M297815 八、新型說明: 【新型所屬之技術領域】 本創作係與F柄扳手結構有關,尤指一種可將旋 轉動及固定於一特定角度之F柄扳手結構改良。 ' 【先前技術】 、,按吾人先賴知,F柄扳手可調整其固定角度之專 如吳國專利6 2 2 0 1 2 5 B 1習用背景第三圖所示之结 構’其係為:一旋桿(8 )具有一凸輪可頂凸一作動桿(: 〇 ),使之作動桿(1 0 )可卡制於旋轉頭(1 1 )後側上, 如此旋轉頭(1 i )相對於本體即可固定於一角度上,告 方疋轉方疋才干(8 ),使其凸輪往左或往右偏擺後,凸輪即不在 動桿(1 〇 ),作動桿(1 0 )即於本體之作動桿槽 、在後滑移,作動桿(1〇)即不在頂抵旋轉頭(i 1)後側’旋轉頭(i i)相對於本體即可旋轉至其 度此即為此專利案之動作原理,但此專利案卻具下述之 缺失。 ^卩動才干(1 0 )係容置於本體之作動桿槽内且 H乍動桿槽内前後滑移’但一般而言手工具操作之場所 ^係於各工廠中如修車廠中,手工具於操作時即容易受 亏所污損’如此當於使用一段時間後,本體之 :t槽與作動桿(10)間即容易因污損而使作動桿(1 、以於作動桿㈣祕,雖將㈣ 已無頂抵作動桿M n w 疋勒凸輪 動藤r " 作動桿(1 0)卻仍頂抵旋 、1 )後側,而產生旋轉頭(1 1)無法旋轉至另 M297815 一角度。 作動桿(10)與旋桿(8)間主要係靠凸輪 / 旦凸輪無頂抵時,旋桿(8 )與作動桿( 明 並热任何之控制結構,作動桿(1 0)需靠自然方十間M297815 VIII. New description: [New technical field] This creation is related to the structure of F-handle wrench, especially the structure of F-handle wrench which can rotate and fix at a certain angle. '[Prior Art], according to our first understanding, F-handle wrench can adjust its fixed angle, such as Wu Guo patent 6 2 2 0 1 2 5 B 1 used in the background shown in the third figure 'the system is: A rotating rod (8) has a cam for bulging an actuating rod (: 〇) so that the actuating rod (10) can be snapped onto the rear side of the rotating head (1 1 ), such that the rotating head (1 i ) is opposite The body can be fixed at an angle, and the squadron can only rotate (8), and after the cam is tilted to the left or right, the cam is not in the moving rod (1 〇), and the actuating rod (10) Actuating the rod groove on the body, sliding backwards, the actuating rod (1〇) is not at the back of the rotating head (i 1), the 'rotating head (ii) can be rotated relative to the body to the extent that this patent The principle of action of the case, but this patent case has the following shortcomings. ^Instability (1 0) is placed in the actuating rod groove of the body and slides back and forth in the H-moving rod groove. But in general, the place where the hand tools are operated is in various factories, such as the garage. When the tool is operated, it is easy to be damaged by the loss. So after a period of use, the body: between the t-slot and the actuating rod (10), it is easy to cause the actuating rod due to fouling (1, to actuate the rod (four) secret Although (4) has no topping action rod M nw Mueller cam moving rattan r " actuating rod (10) still tops the rotation, 1) the back side, and the rotating head (1 1) can not be rotated to another M297815 An angle. When the actuating rod (10) and the rotating rod (8) are mainly against the cam/densing cam without the top, the rotating rod (8) and the actuating rod (the control structure of any heat and heat, the actuating rod (10) depends on the nature. Fang Shijian
後/月移,罪自然滑移即可能產生不確定性HJ 產生滑移不順利而使旋轉頭(11)無法旋 相關ΐ:於上述美國專利案之缺失,本創作人藉多年從事 產開發終於有―能改善弊端之 【新型内容】 ’本創作係提供―㈣柄扳手結構改良,盆主 槽端底緣設一適當之深度之作動桿 槽與作動桿 後端具齒部,旋=:=:穿之枢孔;,頭於 ::於:體之作動桿槽内,於作動桿前端位置二 、之回部相配合之齒部,作動桿相 = 當形狀之作動槽;一旋桿係枢設於本體之=位 動内:=對於作動桿之作動槽位置具後凸輪以二 样^移!17制作動桿於本體之作動桿 心Γ連:=ΓΓ主要係靠後凸輪與作動槽 動桿槽内前後_。 作動桿可順利於本體之作 M297815 為使貴審查委員對本創作之目的、特徵、及功效有 著更進一步瞭解與認同,茲舉較佳實施例並配合圖式說明 於后·’ 【實施方式】 首先凊參閱第一圖所示,本創作係提供一種F柄扳手 結構改良,其主要結構係包含··本體(工〇 )、旋轉頭(2 0 )、作動桿(3 0 )、旋桿(4 〇 )、彈性體(5 〇 )所組 成,其中; 一本體(1 〇 )具適當長度之柄部於前端形成11形端, 於u形端之底緣設一適當之深度之作動桿槽(i i ),於作 動桿槽(1 1 )垂直方向開^ —旋桿槽(1 2 ),旋桿槽(1 2 ;與作動桿槽(i i )互為相通,旋桿槽(i 2 )之軸 心係與作動桿槽(i i )之軸心呈垂直重合於一點狀,旋 桿槽(1 2 )之底端呈小直徑(! 2 i )狀,小直徑(工 2 1 )處係與旋桿槽(i 2 )呈偏心狀,旋桿槽(丄2 ) 上緣具扣環槽(1 2 2 ),於U形端之橫向位置設貫穿 孔(1 3 ); 一旋轉頭(2 0 )前端形成驅動頭(2 3 ),驅動頭(2 3 )可為規格之四角頭狀,於後端具齒部(2 2 ),齒部(2 2 )可為—齒或環狀排列之複數齒狀,旋轉頭(2 〇 )橫 向位置設-樞槽(2 1 )以套合-樞桿(2 4 ),旋轉頭(; 0 )因樞桿(2 4)而樞設於本體(i 〇)之樞孔(丄3 ) 上; M297815 η二乍動桿(30)長度略小於本體(10)作動〜 彳 之深度’可套合於本體(10)之作動桿::: 1 )内,於作動护义山 F勒彳干槽(1 〇 )之齒部(2二:上,位置形成可與旋轉頭(2 丨(2 2 )相配合之齒部(3工),齒部 可為-回或環狀排列之複數齒狀,作動桿) 本體(1 〇)之旋桿槽(工3 )位置具適當形狀=於 (3 作動槽(3 2 )具後頂緣(3 = 2 2); 、、則頂緣(3 -旋桿(4 0 )具扣槽(4 〇工)以扣 02)而扣合於本體(1〇)之扣環槽(ι =4 設於本體= =旱“〇)與旋桿槽(12)間亦呈偏心狀,旋桿 (4 0)相對於作動桿(3 〇)之作動槽(3 後凸輪(41)與前凸輪以 、 之作動掸f q , 介胃才干(3 〇 ) 9 内,使之旋桿(4 〇)可控制作動桿(3 於本體(1 〇 )之作動桿槽(丄丄)内滑移· ^㈣(50)係先置入於本體(1〇)之作動桿 二彈性體(5〇)係壓抵作動桿(30),使 二;;^之齒部(31)唾—。) 