ, US7 U secret structure, such as US patent 6 7 2 4 9 B 1, with Taiwan patent number r03' The patent name: set of wrench quick release device, = hand fast #放装置' is mainly used in the sleeve joint (21) = two (2 6) built-in reset spring (2 4) and push rod (front end And the sleeve joint (21) is worn on the side - wear (2 5 ), and placed into the pressure bar (3 〇) 2), (33), by the pressure bar (3 〇) of the factory bar recess (3 = (= The push rod (2 3) is in a vertical phase, so that the mast ^ and the reset 'linking push rod (2 3) are raised and reset to enter the second =). The abutment and release action are characterized by ' The advantage of this application is that the creation is controlled by the material q ◦) to control the 掣 steel ball (22) in the hole (27) =: 吏 its state 'and the object (3 〇) double The operation of the control sleeve and the release material ITO Qi engagement, and (iv) up to hide speed = 31,375,607 persons value. T = the missing structure of the socket wrench is: 1. The functional system of the linkage between the house (3 〇) and the push _ and the control sleeve joint (2 〃 dry 3) - π-piece system is slightly insufficient. The P U S Η structure is only a kind of control knot. It is impossible to make a heart _, the set 2 丄 = ' insufficient. Then, the expansion system is slightly displayed. 3. The pressure bar (2 η, + ~ with sleeve joint = control mast (23) shifting the grip head (2 8 ) and pressing pressure " and set The same connection (2 1 ) and the need to have displacement and pivoting two functions U dry (3 0) sleeve joint (2 1 ) seat grip ^ η (3 〇) need to be displaced, the real. (28) The state of holding between the two is relatively inaccurate. In view of the lack of the structure of the above-mentioned W-handle wrench, the experience of the relevant industry in the year of the invention finally has __At & 曰 • • come out. Products for improving the abuses of the invention _ [Summary of the Invention] Problems to be solved by the invention··Red rods, plural bullets and abdomen. The structure has a push block, a top dry plurality of bodies and a drive structure to make the F handle plate. Pushing the block to control the Pu s of the driving structure is pushed by the body. The technical means of solving the problem with more operational functions: the present invention relates to a type of structure including: - the body is provided with a U-shaped opening The arm, the first 柩^ 4 l3?56〇7 ejector (30) front end is slightly exposed to the rod hole (14), the ejector pin is 3 〇) so that the two push blocks (2 〇) On the ontology a slot (1 3 ); a first body (4〇), the first body (4〇) is sleeved on the call (30), and the first body (4〇) is at one end The upper end of the block (2 〇) is abutted against the inner wall surface of the rod groove (13) of the body (10); the ram (30) is assembled on the second push block (2〇), the first bullet The body (40) is sleeved on the ram (3 〇), the first body (4 〇)-end is on the push block (2 Q) and the other end is on the rod groove (丄3) On the inner wall surface, the push block (2〇) is moved to overcome the elastic force of the first projectile (4〇), and the push block (20) is the displacement of the ejector pin (3 〇), and the sill bar (3) 0) that is more exposed outside the body hole (14) of the body (1〇);
