200938344 九、發明說明: 【發明所屬之技術領域】 本創作係一種運用於精密加工或搭配光學元件使用之 手動微調平台I罟,士、 裝置尤扣一種可以降低驅動轉柄高度以利 、乂里工件定位或靈活彈性組合之手動微調平台裝置。 【先前技術】 φ 手動微調平台裝置係採用高精密度的線性滑軌,搭配 :、有微調功能的驅動轉柄,廣泛地利於各種自動化精密 之定Γ、加工或測試等場合’並且搭配各種光學元件 S欢測儀為,能夠進行高精密度的量測或檢驗作業。 如第六圖所示係為既有的單軸式手動微調平M90), 該手動微調平台(90)係設有—平台式的基座(91),於今基 座(91)的上方以可線性滑移形態結合設有一滑座(92),並 且利用相對設置的二鉤部(911,921),讓—彈簧(93)能夠以 每性力作用於該基座(9彳)與該滑座(92)之間,於該基座⑻) 對應於線性滑移方向的—側結合設有—臂座(94),於該臂 座(94)設有—朝上伸設的立柱(941),讓—驅動轉柄(Μ)能 夠以對應於線性滑移方向的形態貫穿結合於該立柱(941), 並且讓-受該驅動轉柄(95)驅動的推軸(96)能夠頂推於該 滑座(92)的相對應側;如此’利用該驅動轉柄_驅動該 推軸(96)頂推該滑座(92) ’搭配彈簧(93)所提供的彈性作用 力,即可達到控制該滑座(92)產生精密的線性微調功能。 既有的手動微调平台(Q Q彳令j丨丨3祭1 〇 σ 又到弹簧(93)安裝形態的限 制,使得推軸(96)頂抵於滑座(92)的位置必須高於彈箸(93) 4 200938344 ,進而造成臂座(94)的立柱(941)頂緣會高於滑座(92) 面;如此,受到立柱(941)高度突出於滑座(92)頂面的限制 ,不僅會造成既有手動微調平台(9〇)無法提供規格尺 於滑座(92)的較大型工件的定位使用,並且在利用單 手動微調平台(90)相互堆疊組合成多轴式使用形態時 會造成裝配運用上的諸多限制與不便。 【發明内容】 〇 A解決既有手動微調平台有關於無法提供較大型工件 定位使用及難以彈性組合運用的不足及限制,本創作提供 一種可以降低驅動轉柄高度以利於較大型工件定位使用或 靈活彈性組合之手動微調平台裝置。 本創作所提供的手動微調平台裝置’主要是於基座與 滑座於相向面的相對側相對凸設有一撞抵塊及一推抵塊,、 讓彈性件以被壓縮形態裝配於擋抵塊及推抵塊之間,並將 受驅動轉柄驅動的推抽直接頂抵於滑座的推抵塊位置,藉 ©以讓驅動轉柄及臂座的高度均低於滑座的頂面,有效地』 到提供較大型工件定位使用或彈性堆疊組合等實用效能。 本創作所運用的技術手段係在於提供一種手動微調平 台裝置,係包括: 一基座’係設為矩形平台形式,於該基座的頂側的中 間區域設有一呈轴向設置的設置部,於該設置部的一端設 有一突出於該基座頂面的擋抵塊; ^ β座,係位於該基座上方的矩形平台形式,於朝向 /基座的相向面中間區域相對於該擋抵塊的一端設有一朝 5 200938344 下突出的推抵塊; 八/f執組件’係結合心該基㈣該滑座之間,並包 3有一,,且以上平行於該設置部的線性滑軌; 塊之^性件’係以受麼縮形態裝配於該播抵塊與該推抵 ❻ Ο -臂座,係固設於該基座的一側,於該臂座 =设的立柱’該立柱的頂側高度係低於該滑座的頂面; -驅動轉柄,係穿設結合於該臂座,並包括有 及—設於該驅動轉柄軸心位的 於該滑座。 部係頂抵 動微調平台襄置,其中的臂座係固設於基座 ’並於對應該推抵塊的位置開設有-柄 :推:Γ;係穿設結合於該柄孔,推轴的端部係頂抵於 :有或者是其中的滑座在平行於進給方向的-側設 有、…有一頂推件’並讓推軸的端部頂抵於該頂推件。 手動微調平台裝置,其中的滑軌組件係包括兩 ,,且線性“ ’各線性滑軌係包括一結合於基座的下滑軌, 以及一結合於潘* 66 V、、典±1· 、 的上β轨;於兩下滑軌及設置部之間, 圍設形成一供彈性件裝配的槽狀空間。 轴述Γ手動微5周平台裝置,其中的基座於平行設置部 軸向的一側結合設有一呈 Η-右^ Τ )式的疋位板,於該定位板 ==行於該設置部轴向的長孔;設-定位件穿經 5亥長孔而螺鎖結合於滑座的相對應側。 6 200938344 前述的手動微調平台裝置,其中的 撓性管件。 焯丨生件係為一可 ·· 本創作所提供手動微調平台裝置,可^ ^ ·· 功效增進至少包括: 了以獲传的優點及 1_本創作利用改變彈性件及驅動轉柄的設 恥動轉柄及臂座的頂侧高度均低於 " ^ 4. 〇 , , ^ 及的頂面,不僅能夠 徒i、規格尺寸大於滑座的較大型工件的定位 以靈活地彈性堆疊組合成各種多軸式的 A ° ,大幅提升手動微調平台裝置的產業利用價值。°°台裝置 、2.本創作利用改變彈性件及驅動轉柄的 夠進一步降低整個手動微調平 》月匕 a, 丁 D衣1的厚度,達到薄型化 及輕巧化的實用效能。 』/寻生化 【實施方式】 為能詳細2料創作的技術特徵及實I力效,並可依 '、…兒明書的内容來實施’玆進一步以如圖式所示 Q施例’詳細說明如后·· 议征夏 本創作所提供之手動微調平台裝 且》』权住霄施例係如 第一至四圖所示,其係包括:一基座(1〇)、—位於 (1〇)上方的滑座(20)、設於該基座(1〇)與該滑 :二 -滑執組件(30)與-彈性件(4Q)、_結合於該基座 的臂座(50),以及-結合於該臂座(5〇)且能夠頂推 (20)的驅動轉柄(60);其中·· 如第二、三圖所示,該基座(1〇)係設為平台形式的矩 形板塊構造,於該基座(1〇)頂側的中間區域形成 呈車由 7 200938344 向設置而提供該彈性件(40)安裝的設置部(11),於該設置 部(11)-端的位置設有—突出於該基座(10)頂面的擋抵塊 (12),並於該設置部⑴)的兩側各凹言史有一道谈槽(13) ’於 各嵌槽(13)的位置各間p馬貫設m(14),讓四螺检⑽ 能夠分別穿經各穿孔(14)而鎖裝定位該滑軌組件(3〇);於 該基座(10)的四角隅位置各貫設有一能夠將該基座(1〇)安 裝定位的固定孔(16);該基座(1〇)於平行該設置部軸向 的一側結合設有一呈牆面形式的定位板(1 7),於該定位板 (17)開設有一道平行於該設置部(11)軸向的長孔(171)。 如第二、三、四圖所示,該滑座(20)的規格形式係設 為與該基座(10)相匹配的形態、,並於朝向該基座(1〇)的相 向面中間區域凹設形成有一平行於該設置部(1 1)的嵌槽 (21),於該嵌槽(21)相對於該擋抵塊(12)的一端設有一朝下 突出的推抵塊(22),並於該嵌槽(2彳)的兩側位置各間隔貫 設有二穿孔(23),讓四螺栓(24)能夠分別穿經各穿孔(23)而 鎖裝定位該滑轨組件(30);對應於該定位板〇 7),一定位 件(25)穿經該長孔(171)而螺鎖結合於該滑座(2〇)的相對應 側,當該滑座(20)微調到定位後,可以利用該定位件(25) 螺鎖迫緊該定位板(1 7)的方式,將該滑座(2〇)鎖緊定位。 如第二、三、四圖所示,該滑軌組件(3〇)係包含兩組 分別以一下滑執(31)及一上滑軌(32)所組成的線性滑軌; 其中,配合各螺栓(1 5)的螺鎖固定,兩下滑軌(31)以對應 形態嵌置定位該基座(10)所設的兩嵌槽(1 3)位置,並於該 兩下滑軌(31)及該設置部(1彳)之間圍設形成一供該彈性件 8 200938344 (4〇)裝配的槽狀空間:配合各螺栓(24)的螺鎖固定,兩上 滑軌(32)以貼靠於所對應該下滑執(31)的形態,嵌置定位 該滑座(20)所設的嵌槽(21)兩側位置,並於上、下滑軌 (3 2,31)之間概設有_塾片(33)。 ❹ ❹ 如第一、四圖所示,該彈性件(40)係可以為螺旋彈簣 可抗('生g件及橡膠桿+主等各種具有可被壓、缩及復位的彈 性構件,本創作不作特定的限制,如圖所示的彈性件(40) 為可撓Jt g件的實施形態,該彈性件(4〇)以受壓縮形態 虞配於基座(1 Q)與滑座(2Q)所設㈣抵塊(1 2)與推抵塊(Μ) 之間。 