當整體組合完之後,即如第二圖所示。 凊參閱第三圖及第四圖所示,當旋桿(4〇)於第一 ,置,亦為一般正常狀態下,彈性體(5 〇 )係壓抵作動 干0 ),此時旋桿(4 〇 )之前凸輪(4 2 )係頂抵於 M297815 作動桿(3 0)之作動槽( 作動桿㈡ 抵而無法於本體(1 〇)之作動桿槽所頂 動桿(3 0 )之齒部(3工 )内滑移,作 (2 2)呈相互嗔合之狀離,㈣疋轉碩(2 0)之齒部 角度上。 之“,㈣頭(20)即固定於— 請繼續參閱第五圖及第丄 …桿"〇)於第二 此時旋桿(4 0)之後凸輪(4係預角度狀態下, 〇)之作動槽(32)之後頂緣(32?抵於作動桿(3 〇)即受旋桿(4 0)之後凸輪( ’作動桿(3 (1 0)之作動桿槽(i: $動下而於本體 0 ),作動桿Μ n w* 移壓縮彈性體(5 作動杯(3 0)之齒部(3 i )即 之齒部(22)呈脫離狀態,旋轉 、2〇) 示。 用度上,當調整後即如第七圖所 當放開旋桿(4 G),彈性體(5Q)之彈性恢復力即 ::作動桿(3〇)’作動桿(3 0)之作動槽(32)即 f動旋桿(4〇)回第-位置’作動桿(30)之齒部(3 上)即與旋轉頭(20)之齒部(22)再相互喷合,旋 =碩(20)即可固定成所需之角度,此即為本創作之作 動原理。 請繼續參閱第八圖所示,係為本創作第二實施例,本 體(1 Q )之U形端處於上τ面可呈平面狀,旋桿(4 〇 ) M297815 以供手方便握持旋動,於 上緣具較大直徑之旋紐槽 )之旋鈕(4 0 3 ),使之 〇 )内,當組合後即如九 可具較大直徑之旋鈕(4 〇 3 ) 本體(1 0)之旋桿槽(1 2) (1 2 3 )以供容置旋桿(4 〇 旋桿(4 0 )可沒入於本體(1 圖所示。After the move/month shift, the natural slip of the sin may cause uncertainty. The HJ is not smooth and the spin head (11) cannot be related. In the absence of the above-mentioned US patent case, the creator has been engaged in production and development for many years. There are "new content" that can improve the drawbacks. 'This creation department provides ―(4) the structure of the shank wrench is improved. The bottom edge of the main groove end of the basin is set to a proper depth of the action rod groove and the rear end of the actuating rod has a tooth portion, and the rotation =:= : wearing the pivot hole;, head in:: in: the body of the action rod slot, at the front end of the actuating rod position 2, the back part of the matching tooth part, the actuating rod phase = when the shape of the moving groove; a rotating rod system The pivoting is set in the position of the body: = for the position of the actuating slot of the actuating lever, the rear cam is moved by two! 17 Making the moving rod on the main body of the moving rod The heart is connected: = ΓΓ mainly depends on the rear cam and the actuating groove. Actuator can be used smoothly on the body M297815 In order to enable the review board to have a better understanding and recognition of the purpose, features, and effects of this creation, the preferred embodiment will be described with reference to the following figure.凊Refer to the first figure, this creation provides an improved structure of the F-handle wrench. Its main structure consists of ··body (work), rotating head (20), actuating rod (30), and rotating rod (4). 〇), an elastic body (5 〇), wherein; a body (1 〇) with a suitable length of the shank at the front end forming an 11-shaped end, at the bottom edge of the u-shaped end of a suitable depth of the action rod groove ( Ii), in the vertical direction of the actuating rod groove (1 1 ), the rotary rod groove (1 2 ), the rotary rod groove (1 2; and the actuating rod groove (ii) are in communication with each other, and the rotary rod groove (i 2 ) The axis of the shaft and the axis of the actuating rod groove (ii) vertically coincide with each other. The bottom end of the rotary rod groove (1 2 ) has a small diameter (! 