一第二彈體(50),該第二彈體(5〇)係容設; 本體(1 0 )之容桿孔(14)内,該第二彈體(5〇 —端係㈣S桿孔(1 4 )底部,該另端絲於推塊( 0 )末端,第二彈體(5 0)使該推塊(2 〇)於本體( 0 )内具彈性位移功效,第一彈體(4 〇 )及第二彈體( 0)之彈力使該推塊(2 0)不抵於容桿槽(1 3)辟 上; $ 一驅動結構(6 0 )’該驅動結構(6 〇 )係組設於 本體(1 0)之支臂(1 1)處’該驅動結構(6 〇)内 部係設有P U S Η結構,該驅動結構(6 〇 )係可正逆轉 7 1375607 =、單向钱或無正逆旋動結構,錢 二川、一控制桿(62)、一第 2 體(6 4 ) ; υ 及琛 該驅_(61)係、設有第二拖 ,部⑷"係呈穿孔狀,該第二框部(二二 ^ )相對正枢設,該驅動 f(6 1 )係以弟二樞部(6 1 1 )為軸心於支臂(丄丄) 處作擺動’該驅動頭(6 i )係凸設有 部(612)斷面係呈四角狀,該套合部12 係可套合套筒而旋動螺合件,該驅 係設有第一穿孔(6 ] 、b 1 )&向位置 二穿:Fl r R η、—) 穿孔(6 1 4 ),該第 ;第-穿孔(6 !與第一穿孔(6 1 3)間係呈相通狀, “弟-牙孔(614)之直徑係小於第—穿 第二:孔(614)與苐一穿孔(613)間 朱之孔貫(穿Γ,套合部(612)係設有珠: 朱孔(615)係與第二穿孔(“。呈 該控制桿(6 2)係容設於驅勤 孔(613)内,該控制桿(62 、 61)之第一穿 21),_檜(.6 2 '設有作動槽(6 U ( 6 1 1 )相對正,該作動 於第一樞部(1 2 )及筮一 6 2 1 )直杈係大 槽(6 2!)係為—長孔;直徑或該作動 設有直徑較小之桿部(2 ; ( 6 2 )另端係 # Μ 6 2 2 ),該桿部( 6 2 2 )與控 8 1375607 制桿(6 2)間係因直徑差而斷面係略呈τ形狀,該桿部 (6 2 2 )係配合容設於第二穿孔(6丄4)内,=桿^ (6 2 2 )係設有階級部(6 2 3 ),該階級部(二干心 係與珠孔(6 1 5)位置相配合,該控制桿(6 2 )另端 係設有定位部(6 2 4 ),該定位部(6 2 4 )係呈凹: 狀或凹槽狀,該定位部(6 2 4 )係供頂桿(3 〇)端部 容抵定位; ° 該第三彈體(6 3)係套設於控制桿(6 2)之桿邻 (6 2 2 )上,該第三彈體(6 3)係抵於控制桿(二 及第-穿孔(6 1 3)底部間’該第三彈體(6 3)係使 該控制桿(62)於第-穿孔(613)内具彈性位移功 效; 該珠體(6 4)係容設於驅動頭(6丄)之珠孔(6 1 5 )内,該珠體(6 4)係抵於控 部(6 2 3 )上,該珠體(64)係隨控制桿 位移而凸露或沒人珠孔(6 i 5)處,該控制桿(6 2)、 第三彈體(6 3 )及珠體(64)係為手工且之pU H 結構; ' 一樞設桿(7 0),該樞設桿(7Q)係穿設於本體 (1 0 )之第-樞部(i 2 )、驅動頭(6丄)之第二樞 部㈠⑴及控制桿(62)之作動槽(621)内, 該樞設桿(7 0 )係、將驅動結構(6 〇 )樞設於本體(丄 〇)之支臂(11)處’該控制桿(62)係受第三彈體 (6 3)之彈力,使該樞設桿(7 〇)抵於作動槽(6 2 9 1375607 l)一側壁面上。 請繼續參閱第三圖之立體組合圖所示,第四圖係為上 =圖’第五圖係第四圖之A—A處剖視圖,該二推塊(2 :第’、° 口邛(2 1 )係分別上下容置於本體(玉〇 ) 曹(13)内,該頂桿(3〇)容置於容桿孔(1a second body (50), the second body (5〇) is accommodated; in the body (10) of the rod hole (14), the second body (5〇-end system (4) S rod hole (1 4) at the bottom, the other end of the wire is at the end of the push block (0), and the second body (50) makes the push block (2 〇) have an elastic displacement effect in the body (0), the first body ( 4 〇) and the elastic force of the second body (0) makes the push block (20) not against the rod groove (1 3); $ a drive structure (60) 'the drive structure (6 〇) The system is set at the arm (1 1) of the body (10). The driving structure (6 〇) is internally provided with a PUS Η structure, and the driving structure (6 〇) can be reversed 7 1375607 =, one-way Money or no reversal rotation structure, Qian Erchuan, a control rod (62), a second body (6 4); υ and 琛 the drive _ (61) system, with a second tow, part (4) " In the shape of a perforation, the second frame portion (two two-two) is relatively erected, and the driving f(6 1 ) is oscillated at the arm (丄丄) with the two pivots (6 1 1 ) as the axis. The drive head (6 i ) is provided with a convex portion ( 612 ) having a quadrangular cross section, and the sleeve portion 12 is sleeved with a sleeve Rotating the screwing member, the driving system is provided with a first perforation (6], b 1 ) & position to the second: Fl r R η, -) perforation (6 1 4), the