如第二、1、四圖所示’該臂座(50)係利用二結合栓 則鎖固結合於該基座(1Q)鄰靠該推抵塊(22)位置的一側, 於該臂座(50)設有-朝上伸設的立柱(52),該立柱(52)的頂 側高度係略低於該滑座(20)的頂φ,並且於對應該推抵塊 (22)的位置開設有—對應於該滑座(2〇)線性滑移方向的柄 孔(53) 〇 如第二、三、四圊所示,該驅動轉柄(6〇)於朝向該滑 ^(20)的_端係設有„可密合穿設於該柄孔㈣的結合部 並m立環(62)螺'鎖於該結合部(61)的穿出端而讓 =動轉柄(60)結合定位於該臂座⑽),於該驅動轉柄_ 轉筒(63) ’可以驅動一設於該驅動轉柄(6〇)轴心位 =轴(64)產生伸出或縮回的進給動作,並且該推轴(64) 而。P係直接頂抵於該滑座(2〇)的該推抵塊(22)。 如此,本創作利用前述的基座(1〇)、滑座(2〇)、滑軌 9 200938344 組件(3〇卜彈性件(4〇)、臂座(5G)及㈣轉柄_等構件, 組構成如第一圖所示的新型手動微調平台裝置。 請參閱第-、四圖所示,本創作利用改變彈性件(4〇) ^區動轉柄_的相對設置方式,能夠讓驅動轉柄(6〇)及 座(6〇)的頂側高度均低於滑座(2〇)的頂自,縱使規格尺 :大於滑座(20)的較大型工件,依然可以直接裝配定位於 ’月座(20)的台面來進行加卫或檢測,Λ幅提升手動微調平200938344 IX. INSTRUCTIONS: [Technical field of invention] This creation is a manual fine-tuning platform for precision machining or use with optical components. The device and device can be used to reduce the height of the drive handle to facilitate the operation. Manual fine-tuning platform unit for workpiece positioning or flexible combination. [Prior Art] φ Manual fine-tuning platform device adopts high-precision linear slide rails, with: the drive handle with fine-tuning function, which is widely used in various automatic precision setting, processing or testing, etc. The component S is a high-precision measurement or inspection operation. As shown in the sixth figure, it is an existing single-axis manual fine-tuning flat M90). The manual fine-tuning platform (90) is provided with a platform-type base (91), which is above the base (91). The linear sliding form is combined with a sliding seat (92), and with the oppositely disposed two hooks (911, 921), the spring (93) can be applied to the base (9彳) and the sliding seat with each force ( 92) between the base (8)) corresponding to the linear sliding direction-side joint is provided with an arm seat (94), and the arm base (94) is provided with a column (941) extending upwards, The drive-driving shank (Μ) can be coupled to the upright (941) in a form corresponding to the linear slip direction, and the push shaft (96) driven by the drive swivel (95) can be pushed over the The corresponding side of the sliding seat (92); thus, by using the driving handle _ driving the pushing shaft (96) to push the sliding seat (92) with the elastic force provided by the spring (93), the control can be achieved. The slider (92) produces a sophisticated linear trimming function. The existing manual fine-tuning platform (QQ彳J丨丨3祭1 〇σ and the spring (93) installation form limit, so that the position of the push shaft (96) against the slide (92) must be higher than the magazine (93) 4 200938344, which in turn causes the top edge of the upright (941) of the arm (94) to be higher than the slide (92); thus, the height of the upright (941) protrudes from the top of the slide (92). Not only does the existing manual fine-tuning platform (9〇) not provide the positioning of larger workpieces with gauges (92), but also when stacked with a single manual fine-tuning platform (90) into a multi-axis configuration. It will cause many limitations and inconveniences in assembly and application. [Summary of the Invention] 〇A solves the limitations and limitations of the manual fine-tuning platform, which cannot provide large-scale workpiece positioning and difficult to use elastic combination. The manual height adjustment platform device is suitable for positioning of large workpieces or flexible and flexible combination. The manual fine adjustment platform device provided by the present invention is mainly convex on the opposite side of the opposite side of the base and