2 i ) shape, and the small diameter (work 2 1 ) The rotary rod groove (i 2 ) is eccentric, and the upper edge of the rotary rod groove (丄2) has a buckle groove (1 2 2 ), which is disposed at a lateral position of the U-shaped end. (1 3 ); a rotating head (20) front end forms a driving head (23), the driving head (23) can be a quadrangular head of the specification, and has a toothed portion (2 2 ) at the rear end, and the tooth portion (2) 2) It can be a plurality of teeth arranged in a tooth or ring shape, and the rotating head (2 〇) is laterally positioned - the pivot groove (2 1 ) to fit the pivot (2 4 ), and the rotating head (; 0) The rod (24) is pivoted on the pivot hole (丄3) of the body (i 〇); the length of the M297815 η two-twisting rod (30) is slightly smaller than the body (10) actuation ~ the depth of the ' can fit over the body (10) Actuator::: 1), in the tooth part of the protective fence (1 〇) of the protection mountain (2 :), the position can be formed with the rotating head (2 丨 (2 2 ) With the tooth part (3 work), the tooth part can be a multi-tooth shape of -back or ring-shaped, actuating rod) The position of the rotary rod groove (work 3) of the main body (1 〇) has an appropriate shape = (3 movement groove (3 2 ) with rear top edge (3 = 2 2); ,, then top edge (3 - rotary rod (4 0) with buckle groove (4 completion) to buckle 02) and snap to the body (1〇) The buckle groove (ι = 4 is set between the body = = drought "〇" and the rotary rod groove (12) is also eccentric, the rotary rod (4 0) Relative to the actuating lever of the actuating lever (3 〇) (3 rear cam (41) and front cam to operate, 掸fq, and stomach (3 〇) 9 so that the rotary lever (4 〇) can be controlled The actuating rod (3 is slipped in the actuating rod groove (丄丄) of the body (1 〇). ^(4)(50) is the actuating rod two elastic body (5〇) which is first placed on the main body (1〇) Actuate the rod (30) so that the teeth (31) of the two; When the whole combination is completed, it is as shown in the second figure.凊 Refer to the third and fourth figures. When the rotating rod (4〇) is placed at the first position, it is also in the normal state. The elastic body (5 〇) is pressed against the dry motion 0). At this time, the rotating rod (4 〇) The front cam (4 2 ) is attached to the M297815 actuating lever (30). The actuating lever (2) is not able to act on the main rod (1 〇). Sliding in the tooth (3), making (2 2) in the shape of mutual engagement, (4) on the angle of the tooth of the 硕 (2 0). ", (4) head (20) is fixed at - please Continue to refer to the fifth figure and the 丄... rod "〇) at the second moment (4 0) after the cam (4 series pre-angle state, 〇) after the action groove (32), the top edge (32? After the actuating lever (3 〇) is the cam after the rotating rod (4 0) (the actuating lever (3 (1 0) acts as the moving rod slot (i: $ moves down to the body 0), the actuating rod Μ nw* shifts the compression The elastic body (5 tooth part (3 i) of the moving cup (3 0) is the disengaged state, and the rotation (2 〇) is shown. The elastic restoring force of the opener (4 G) and the elastic body (5Q) is: The moving rod (3〇)' actuating rod (32) is the actuating groove (32), that is, the f-moving rod (4〇) is returned to the tooth portion (3) of the first position 'actuating rod (30) and the rotating head ( 20) The teeth (22) are sprayed to each other, and the rotation = master (20) can be fixed to the desired angle. This is the principle of the creation of this creation. Please continue to refer to the eighth figure, which is the creation of this In the second embodiment, the U-shaped end of the body (1 Q ) may be in a planar shape on the upper τ surface, and the rotating rod (4 〇) M297815 is convenient for holding and rotating, and has a larger diameter knob on the upper edge. ) The knob (4 0 3 ), so that it is inside, when combined, it can be a knob with a larger diameter (4 〇 3 ). The body (10) of the rotary groove (1 2) (1 2 3 ) for the arranging of the rotating rod (4 〇 rotating rod (4 0) can be immersed in the body (1).