first; the first perforation (6 Between the first perforation (6 1 3) and the first perforation (6 1 3), the diameter of the younger-hole (614) is smaller than that of the second-to-perforation (614) and the perforation (613). (Wearing, the sleeve (612) is provided with beads: a Zhukong (615) system and a second perforation (". The control rod (62) is housed in the drive hole (613), the lever (62, 61) the first wear 21), _ 桧 (.6 2 ' with the action groove (6 U (6 1 1) is relatively positive, the action on the first pivot (1 2) and 筮 6 6 2 1) The straight trough large groove (6 2!) is a long hole; the diameter or the action is provided with a rod portion having a smaller diameter (2; (6 2 ) another end system # Μ 6 2 2 ), the rod portion (6 2 2 ) and the control 8 1375607 rod (6 2) is slightly τ-shaped due to the difference in diameter, and the rod portion (6 2 2 ) is fitted to the second perforation (6丄4) Inside, = rod ^ (6 2 2 ) is provided with a class part (6 2 3 ), which is matched with the position of the bead hole (6 1 5), and the control rod (6 2 ) A positioning portion (6 2 4 ) is formed in a concave shape or a groove shape, and the positioning portion (6 2 4 ) is provided for the end of the ejector pin (3 〇). ; ° The third projectile (6 3) is sleeved on the rod (6 2 2 ) of the control rod (6 2), and the third body (6 3) is attached to the control rod (2 and - The third body (6 3) of the perforation (6 1 3) is such that the control rod (62) has an elastic displacement effect in the first perforation (613); the bead body (6 4) is accommodated in In the bead hole (6 1 5) of the driving head (6丄), the bead body (6 4) is pressed against the control portion (6 2 3 ), and the bead body (64) is exposed with the displacement of the control rod or At no one bead hole (6 i 5), the control rod (6 2), the third body (6 3 ) and the bead body (64) are manual and pU H structures; 'a pivot rod (7 0 The pivoting rod (7Q) is disposed through the first pivot portion (i 2 ) of the main body (10), the second pivot portion (1) of the driving head (6丄), and the actuating groove of the control rod (62) ( 621), the pivoting rod (70) is configured to pivot the driving structure (6〇) to the arm (11) of the body (丄〇), and the control rod (62) is subjected to the third bomb (63) the spring force, so that the pivoted lever (7 square) against the actuating groove (6 2 9 1375607 l) a sidewall surface. Please continue to refer to the three-dimensional combination diagram shown in the third figure, the fourth picture is the upper part of the figure = the fifth figure is the cross-sectional view of the fourth figure A-A, the second push block (2: the first ', ° mouth 邛 ( 2 1) The upper and lower parts are placed in the body (玉〇) Cao (13), and the ejector pin (3〇) is placed in the hole of the rod (1)