the sliding seat. The utility model is provided with a collision block and a pushing block, and the elastic member is assembled between the blocking block and the pushing block in a compressed state, and the pushing of the driven rotating handle is directly pushed against the sliding seat. The position of the block, by means of the height of the drive handle and the arm seat are lower than the top surface of the slide, effectively providing practical utility such as positioning of large workpieces or elastic stacking. The technical means used in this creation The invention provides a manual fine-tuning platform device, comprising: a pedestal being in the form of a rectangular platform, and an axially disposed portion is disposed in an intermediate portion of the top side of the pedestal, and one end is disposed at one end of the arranging portion a blocking block protruding from the top surface of the base; the β seat is in the form of a rectangular platform above the base, and is disposed at an end of the facing surface of the facing/base relative to the end of the blocking block. a protruding push-up block; an eight/f-segment component is attached to the base (four) between the slides, and the package 3 has one, and the above is parallel to the linear slide of the setting portion; Assembled in the broadcast block and Pushing the Ο 臂 - the arm seat is fixed on one side of the base, and the height of the top side of the column is lower than the top surface of the sliding seat; The piercing is coupled to the arm seat and includes and is disposed on the sliding shaft of the driving shaft. The top of the system acts on the fine adjustment platform, wherein the arm seat is fixed on the base At the position corresponding to the push block, a handle is provided: a push: a push; a thread is coupled to the handle hole, and the end of the push shaft is attached to the top: the slide having or in parallel with the feed direction - There is a side, ... a pusher' and the end of the push shaft is pressed against the pusher. Manually fine-tuning the platform device, wherein the slide assembly consists of two, and linear "' linear slide system The utility model comprises a sliding rail coupled to the base, and an upper β rail combined with the Pan 66V, and the ±1·, and between the two sliding rails and the setting portion, forming a slot for assembling the elastic member Space. The axis is a manual micro 5-week platform device, wherein the base is coupled with a clamping plate of a type of Η-right Τ in the axial direction of the parallel arrangement portion, and the positioning plate== is in the setting portion The axial long hole; the positioning member passes through the 5 hole long hole and the screw lock is coupled to the corresponding side of the sliding seat. 6 200938344 The aforementioned manual fine-tuning platform device, wherein the flexible pipe fittings. The twins are a manual fine-tuning platform device provided by the author. The enhancements include at least: the advantages of being transmitted and the use of changing the elastic members and driving the handle The top side height of the swaying handle and the arm seat are lower than the " ^ 4. 