請繼續參閱第十圖所示’係為本創作第三實施例,本 ,_(10)之旋桿槽(12卜側具珠孔(124)以容 二::體(60)及彈性元件(61),旋#(4〇)相對 4)。 4)位置具第一容槽(43)及第二容槽(4 請再參閱料—目所^,當旋桿( :槽=〇)受彈性元件(61)之彈力二置 ::抵於第二容槽(44)内,亦: ::::。(4°)於本體⑴)之旋桿槽(⑴内具定 桿(Π閱第十二圖所示’係為本創作第四實施例,作動 之作動槽⑴)-側係呈開放狀,亦即略: 圖所示’係為本創作第五實施例,旋棉 體狀。^輪(42)與後凸輪(41)可合併成— 睛參閱第十四圖所示’係為本創丄 (_可僅具後凸輪(川,再請參閱 M297815 當旋桿(4 Ο )於第一位置時,旋 (4 2)可頂抵作動桿(3 〇),作:4 0)係無前凸輪 彈性體(5 0 )之彈力而與 :(3 〇 )即需全靠 嚙合。 Η 2 〇)之齒部(2 2 ) 請繼續參_十六0所卜係 作動桿(30)可略呈W之片體:二,施例, (31)。 引鳊亦穹折具齒部 請繼續參閱第十七圖及第十 “( 3 1 ),齒部(3上)係呈珠體狀,旋轉頭( 後側之齒部(2 2)即略呈一凹缝& 、 …、山λ Ρ唂呈凹緣狀,以供珠體狀之齒部 ()肷入,此實施例旋轉頭(2 0)係可僅固定成一 角度。 請繼續參閱第十九圖所示,係為本創作第九實施例, 作動杯(3 0 )前端具容孔(3 〇工)以嵌合一齒部㈡ 1 ) w。卩(3 1 )係呈珠體狀’旋轉頭(2 Q)後側之齒 部(2 2 )係呈環狀排列之複數凹緣狀,以供珠體狀之齒 部(3 1 )嵌入,此實施例旋轉頭(2 〇 )係可固定成多 角度。 請參閱第二十圖及第二十一圖所示,係為本創作第十 實施例’本體(1 Q )之旋桿槽(i 2 )之軸心係與作動 桿槽(1 1 )之軸心成偏移狀,亦即二軸心係無重合,作 動杯(3 0)之作動槽(3 2)亦呈配合旋桿槽(1 2) 位置之偏移狀,此實旋例主要之優點係作動桿(3 0 )之 11 M297815 作動槽(3 2)可 如此作動槽(3 、。孔而非第一圖所示之異形狀孔, 成本。 2)即可用鑽頭鑽成-孔槽,即可節省其 請參閱第二+ 一 一 作動禅(3 ◦)得s _圖所不’係為本創作第十—實施例, 另-元件係為歯部(7二厂元件係為作動桿(30 ), 1 ),容孔(3 0 1 ) 卡動桿(3 0 )具容孔(3 〇 1)内具螺牙,街立 1 1 ),一鎖體(3 (3 1 )具鎖槽(3 孔(301)上,'、牙過齒部(31)而螺合於容 0)上。 使之齒部(3 1)即固設於作動桿(3 請繼續參閱第二十三圖所示 桿(4 0 )可僅具後 。為弟十—“例,旋 办/ 〇輪 41),於作動槽 頂緣(3 2 1 )與前頂$ ( 之後 緣( 3 2 3 )。 …)間之垂直面上具中頂 再芬閱第二十四圖所示,當旋桿(40)於第 時,旋桿(40)係無前凸輪(42)可乍二” 〇)’而旋桿“〇)之後凸輪“"係頂抵3 〇)之作動槽(32)之中頂緣(3 2 3 )處:作3 0 )即需全靠彈性體(5 0 )之彈力與旋桿(干3 四輪(4 1 )與中頂緣(3 2 3 )間之磨擦力而與= (2 0 )之齒部(2 2 )嚙合,此時旋轉頭(2 〇 ) u碩 施力於克服彈力及磨擦力後,旋轉頭(2 〇 )之去部猶 2)即可脫離作動桿(3 0)之齒部(3丄)而==(2 一角度。 W 至另 M297815 再繼續參閱第二十五圖所示,π 第二位置時’旋桿"〇)之後凸:J 40 :走轉至 桿(3〇)之作動槽(32)之#_(431;)即頂抵作動 (3 0)受旋桿(4 〇 )之後凸 :動桿 於作動桿槽(i i )内移位,旋:頁:後即無法 角度,請辅以第四圖比較之,於第_'_^20)即固定成― 〇)之後凸輪(41)之功用::—:五圖時,旋桿(4 效。 力用P4於前凸輪(42)之功 "係頂抵4=二時?(4〇)之後凸輪(4 (3 2 1 )’作動桿(3 〇 )二二槽(3 2 )之後頂緣 1)連動下^於本體(1〇)::二4〇)之後凸輪(4 =縮彈性體(5〇),旋轉頭(/ο;即可調整= 第十二實施例相對於第_每 輪(42),此時旋桿(二一圖係省略前凸 (41)即取代第-圖之前凸H轉約180度,後凸輪 之功效。 j凸輪(42)與後凸輪(41) 口月參閱第二十七圖所 旋桿(4 Q )可僅具後_ ’係為本創作第十三實施例’ 作動槽(32)之後頂緣於作動桿(3〇)之 而於作動槽(3 ? ) ^ d 2 1 )具後凹緣(3 2 1 1 ) 2 1)。 之$頂緣(3 2 2 )具前凹緣(3 2 M297815Please continue to refer to the tenth figure, which is the third embodiment of this creation, this, _(10) rotary rod groove (12 side with bead hole (124) to accommodate two:: body (60) and elastic element (61), spin # (4〇) relative to 4). 4) The position has the first pocket (43) and the second pocket (4 Please refer to the material-mesh ^, when the screw (: slot = 〇) is biased by the elastic element (61): In the second pocket (44), also: :::: (4°) in the rotary groove of the body (1) ((1) has a fixed rod (see the picture shown in the twelfth figure) In the embodiment, the actuating groove (1)) - the side system is open, that is, slightly: the figure shown in the figure is the fifth embodiment of the creation, the body of the cotton swab. The wheel (42) and the rear cam (41) can be Merged into - the eye is shown in Figure 14 'The original is a creator (_ can only have a rear cam (Chuan, then see M297815 when the rotating rod (4 Ο) is in the first position, the rotation (4 2) can The top action lever (3 〇), for: 40) is the elastic force of the front cam elastic body (50) and the (3 〇) is fully engaged. Η 2 〇) the tooth (2 2 ) Please continue to refer to the 16th and 10th working rods (30) which can be slightly W-shaped: 2, the case, (31). Please also refer to the 17th and 10th. "( 3 1 ), the tooth (3) is in the shape of a bead, and the rotating head (the rear side of the tooth (2 2) is a slightly concave &am p; , ..., mountain λ Ρ唂 is concave-shaped, for the bead-shaped tooth () to be inserted, in this embodiment, the rotating head (20) can be fixed at only one angle. Please continue to refer to the nineteenth figure As shown in the ninth embodiment of the creation, the front end of the actuating cup (30) has a hole (3) to fit a tooth (2) 1) w. The 卩 (3 1 ) is in the shape of a bead. The tooth portion (2 2 ) on the rear side of the head (2 Q) is in the shape of a plurality of concave edges arranged in a ring shape