M408465 五、新型說明: 【新型所屬之技術領域】 本創作提供-種螺絲釘搶的給釘調整裝置 -種調整螺絲釘搶之承釘座底部與壓制: ”,並涉及該承釘座上之導弓丨塊和該壓制件上』= 及該導引塊上^植入該定簡的扣部。M408465 V. New description: [New technical field] This creation provides a screw-adjusting nail adjustment device - a kind of adjustment screw to grab the bottom of the nail holder and press: ", and involves the guide bow on the nail base The fixed block is inserted into the block and the pressing member.
按’傳統之螺絲釘搶的給钉調整裝置可 NO·5687624專利案中,該釘搶之搶體底部具有-壓制= -能夠導人螺絲釘的承釘座,該壓制件上具有According to the 'traditional screw rushing nail adjustment device can be NO. 5687624 patent case, the nail grabs the bottom of the body has a pressing = - can lead the nail of the nail holder, the pressing member has
孔’且壓制件經由若干職輯述行觀馳於承釘座側 壁,並延伸至承釘座的下方,能夠抵觸待加工物件;如此, 螺絲釘能夠導入承釘座底部與壓制件底部之間,以接受釘 搶驅動。由於螺絲釘的尖端需鄰近於待加工物件表面^才 能使該尖端在螺絲釘被驅動的瞬間立即鑽 以避免螺絲釘發生偏擺的狀況;因此駆 動長度相異的螺絲釘時,必須經由所述行程孔調整承釘 底部與壓制件底部之間的距離。 美國No.5988026專禾J案教示一種螺絲釘搶之給釘調整 裝置的技術,主要是在壓制件上間隔形成複數通孔,且壓 制件經由一螺栓及所述通孔螺組於承釘座的侧壁,並經由 所述通孔調整承釘座底部與壓制件底部之間的距離。然 而,上述經由行程孔或通孔調整承釘座底部與壓制件底^ 之間距離的作法,都需要經常旋鬆及旋緊螺栓,在使用1 較不方便。 3 M408465 美國No.5988025專利案另教示一種螺絲釘搶之給釘調 整裝置的技術,主要是在壓制件中央設有一行程槽,且壓 制件雙側對等設置複數定位槽,該承釘座上彈性配置一呈 门字型的觸動薄片,該觸動薄片中段部分經由行程槽顯露 於外界,且觸動薄片雙側分別延伸至壓制件雙側,並於觸 動件雙側分別形成一扣部,能夠隨觸動薄片移動而植入及 脫離所述定位槽,以制動及釋放壓制件;如此,能夠方便 調整承釘座與壓制件底部之間的距離。 【新型内容】 本創作之一目的在於解決上述利用螺栓經由行程孔或 通孔螺組壓制件於承釘座上,而導致使用上較不方便的問 題;本創作之另一目的在於提供一種相異於上述美國 No.5988025專利案的裝置技術。 為能實現上述目的並解決問題,本創作提供一種螺絲 釘槍的給釘調整裝置,包含: 一導引罩,坐落於一搶體底端; 一承釘座,滑設於該導引罩内,該承釘座之一側壁上 形成有一容置槽,該侧壁雙側分別沿著該螺絲釘之一驅動 轴向形成一滑槽; 一壓制件,雙側分別形成一能夠嵌入該滑槽的肋條, 該壓制件沿著該驅動軸向活動滑設於該側壁與所述滑槽之 間,並延伸至該承釘座下方,且該壓制件上形成有沿著該 驅動轴向分佈的複數定位槽,及一串連所述定位槽的行程 槽,該行程槽連通該容置槽,各定位槽能夠隨著該壓制件 移動而連通或脫離該容置槽;及 4 M408465 一導引塊,以負載彈力方式滑設於該容置槽内,而往 所述定位槽方向移動,該導引塊經由該行程槽顯露於外 界,而能夠接受人手往所述定位槽之相反方向按壓,該導 引塊上具有一以上扣部’所述扣部隨著該導引塊移動而植 入或脫離所述連通該容置槽的定位槽,以制動或釋放該壓 制件。 藉由上述,能夠經由按壓該導引塊,而使所述扣部脫 離所述定位槽,以釋放壓制件,並能經由釋放導引塊,而 _ 使所述扣部植入所述定位槽,以制動壓制件;如此,能夠 解決先前技術中利用螺栓經由行程孔或通孔螺組壓制件於 承釘座上,而導致使用上較不方便的問題;此外,本創作 之行程槽串連所述定位槽,有利於將所述扣部設於導引塊 鄰近行程槽的位置,能夠有效降低產製上的複雜度,且本 創作之導引塊的結構較先前技術之觸動薄片更為結實,具 有較佳之耐久使用壽命,並經由容置槽拘束該導引塊的移 動方向’致使導引塊於移動期間也具有較佳的穩固性;據 φ 此’在相異於上述美國No.5988025專利案之結構技術的前 提下’本創作也具備提升調整承釘座與壓制件之間距離的 便利性’以便於使用同一把釘搶驅動長度相異的螺絲釘。 實質上’該導引罩上形成一連通該行程槽的窗口’該 導引塊經由該窗口顯露於外界。 為進一步提升導引塊於移動期間的穩定性,該容置槽 雙侧分別沿著該驅動輛向之垂直方向形成一相通的導槽, 該導引塊雙側分別形成一能夠嵌入該導槽的肋部,而使該 導引塊經由所述肋部接受所述導槽沿著該驅動軸向之垂直 5 M408465 方向導引。 在更加具體的實施上,所述定位槽對等分佈於該行程 槽雙側,所述扣部對等形成於該導引塊雙側;此外,該導 引塊往所述定位槽方向移動,而接受該壓制件止擋,且導 引塊上形成有一能夠經由該行程槽顯露於外界的觸動部, 該觸動部能夠隨著該導引塊移動,而植入或脫離該行程 槽;同時,該導引塊上設有一能夠經由該行程槽顯露於該 壓制件外側的按鈕,能夠經由按壓該按鈕而驅動該導引塊。 