二=於頂桿(30)上,該第二彈體(5〇) J 呷 ^干孔(1 4)底部而另端抵於頂桿(3 0)末端 "頂桿(3 0)前端部係略凸露於容桿孔(1 4)外, 巧:(? ◦)係使該二推塊(2 〇 )容置於容桿槽(1 塊(Γη該第一彈體(4 〇)及第二彈體(5 0)使二推 〇 ) hi於本體(1Q)⑽彈性位移功效,二推塊(2 動4 μ谷桿槽(13)外供操作者控制推移,該驅 前;^〇)係掩設於支臂(11)處,該頂桿 該控:Γ:Γ控制桿(62)之定位部(6 2 4 )内, 控制桿^ 2)叉第二彈體(6 3)之彈力頂抵,使該 丄(62)之階級部(623)較淺處對正珠孔(6 外。立置,該珠體(6 4 )係部份凸露於珠孔(6丄5 ) 規圖請=參閱第六圖所示,係本發明第一操作位置之上 壤(? η、圖#'第六圖之Α —Α處剖視圖’當操作者將推 離,=朝本體(10)之支臂(11)方向推移一距 該頂浐r q干(3 0 )係受連動而壓縮第-彈體(4 0 ), 干〇)前端部係抵於控制桿(6 2 )之定位部(6 10 1375607 2 4)上’該控制桿(6 2)係受頂 第三彈體(6 3)塵縮,該控制桿(3 〇)推移’使 2 3)較深處係與珠孔(6 2 5) \之階級部(6 該㈣頭ί61 珠11(64)係'無卡制套筒, 離。動頭(叫)之套合部(612)係可與套筒侠速脫 請繼續參閱第a _ & _〆 視圖,第九圖係第八圖之明第二操作位置之上 塊(2 0)朝本體(工〇) ^視圖,當操作者將推 (30)#為、查私 柄邠末端推移一距離,該頂桿 壓縮,該:(二向:二移位,使第二彈體(5 0 )受 (6 2 4)上,控制桿(6 2)之定位部 驅動頭(6 1 )係可於支臂(1 Ί γ 下勘,例如可㈣職頭 = 0),該頂r 直狀態,放開推塊(2 邊處。、干 削端部係頂抵於驅動頭(6 1 )側 刊視Ξ繼=閱第十圖所示,係本發明第二實施例之組合 =中二其係不設有第二彈體(5〇),該 :動二冓(〇 ::不设有凹孔狀之定位部(6 2 4 ),該 當推塊(2 Ω)6係抵於頂桿(3 Q )端部略作上下擺動, 〇 ) 。支孑(1 1 )處推移一距離,該頂桿(3 2 )传^動而抵於控制桿(6 2 )端部,該控制桿(6 =係位移而控制珠體(64)凸出或沒入珠孔(615) 請繼續參閱第+ —岡 _ 組合"不,係為本發明第三實施例之 指圖,錢施财,其係 η之 將推塊(2(Π向支臂Μ 7 h有弟一彈體(40), (3 〇 ) # ^ ^ 向推移一距離,該頂桿 〇>^l\〇ZZmf"m(60)'^ 係A、查 °卩末端推移一距離,該頂桿(3 〇 ) 抵^連動而脱開控制桿(62)之定位部(6 2 4 )容設 請繼續參閱第十二圖 組合剖視圖,該實施例中 二=弟四貫施例之 (6 2)係設有複數定位部 Η)深度方向係與作奸(6= ’細—定位部(6 垂直ha 621)之中心軸向呈相互 疋位部(6 2 4 )係縱向直線排列之,該頂 〇)係可抵於控制桿(62)之 产::内’使該本體(1〇)與驅動頭…)間呈固定; =續參閱第十三圖所示,係為本發明第五實施例之 驅二四圖係為組合剖視圖,該實施例中,該 驅動Sf M 1之驅動頭(6 1 ) 一端係呈圓頭狀,該 卜—二 )外周緣係設有複數定位孔(6 1 6 ),該 由、、Γ位孔(6 1 6 )深度方向係與第二樞部(6 1 1 ) ^相互垂直’每一定位孔(6 1 6 )係可與頂桿 m r端部位置相對正,該控制桿(6 2)亦設有複數 ^動6 2 4 )’該每—定位部(6 2 4 )深度方向與 a 6 2 1 )中心轴向呈相互垂直,該焉區動結構(6 12 ί3756〇7 郤(6 2 4 )或定位孔(6 j 6)位置後,再將頂桿(3 〇)端部對正定位部(6 2 4)或定位孔(6 1 6 )内定 位,5亥驅動結構(6 0)與本體(1 〇 )間即呈固定角戶, 該驅動結構(6 0)係設有複數定位部(6 2 4 )或^位 孔(6 1 6 ),該複數定位部(6 2 4 )或定位 ^立 6 )係使驅動頭(6 i )與本體(i 〇)間可口夕 1 角度之定位。 $夕種不同 因此本發明之F柄扳手結構具有產業利用性、^ • 及進步性,誠能符合發明專利之申請要件,Λ 、新穎性 請。 菱依法提出申 圖式簡單說明 第一圖 第二圖 第三圖 第四圖 第五圖· 第六圖 第七圖 第八圖 第九圖 第十圖, 第十 係本發明F柄扳手結構之讀分解圖。 係本發明F柄扳手結構之組合剖視圖。 係本發明F柄扳手結構之立體組合圖。 係本發明F柄扳手結構之上視圖。 係本發明第四圖之A-A處剖視圖。 、係本發明第—操作位置之上視圖。 、係本發明第六圖之A—A處剖視圖。 、係本發明第二操作位置之上視圖。 、係本發明第八圖之A—A處剖視圖。 、係本發明第二實施例之組合剖視圖。 ^ 圖 '係本發明第三實施例之組合剖視圖。 第十一圖、係本發明第四實施例之組合剖視圖。 笛 I 一 一圖、係本發明第五實施例之立體分解圖。 第4- 丁四圖、係本發明第五實施例之组合剖視圖。 【主要元件符號說明】 〇 )本體 1 2)第一樞部 14)容桿礼 2 0 )推塊 211)螺牙紋 3 〇 )頂桿 4 0)第一彈體 6 0)驅動结構 (11)支臂 (-1 3 )容桿槽 (2 1 )第一結合部 (3 1 )弟二結合部 (5 0)第二彈體 (6 1 )驅動頭 15 1375607 (6 1 1 )第二枢部 (6 1 3 )第一穿孔 (615)洙孔 (6 2 )控制桿 (6 2 2)桿部 (6 2 4)定位部 (6 4)珠體 (7 0 )樞設桿 (612)套合部 (6 1 4)第二穿孔 (6 1 6 )定位孔 (6 2 1 )作動槽 (6 2 3)階級部 (6 3 )第三彈體2 = on the ram (30), the second body (5 〇) J 呷 ^ the bottom of the dry hole (1 4) and the other end of the apex (30) end " top (3 0) front end The part is slightly exposed outside the rod hole (1 4). Q: (? ◦) allows the two push blocks (2 〇) to be placed in the rod groove (1 block (Γη the first body (4 〇 ) and the second body (5 0) makes the second push) hi on the body (1Q) (10) elastic displacement effect, the second push block (2 move 4 μ trough groove (13) for the operator to control the shift, before the drive ; ^〇) is placed at the arm (11), the ejector is controlled: Γ: Γ control rod (62) in the positioning part (6 2 4), the control rod ^ 2) fork second body ( 6 3) The elastic force is offset so that the grading (623) of the 阶级(62) is shallower than the right bead hole (6 outside. The bead (6 4 ) is partially exposed to the bead hole ( 6丄5) The plan please refer to the sixth figure, which is the first operation position of the invention (? η, Fig. #' sixth figure