for embedding the bead-shaped tooth portion (3 1 ). In this embodiment, the rotating head (2 〇) can be Fixed to a multi-angle. Please refer to the twentieth and twenty-first figures, which is the axis system and the actuating rod groove of the rotary rod groove (i 2 ) of the body (1 Q ) of the tenth embodiment. The axis of (1 1 ) is offset, that is, the two-axis center is not coincident, and the actuating groove (32) of the actuating cup (30) is also offset by the position of the rotating rod groove (1 2). The main advantage of this actual example is that the 11 M297815 actuator groove (3 2) of the moving rod (30) can be used to move the groove (3, the hole instead of the different shape hole shown in the first figure, cost. 2) Drill bit into a hole, you can save it The second + one-to-one meditation (3 ◦) has s _ 所 所 不 系 创作 创作 创作 创作 创作 创作 创作 创作 创作 - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - , Hole (3 0 1 ) The lever (30) has a hole in the hole (3 〇1), the street is 1 1), and a lock body (3 (3 1) has a lock groove (3 holes ( 301) Upper, 'tooth toothed portion (31) is screwed to the capacity 0). The tooth portion (3 1) is fixed to the actuating rod (3, please continue to refer to the rod shown in Fig. 23 ( 4 0 ) can only be followed. For the younger brother - "Example, Rotation / 〇 wheel 41", in the vertical plane between the top edge of the actuating groove (3 2 1 ) and the front top $ (the trailing edge (3 2 3 ). ...) As shown in the twenty-fourth figure, when the rotary lever (40) is at the first time, the rotary lever (40) has no front cam (42) and can be ”"") and the rotary lever "〇" is followed by the cam "" The top edge (3 2 3 ) of the actuating groove (32) of the top (3) is required to be fully elastic (40) and the rotating rod (dry 3 four wheels (4 1 ) With the friction between the middle edge (3 2 3 ) and the tooth (2 2 ) of = (2 0 ), the rotating head (2 〇) u is applied to overcome the elastic force and friction force, and then rotate The head (2 〇) goes to the 2) and can be disengaged from the tooth (3 丄) of the actuating rod (3 0) and == (2 at an angle. W to another M297815. π In the second position, 'Rotary Rod "〇) is convex: J 40: #_(431;) of the actuating groove (32) that moves to the rod (3〇), that is, the top-acting (3 0)-receiving rod (4 〇) After convex: The moving rod is displaced in the actuating rod groove (ii), and the rotation: Page: After the angle is impossible, please compare it with the fourth picture. After the _'_^20) is fixed to ― 〇), the function of the cam (41) is::——: When the five figures are used, the rotary lever (4 effect. The force uses the P4 to work on the front cam (42)" 4 (2 〇) after the cam (4 (3 2 1 )' actuating rod (3 〇) two or two slots (3 2) after the top edge 1) linkage under the body (1 〇):: two 4〇) after the cam (4 = shrink elastic body (5 〇), rotating head (/ ο; can be adjusted = twelfth embodiment relative to the first _ each round (42), at this time the rotating rod (two one system Omit the lordosis (41), that is, the convex cam is rotated by about 180 degrees before the first figure, and the function of the rear cam. j cam (42) and rear cam (41), see the screw of the twenty-seventh figure (4 Q) It may be only after the _ ' is the creation of the thirteenth embodiment of the creation of the groove (32) after the top edge of the actuating rod (3 〇) and the actuating groove (3 ) ) ^ d 2 1 ) has a concave edge ( 3 2 1 1 ) 2 1). The top edge (3 2 2 ) has a front concave edge (3 2 M297815