〇, , ^ and the top surface, not only can the positioning of the larger workpiece with the size larger than the slider to flexibly elastically stack the combination. A variety of multi-axis A °, greatly enhance the industrial utilization value of the manual fine-tuning platform device. ° ° table device, 2. This creation uses the change of the elastic member and the drive of the handle to further reduce the thickness of the entire manual fine-tuning, the thickness of the D-coat 1 to achieve the practical effect of thinning and light weight. 』/Search biochemical [Implementation] In order to be able to detail the technical characteristics of the creation of 2 materials and the actual I effect, and can be implemented according to the contents of the ', ... children's book, 'further further as shown in the figure Q example' detailed The description is as follows: • The manual fine-tuning platform installed by Xia Ben Creative Co., Ltd. is set up as shown in the first to fourth figures, which includes: a pedestal (1〇), located at ( 1〇) an upper sliding seat (20), a base provided on the base (1〇) and the sliding: two-sliding assembly (30) and an elastic member (4Q), _ coupled to the base of the base ( 50), and - a drive handle (60) coupled to the arm seat (5〇) and capable of pushing (20); wherein, as shown in the second and third figures, the base (1〇) is provided In the form of a rectangular plate in the form of a platform, a setting portion (11) for mounting the elastic member (40) is provided in the middle portion of the top side of the base (1〇), and the mounting portion (11) is provided. 11) - the position of the end is provided - a blocking block (12) protruding from the top surface of the base (10), and there is a groove (13) in each of the two sides of the setting portion (1) The position of the slot (13) is p The m (14) is disposed so that the four screw inspections (10) can be respectively inserted through the perforations (14) to lock and position the slide rail assembly (3〇); the four corners of the base (10) are each capable of The base (1〇) is mounted with a positioning fixing hole (16); the base (1〇) is coupled with a positioning plate (17) in the form of a wall surface on a side parallel to the axial direction of the setting portion, The positioning plate (17) is provided with a long hole (171) parallel to the axial direction of the setting portion (11). As shown in the second, third, and fourth figures, the specification form of the slider (20) is set to match the pedestal (10), and is in the middle of the facing surface facing the pedestal (1 〇). The recessed portion is formed with a recessed groove (21) parallel to the disposed portion (11), and a recessed protruding block (22) is provided at an end of the recessed recessed portion (21) relative to the blocking member (12). And two through holes (23) are respectively arranged at two sides of the recessed groove (2彳), so that the four bolts (24) can respectively pass through the respective through holes (23) to lock and position the slide rail assembly ( 30); corresponding to the positioning plate 〇 7), a positioning member (25) passes through the long hole (171) and is screw-locked to the corresponding side of the sliding seat (2〇), when the sliding seat (20) After fine-tuning to the positioning, the positioning member (25) can be screwed to tighten the positioning plate (17), and the sliding seat (2〇) can be locked and positioned. As shown in the second, third, and fourth figures, the slide rail assembly (3〇) includes two sets of linear slide rails composed of a lower slide (31) and an upper slide