Α Α 剖 剖 ' 当 当 当 当 当 当 当 当 当 当 当 当 当 当 当 当 当 当 当Moving toward the arm (11) of the body (10), the stem (3 0) is interlocked to compress the first body (40), and the front end portion is compressed. On the positioning portion of the control lever (6 2 ) (6 10 1375607 2 4), the control lever (6 2) is subjected to dust reduction by the top third projectile (63), and the control lever (3 〇) is shifted 2 3) Deeper and beaded holes (6 2 5) \The class part (6 The (four) head ί61 Bead 11 (64) is a 'no card sleeve, away. The moving head (called) the fit ( 612) The system can be taken off with the sleeve man. Please continue to refer to the a _ & _ 〆 view, the ninth figure is the eighth operation of the second operation position above the block (2 0) toward the body (work) ^ view When the operator pushes (30)# to the end of the check, the ejector is compressed by a distance, and the ejector is compressed: (two-way: two shifts, so that the second body (5 0) is subjected to (6 2 4 On the upper part of the control lever (6 2), the driving head (6 1 ) can be mounted on the arm (1 Ί γ, for example, (4) head = 0), the top r state, release the push block ( 2 at the side. The dry-cut end is offset from the drive head (6 1 ). The following is shown in the tenth figure. The combination of the second embodiment of the present invention is not provided. Two-body (5〇), this: moving two 冓 (〇:: no concave hole-shaped positioning part (6 2 4 ), the push block (2 Ω) 6 At the end of the ejector pin (3 Q ), it is slightly oscillated up and down, 〇). The struts (1 1 ) are moved a distance, and the ejector pin (3 2 ) is transmitted to the end of the control rod (6 2 ). , the control lever (6 = system displacement and control the bead body (64) protruding or immersed in the bead hole (615) Please continue to refer to the + + _ _ combination " No, is the figure of the third embodiment of the present invention , Qian Shicai, its η will push the block (2 (Π向臂Μ 7h有弟一弹 body(40), (3 〇) # ^ ^ To move a distance, the ejector 〇>^ l\〇ZZmf"m(60)'^ A, check the end of the distance, the apex (3 〇) is interlocked and the positioning part (6 2 4 ) of the lever (62) is disengaged. Please continue to refer to the sectional view of the twelfth embodiment. In this embodiment, the two-fourth embodiment (6 2) is provided with a plurality of positioning parts Η) the depth direction system and the rape (6= 'fine-positioning part (6 The center axis of the vertical ha 621) is arranged in a longitudinal line with the mutual clamping portion (6 2 4), which is capable of abutting against the production of the control rod (62): the inner 'make the body (1〇) Fixed with the driver head...); Continued as shown in Figure 13, The fifth embodiment of the fifth embodiment is a combined sectional view. In this embodiment, the driving head (6 1 ) of the driving Sf M 1 has a rounded end at one end, and the outer peripheral edge of the second and second sides is provided with a plurality of Positioning hole (6 1 6 ), the depth direction of the hole, (6 16) and the second pivot portion (6 1 1 ) ^ are perpendicular to each