請繼續參閱第二十八M 1八圖所示,旋浐r (41)於作動槽(32)之1 仟(4〇)之後凸輪 於前凹緣(3 2 2 1 )而1 ^引頂、毒(3 2 2 )處時可抵 圖所示,當旋轉旋桿(4 〇), 田明茶閱第二十九 緣(3 2 1 )處時可抵於你使之後凸輪(4 1 )於後頂 功效。 < 上1 )處而具定位Please continue to refer to the twenty-eighth M 1 eight diagram, the rotation r (41) after the 1 仟 (4 〇) of the actuation groove (32) is cam on the front concave edge (3 2 2 1 ) and 1 ^ top At the time of poison (3 2 2 ), as shown in the figure, when rotating the rotary rod (4 〇), Tianming tea can read the second nine-nine edge (3 2 1 ) to make the rear cam (4 1 ) in the back top effect. < above 1) with positioning
桿(4 0)、後凸輪(4 ”你马本創作第十四實施例,旋 狀,於旋桿(4 〇)上具 輪(4 2 )可為三元件 容槽( 4 0 5 ),後凸於槽(4 0 4 )及前凸輪 六嬰狄* (41)及前凸輪八⑻ 合置於其内,即如第一 4 2 )再刀別 圖所示。 之旋杯(4 0 )如第三十一 請參閱第三十二圄祕—^ 旋桿(4 〇 )、後凸輪(二:為=第十五實施例, 件狀,於旋桿(4 n、 )及别凸輪(4 2)可為三元 ♦輪容槽U〇r、/上具後凸輪容槽(4 0 4 )及前凸 •別容置於其内1後凸輪(4 1 )及前凸輪(4 2 )再分 桿體狀。 &輪(4 1 )與前凸輪(4 2 )可為圓 請繼續參閱筮二 例,旋桿(4 :十二圖所示,係為本創作第十六實施 為四元件狀’*、後凸輪(41)及二前凸輪(42)可 旋桿(4 〇 ) ’、即旋桿(4 0 )可具二前凸輪(4 2 ),於 具後凸輪容槽(4 0 4 )及二前凸輪容槽 及前凸輪(j凸輪(4 1 )後侧可具後凸輪彈體(4 1 1 ) 神4 2 )後側可具前凸輪彈體(4 2 1 )再分別 14 M297815 容置於其内,徭 妒狀,接几认凸輪(41)與前凸輪(42)飞炎 頫狀,後凸輪(4 ] ) v 4 Z )可為圓桿 (42)具前凸輪彈體 1)及丽凸輪 性作動。 ,使之於頂抵時可略具彈 如上所述旋桿(4〇)可具二前 桿(4 0 )亦可且-德 _ ( 4 2 ),同理旋 性 、—後凸輪(41),於賴時可較具平衡 二#㈣三十四圖所示’係為本創 方疋桿(4 0 )可於太鞞r τ η λ 卞七只靶例, n、t 於本體(1 0 )之側邊處,亦即旋裎r 〇 )與樞桿(2 4 ) 2巫乂一+人 + 』P万疋杯(4 作動样(”此時作動桿(3〇)之 作動槽(3 2)即為配合之側邊處,當組 五圖所示。 1夂丨如弟二十 请參閱第三十六圖所示,係為本創作第十八實施例, =轉頭(2 Q )可為具棘輪套合槽之棘輪扳手,而具可調 整角度。 睛芩閱第三十七圖所示,係為本創作第十九實施例, 旋轉頭(2 0 )可為具凸伸四角頭之棘輪扳手,而具可調 整角度。 請繼續參閱第三十八圖所示,係為本創作第二十實施 例,此實施例係與第一圖呈相反狀態,本體(1 〇 )具四 角頭而旋轉頭(2 0 )具適當長度之柄部,其餘結構均無 改變。 本創作之旋轉頭(2 0)可為如第一圖、第三十七圖 及三十八圖所示之旋轉頭(2 0 )外,旋轉頭(2 〇 )係 15 M297815 活動扳手 亦為任何 之手工具 可為任何結構如梅花扳手頭部、開口扳手頭部、 頭部...等,-般而言手工具業界所稱之〜 旋轉頭(20)與本體(10) f曰,可具調整角度 均稱之為F柄。 本創作主要之優點在於: 作動桿(3 Q)與旋桿(4 ◦)間主要係靠前凸輪(4 1 )與後凸輪(4 2 )與作動槽(3 2)間而產生連動之 控制結構’使之作動桿(3 0)可順利於本體(i 〇)之 作動#槽(1 1)内前後滑移’此連動之設計結構即不致 產生滑移之不確定性,旋轉頭(20)即可固定至適當角 度0 ” %r所述本創作兼具新穎及實用之功效,並能改進 4用之缺點’確為_極佳之創作,誠能符合新型專利之要 件’妥依法提起申請,尚析貴審查委員詳核細審,並早曰 賜准專利為禱!Rod (40), rear cam (4", the fourteenth embodiment of your Maben creation, a spiral shape, with a wheel (4 2 ) on the rotating rod (4 )) can be a three-element pocket (400), The sag is convex in the groove (4 0 4 ) and the front cam is inlaid with the front cam (4) and the front cam 8 (8), as shown in the first 4 2). As for the thirty-first, please refer to the thirty-second secret - ^ screw (4 〇), rear cam (two: for the fifteenth embodiment, pieces, on the rotating rod (4 n, ) and other cams (4 2) can be ternary ♦ wheel pocket U 〇 r, / with rear cam pocket (4 0 4 ) and bulge • can be placed inside 1 rear cam (4 1 ) and front cam (4 2) Re-dividing the body. The & wheel (4 1 ) and the front cam (4 2 ) can be round. Please continue to refer to the two cases, the rotary rod (4: the twelve figure shows the creation of the sixteenth Implemented as a four-element '*, rear cam (41) and two front cams (42) with a rotating rod (4 〇) ', ie the rotating rod (40) can have two front cams (4 2 ) with a rear cam The groove (4 0 4 ) and the two front cam pockets and the front cam (j cam (4 1 ) on the rear side can have a rear cam body (4 1 1 ) God 4 2 The rear side can have a front cam body (4 2 1 ) and then 14 M297815 respectively, which is placed in a shape, and the cams (41) and the front cam (42) are swelled and the rear cam (4) ] ) v 4 Z ) can be used for the round rod (42) with the front cam body 1) and the cam cam. It can be slightly elastic when the top is reached. The above-mentioned rotary rod (4〇) can have two fronts. The rod (4 0 ) can also be - _ ( 4 2 ), the same as the rotation, the rear cam (41), can be more balanced in the Lai time # (four) thirty-four figure shows the system is the founder The mast (40) can be used in the seven targets of the 鞞r τ η λ λ, n, t at the side of the body (10), that is, the rotation r 〇) and the pivot (2 4 ) 2 witch乂一+人+ 』P 疋 cup (4 for the moving sample (" at this time the actuating rod (3 〇) of the moving groove (3 2) is the side of the