rail (32); The bolts of the bolts (15) are fixed, and the two sliding rails (31) are correspondingly arranged to position the two slots (13) provided by the base (10), and the two sliding rails (31) and A groove-shaped space for assembling the elastic member 8 200938344 (4〇) is formed between the setting portions (1彳): fixed with a screw lock of each bolt (24), and the two upper sliding rails (32) are abutted In the form corresponding to the sliding down (31), the two sides of the slot (21) provided by the sliding seat (20) are embedded and positioned between the upper and lower rails (32, 31). _ 塾 film (33). ❹ ❹ As shown in the first and fourth figures, the elastic member (40) can be made of a spiral magazine (the raw member and the rubber rod + main body have various elastic members that can be pressed, contracted and reset. The creation is not limited, and the elastic member (40) as shown in the figure is an embodiment of a flexible Jt g member which is coupled to the base (1 Q) and the carriage in a compressed form ( 2Q) Set (4) between the block (1 2) and the push block (Μ). As shown in the second, first and fourth figures, the arm seat (50) is locked and bonded to the base by the two joint bolts. The seat (1Q) abuts against the side of the pushing block (22), and the arm base (50) is provided with a column (52) extending upward, and the top side height of the column (52) is slightly lower At the top φ of the carriage (20), and at a position corresponding to the pushing block (22), a shank hole (53) corresponding to the linear sliding direction of the carriage (2〇) is as follows: As shown in FIG. 3 and FIG. 4, the driving handle (6〇) is provided at the _ end of the sliding door (20) so as to be tightly coupled to the joint portion of the shank hole (4) and the m-ring (62) The screw 'locks to the piercing end of the joint portion (61) to allow the = rotating handle (60) to be combined Positioned in the arm seat (10)), the drive handle _rotor (63) ' can drive a feed provided on the drive shank (6 〇) pivot position = shaft (64) to extend or retract Acting, and the push shaft (64). P is directly against the push block (22) of the slide (2). Thus, the present creation utilizes the aforementioned base (1〇), slide ( 2〇), slide rail 9 200938344 components (3 〇 elastic member (4 〇), arm seat (5G) and (four) shank _ and other components, the group constitutes a new manual fine-tuning platform device as shown in the first figure. As shown in the first and fourth figures, this creation can change the top side height of the drive handle (6〇) and the seat (6〇) by changing the relative arrangement of the elastic member (4〇) ^ zone rotation handle_. On the top of the slide (2〇), even if the gauge is larger than the larger part of the slide (20), it can still be directly mounted on the countertop of the 'moon seat (20) for reinforcement or inspection. Manual fine adjustment