other 'each positioning hole (6 16) can be topped The position of the end of the rod mr is relatively positive, and the control rod (6 2) is also provided with a plurality of movements 6 2 4 ) 'the depth direction of each positioning portion (6 2 4 ) and the center axis of the a 6 2 1 ) are perpendicular to each other. After the dynamic structure of the ( area (6 12 ί3756 〇 7 but (6 2 4 ) or the positioning hole (6 j 6) position, the apex (3 〇) end is aligned with the positioning part (6 2 4) or positioned Positioning in the hole (6 1 6 ), the 5 HAI drive structure (60) and the body (1 〇) are fixed angles, and the driving structure (60) is provided with a plurality of positioning parts (6 2 4 ) or ^ The bit hole (6 1 6 ), the complex positioning portion (6 2 4 ) or the positioning position 6 ) is a positioning of the angle between the driving head (6 i ) and the body (i 〇). Therefore, the structure of the F-handle wrench of the present invention has industrial applicability, ^• and progressiveness, and can meet the application requirements of the invention patent, Λ, novelty. Ling lingu according to law, simple description, first diagram, second diagram, third diagram, fourth diagram, fifth diagram, sixth diagram, seventh diagram, eighth diagram, ninth diagram, tenth diagram, tenth system, the invention Read the exploded view. A sectional view of a combination of the structure of the F-handle of the present invention. It is a three-dimensional combination diagram of the structure of the F-handle of the present invention. It is a top view of the structure of the F-handle wrench of the present invention. A cross-sectional view taken at A-A of the fourth drawing of the present invention. It is a top view of the first operation position of the present invention. It is a cross-sectional view taken along line A-A of the sixth drawing of the present invention. And is a view above the second operational position of the present invention. It is a cross-sectional view taken along line A-A of the eighth drawing of the present invention. A cross-sectional view of a combination of a second embodiment of the present invention. Figure 2 is a cross-sectional view of a combination of a third embodiment of the present invention. Figure 11 is a sectional view showing a combination of a fourth embodiment of the present invention. The flute I is a perspective exploded view of a fifth embodiment of the present invention. Fig. 4 - Fig. 4 is a sectional view showing a combination of a fifth embodiment of the present invention. [Main component symbol description] 〇) Body 1 2) First pivot 14) Capacity bar 2 0) Push block 211) Screw pattern 3 〇) Pole rod 4 0) First body 6 0) Drive structure (11 ) arm (-1 3 ) rod groove (2 1 ) first joint (3 1 ) second joint (50) second body (6 1 ) drive head 15 1375607 (6 1 1 ) second Pivot (6 1 3) first perforation (615) pupil (6 2 ) control rod (6 2 2) rod portion (6 2 4) positioning portion (6 4) bead body (70) pivot rod (612) ) hem (6 1 4) second perforation (6 1 6 ) locating hole (6 2 1 ) actuating groove (6 2 3) class part (6 3 ) third body