fit, as shown in the group five. 1 20, please refer to the thirty-sixth figure, which is the eighteenth embodiment of the creation. The = rotor (2 Q) can be a ratchet wrench with a ratchet sleeve groove and an adjustable angle. As shown in the thirty-seventh embodiment, the nineteenth embodiment of the present invention is the first embodiment, and the rotating head (20) can be convex. The ratchet wrench of the four-corner head has an adjustable angle. Please continue to refer to the thirty-eighth figure, which is the twentieth embodiment of the present invention. This embodiment is in the opposite state to the first figure, the body (1 〇) With a four-corner head and a rotating head (20) with a handle of appropriate length, the rest of the structure is unchanged. The rotating head (20) of this creation can be as shown in the first figure, the thirty-seventh figure and the thirty-eighth figure. In addition to the rotating head (20), the rotating head (2 〇) is 15 M297815. The adjustable wrench is also any hand tool. It can be any structure such as a wrench head, an open wrench head, a head, etc., - Generally speaking, the hand tool industry calls it ~ the rotating head (20) and the body (10) f曰, which can be called the F handle. The main advantage of this creation is that the control between the actuating lever (3 Q) and the rotating rod (4 ◦) is mainly between the front cam (4 1 ) and the rear cam (42) and the actuating slot (32). The structure 'make the action rod (30) smooth on the body (i 〇) to move the groove #1 (1 1) back and forth. 'The design structure of this linkage is not to cause the slip uncertainty, the rotary head (20 ) can be fixed to the appropriate angle 0 ” %r The creation has both novel and practical effects, and can improve the shortcomings of 4 use. It is indeed an excellent creation, and it can meet the requirements of the new patent. The application is still subject to detailed examination by the reviewing committee, and the patent is granted as a prayer!
16 M297815 Γ圖式簡單說明】 第-圖、係、本創作之結構分解圖。 第一圖、係'本創作之立體組合圖 f三圖、係本創作之第—位置組合剖視圖。 苐四圖、係本創作之第一命罢☆入 ^ 弟位置組合剖視圖。 第五圖、係本創作之第二位置組合剖視圖。 f六圖、係本創作之第二位置組合剖視圖。 f圖係本創作之動作後組合剖視圖。 f八圖、係'本創作第二實施例結構分解圖。 ^九圖係本創作第二實施例結構組合圖。 =十圖、係本創作第三實施例結構分解圖。 : 囷係本創作第三實施例組合剖視圖。 ^十目係、本創作第四實施例結構分解圖。 ^ 圖係本創作第五實施例結構分解圖。 =十四圖、係本創作第六實施例結構分解圖。 =十五圖、係本創作第六實施例結構剖視圖。 :十、圖係本創作第七實施例結構分解圖。 :十七圖係本創作第八實施例結構分解圖。 :十八圖、係本創作第八實施例結構剖視圖。 =十九圖、係本創作第九實施例結構分解圖。 第十圖、係本創作第十實施例結構分解圖。 第_ + 圖、係本創作第十實施例結構剖視圖。 17 M297815 第二十二圖 第二十三圖 弟十四圖 第二十五圖 第二十六圖 第二十七圖 第二十八圖 第二十九圖 係本創作第十一實施例結構分解圖。 係本創作第十二實施例結構分解圖。 係本創作第十二實施例第一位置剖視圖 係本創作第十二實施例第二位置剖視圖 係本創作第十二實施例第三位置剖視圖 係本創作第十三實施例分解圖。 係本創作苐十三實施例第一位置剖視圖 ^ 係本創作第十三實施例第二位置剖視圖 第三十圖、係本創作第十四實施例分解圖。 第三十一圖、係本創作第十四實施例組合圖。 第三十三圖 弟三十四圖 第三十五圖 第三十六圖 弟三十七圖 第三十八圖 第三十二圖、係本創作第十五實施例分解圖。 係本創作第十六實施例分解圖。 係本創作第十七實施例分解圖。 係本創作第十七實施例組合圖。 係本創作第十八實施例組合圖。 係本創作第十九實施例組合圖。 係本創作第二十實施例組合圖。 主要元件符號說明 1 0 )本體 12)旋桿槽 1 2 2 )扣環槽 1 2 4)珠孔 (1 1 )作動桿槽 (1 2 1 )小直徑 (1 2 3 )旋鈕槽 (1 3 )樞孔 18 M297815 (2 Ο )旋轉頭 ( (2 2 )齒部 ( (2 4 )樞桿 (3 0 )作動桿 ( (3 1 )齒部 ( 磉 (3 1 2 )鎖體 ( (3 2 1 )後頂緣 ( • ( 3 2 2 )前頂緣 ( (3 2 3 )中頂緣 (4 0 )旋桿 ( (4 0 2 )扣環 ( (4 0 4 )後凸輪容槽 ( (4 1 )後凸輪 ( (4 2 )前凸輪 ( • ( 4 3 )第一容槽 ( • ( 5 0 )彈性體 - (6 0 )珠體 ( 2 1 )樞槽 2 3 )驅動頭 3 0 1 )容孔 3 1 1 )鎖槽 3 2 )作動槽 3 2 1 1 )後凹緣 3 2 2 1 )前凹緣 4 0 1 )扣槽 4 0 3 )旋鈕 4 0 5 )前凸輪容槽 411)後凸輪彈體 4 2 1 )前凸輪彈體 4 4)第二容槽 6 1 )彈性元件 1916 M297815 简单 式 简单 】 】 】 】 】 】 】 】 】 】 】 】 】 】 】 】 】 】 】 The first picture is a three-dimensional combination diagram of the creation f.