台裝置裝配運用的靈活性;#者’本創作的裝配設置形態 ,不僅能夠讓使用者靈活地將多個手動微調平台裝置,彈 性堆疊組合成各種形式的多軸式手動微調平台,並且可以 進-步降低手動微調平台|置的厚度,達到薄型化及輕巧 化的效能。 /請參閱第五圖所示的本創作另一較佳實施例,該實施 例係於滑座(20)平行於進給方向的一側設有結合設有一呈 L形塊體形態的頂推件(26)’同時配合將臂座(5〇)及驅動轉 〇 ()裝置方;5又有该頂推件(26)的相同側,讓驅動轉柄(60) 的推軸(64)能夠頂抵於該頂推件(26),藉以由驅動轉柄(6〇) 來控制手動微調平台裝置的進給,本實施例同樣具備有讓 手動微調平台裝置裝配運用的靈活性、薄型化及輕巧化的 實用效能。 以上所述’僅是本創作的較佳實施例,並非對本創作 可形式上的限制’任何所屬技術領域中具有通常知識 右在不脫離本創作所提技術特徵的範圍内,利用本創 作所揭示技術内容所作出局部更動或修飾的等效實施例, 200938344 ::::::創作的技術特_,均仍屬於本創作技術 II圆八間早說明】 第一圖係本創作較佳 第ir立體結構圖。 =-圖係本創作較佳實施例之 ㈣係本創作較佳實施例 =圖。 之立體結構圖。 假心線形式呈現 ❿ 弟四圖係本創作較佳眚祐你丨夕z ★ 夕 ^乂佐貫她例之組合剖面圖。 第五圖係本創作另一齡伟眚·姑y , 例之立體結構圖。 t、圖係既有手動微調平台裝置之立 圖。 1 W、、、°楫不意 【主要元件符號說明】 (1 0)基座 (1 1)設置部 (12)擋抵塊 (1 3)嵌槽 (14)穿孔 (15)螺拴 (16)固定孔 (1 7)定位板 (171)長孔 (20)滑座 (21)嵌槽 (2 2)推抵塊 (23)穿孔 (24)螺栓 (25)定位件 (26)頂推件 (3 0)滑軌組件 (31)下滑軌 (32)上滑轨 (33)墊片 11 200938344 (40)彈性件 (50)臂座 (51)結合栓 (52)立柱 (53)柄孔 (6 0)驅動轉柄 (61)結合部 (62)定位環 (63)轉筒 (64)推軸 (90)手動微調平台 (91)基座 (91 1)鉤部 (92)滑座 (921 )鉤部 (93)彈簧 (94)臂座 (941)立枉 (9 5)驅動轉柄 (96)推軸 (97)定位件 ❹ 12The flexibility of assembly and application of the device; #者' The assembly configuration of the creation not only allows the user to flexibly combine multiple manual fine-tuning platform devices, elastic stacking into various forms of multi-axis manual fine-tuning platform, and can enter - Step down the manual fine-tuning platform | set thickness to achieve thinner and lighter performance. / Please refer to another preferred embodiment of the present invention shown in FIG. 5, which is provided on the side of the carriage (20) parallel to the feeding direction and is provided with an indentation in the form of an L-shaped block. The piece (26)' simultaneously cooperates with the arm seat (5〇) and the drive switch () device; 5 has the same side of the pusher (26), and the push shaft (64) for driving the handle (60) The pushing device (26) can be pressed against the driving handle (6〇) to control the feeding of the manual fine adjustment platform device, and the embodiment also has the flexibility and thinning for the manual fine adjustment platform device assembly and operation. And light and practical performance. The above description is merely a preferred embodiment of the present invention, and is not a form of limitation on the present invention. Any of the technical fields in the art can be used without departing from the technical features of the present invention. The equivalent embodiment of the local changes or modifications made by the technical content, 200938344 :::::: The technical characteristics of the creation, are still in the creation technique II round eight early description] The first picture is the best ir Three-dimensional structure diagram. The preferred embodiment of the present invention is based on the preferred embodiment of the present invention. The three-dimensional structure diagram. The form of the false heart line is presented. The four pictures of the younger brother are better. You are good for you. ★ z 乂 乂 乂 乂 乂 她 她 她 她 她 她 她 她 她 她 她 她 她 她The fifth picture is a three-dimensional structure diagram of another generation of Wei Wei·Gu y, the example. t. The diagram has both an image of a manual fine-tuning platform device. 1 W, ,, °楫不【 [Main component symbol description] (1 0) Base (1 1) Setting part (12) Blocking block (1 3) Inserting groove (14) Piercing (15) Screw (16) Fixing hole (17) Positioning plate (171) Long hole (20) Slide seat (21) Insert groove (2 2) Push block (23) Perforation (24) Bolt (25) Positioning member (26) Pusher ( 3 0) Slide rail assembly (31) slide rail (32) upper slide rail (33) washer 11 200938344 (40) elastic member (50) arm seat (51) combined bolt (52) column (53) handle hole (6) 0) drive handle (61) joint (62) positioning ring (63) drum (64) push shaft (90) manual fine adjustment platform (91) base (91 1) hook (92) slide (921) Hook (93) Spring (94) Arm Holder (941) Stand (9 5) Drive Sleeve (96) Push Shaft (97) Locator ❹ 12