苐 four maps, the first life of the creation of this ☆ into the division of the position of the division. The fifth figure is a sectional view of the second position of the present creation. f Six diagrams, a sectional view of the second position of the creation. The f-picture is a sectional view of the action after the creation of the creation. F8, which is a structural exploded view of the second embodiment of the present creation. ^Nine diagram is a structural combination diagram of the second embodiment of the present creation. = Ten figure, a structural exploded view of the third embodiment of the present creation. : A cross-sectional view of a third embodiment of the present invention. ^ Ten mesh system, the fourth embodiment of the present creation is an exploded view of the structure. ^ Figure is a structural exploded view of the fifth embodiment of the present creation. = Fourteen figure, an exploded view of the sixth embodiment of the present creation. The fifteenth diagram is a cross-sectional view showing the structure of the sixth embodiment. Fig. 10 is a structural exploded view of the seventh embodiment of the present invention. : The seventeenth figure is an exploded view of the eighth embodiment of the present creation. Fig. 18 is a cross-sectional view showing the structure of an eighth embodiment of the present invention. The nineteenth figure is an exploded view of the ninth embodiment of the present creation. The tenth figure is an exploded view of the tenth embodiment of the present creation. The _ + diagram is a cross-sectional view showing the structure of the tenth embodiment. 17 M297815 Twenty-second picture twenty-third figure brother fourteen figure twenty-fifth figure twenty-sixth figure twenty-seventh figure twenty-eighth figure twenty-ninth figure is the structure of the eleventh embodiment of the present creation Exploded map. An exploded view of the twelfth embodiment of the present invention. A twelfth embodiment of a twelfth embodiment is a second positional cross-sectional view of the twelfth embodiment. A twelfth embodiment of the twelfth embodiment is a third positional cross-sectional view. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 13 is a cross-sectional view of a first position of a thirteenth embodiment. FIG. 30 is an exploded view of a fourteenth embodiment of the present invention. The thirty-first figure is a combination diagram of the fourteenth embodiment of the present creation. Thirty-third figure brother thirty-fourth figure thirty-fifth figure thirty-sixth figure brother thirty-seventh figure thirty-eighth figure thirty-two figure, is an exploded view of the fifteenth embodiment of the present creation. An exploded view of the sixteenth embodiment of the present invention. An exploded view of the seventeenth embodiment of the present invention. A combination diagram of the seventeenth embodiment of the present invention. This is a combination of the eighteenth embodiment of the present invention. This is a combination of the nineteenth embodiment of the present creation. This is a combination of the twentieth embodiment of the present creation. Main component symbol description 1 0) Body 12) Rotary groove 1 2 2) Buckle groove 1 2 4) Bead hole (1 1 ) Actuating rod groove (1 2 1 ) Small diameter (1 2 3 ) Knob slot (1 3 )Pivot hole 18 M297815 (2 Ο ) Rotating head ( (2 2 ) tooth ( ( 2 4 ) pivot (3 0 ) actuating rod ( (3 1 ) tooth ( 磉 (3 1 2 ) lock body (3 2 1) Rear top edge ( • ( 3 2 2 ) front top edge ((3 2 3 ) middle top edge (4 0) rotary lever ((4 0 2) buckle ((4 0 4 ) rear cam pocket ( (4 1 ) rear cam ((4 2 ) front cam ( • ( 4 3 ) first pocket ( • ( 5 0 ) elastomer - (6 0 ) bead ( 2 1 ) pivot slot 2 3 ) drive head 3 0 1 ) Hole 3 1 1 ) Locking groove 3 2 ) Actuating groove 3 2 1 1 ) Rear concave edge 3 2 2 1 ) Front concave edge 4 0 1 ) Buckle groove 4 0 3 ) Knob 4 0 5 ) Front cam capacity Slot 411) rear cam body 4 2 1 ) front cam body 4 4) second pocket 6 1 ) elastic element 19