然而,為能明確且充分揭露本創作,併予列舉較佳實 施之圖例,以詳細說明其實施方式如後述: 【實施方式】 首觀圖1所示,揭示出本創作較佳實施例的前視圖, 並配合圖2、圖4、圖5及圖7說明本創作螺絲釘槍的給釘 調整裝置,包含一導引罩11、一承釘座2、一壓制件3及一 導引塊4 ;該導引罩11坐落於螺絲釘槍之一槍體1底端, 且導引罩11内部沿著該螺絲釘之一驅動軸向形成一中央通 道12,該驅動軸向是指螺絲釘槍驅動螺絲釘鑽入待加工物 件的轴向。該承釘座2滑設於導引罩11之中央通道12内, 且承釘座2之一側壁20上沿著該驅動軸向之垂直方向形成 有一容置槽21 (如圖3所示),該側壁20雙側分別沿著該 驅動軸向形成一滑槽23;該中央通道12内配置一第一彈簧 51,迫緊於搶體1底部與承釘座2頂部之間,而驅使承釘 座2沿著該驅動軸向彈性挺伸至導引罩11底部,並能沿著 該驅動軸向彈性縮入中央通道12内;該承釘座2底部能夠 導入一螺絲釘帶8,該螺絲釘帶8上具有複數短螺絲釘91 6 M408465 2(:二所示)或長螺Γ % (如圖9所示),且承釘座 17你i有麟釘之釋出口 22,該搶體1内之—起子工 2、底:^央通道12穿探於承釘座2内,能夠驅動承釘座 2低七的長、短螺絲釘92、91沪鍫访防备i U鑽入待加卫物件。 料絲轴向經由釋出口 ==件3雙側分別形成—能夠嵌人該滑槽U的肋條 36 ’該壓制件3沿著該驅動軸向活動滑設於該承釘座2的 側土 2〇與所述滑槽23之間,且壓制件3之一内壁31鄰近 該釘座2· 20,該壓制件3延伸至承釘座2底部的下方, 而於壓制件3底部形成-能夠抵觸待加工物 33 ·’所述長、短螺絲釘92、91能夠隨著螺絲釘帶心 釋出口 22與麼觸部33之間待命驅動(如圖6及圖9所示), 該釋出口 22與壓觸部33之間為距離tl時,能使用短螺絲 釘91,該釋出口 22與壓觸部33之間為距離t2時,能使用 長螺絲=92,且距離U小於距離⑴該廢制件3上間隔形 成有沿著該驅動轴向分佈的複數定位槽34(如圖3所示), 及-串連所述定位槽34的行程槽35 ;在實施上,所述定位 槽34能夠形成於⑽】件3之内壁31上,也能夠形成㈣ 制件3之-外壁32與内壁31之間,·該行程槽%形成於屋 制件3之内壁31與外壁32之間,且連通該容置槽21,·各 定位槽34能夠隨著㈣件3移動而連通或脫離該容置槽21 (如圖10所示)。 該導引塊4可呈圓柱狀,並以負载彈力方式滑設於容 置槽21内巾往壓制件3之所述定位槽%方向移動(如 圖6所示),·實際上,鄕—4-端形成m孔4卜 7 M408465 且定位孔41内配置一第二 置槽21之間,而使導引塊4負\往^制件3^孔41與容 部42經由該行程槽3;Γ4?Γ2’且導力 狂倌D顯路於外界,而能夠接受人丰 述定位槽34之相反方向按壓(如圖 該主所 二r或脫_槽; 植入或職料料The hole 'and the pressing member are viewed through the side wall of the nail holder through a plurality of posts, and extend below the nail holder to be able to resist the object to be processed; thus, the screw can be introduced between the bottom of the nail holder and the bottom of the pressing member. To accept the nail grab drive. Since the tip end of the screw needs to be adjacent to the surface of the object to be processed, the tip can be drilled immediately at the moment the screw is driven to avoid the yaw of the screw; therefore, when the screw of different length is tilted, the bearing must be adjusted through the stroke hole. The distance between the bottom of the nail and the bottom of the extrusion. The U.S. Patent No. 5,908,826, which teaches a technique for screwing the nail adjustment device, mainly forms a plurality of through holes on the pressing member, and the pressing member is disposed on the nail holder through a bolt and the through hole screw. a sidewall, and the distance between the bottom of the staple holder and the bottom of the extrusion is adjusted via the through hole. However, the above method of adjusting the distance between the bottom of the nail holder and the bottom of the pressing member via the stroke hole or the through hole requires frequent loosening and tightening of the bolt, and it is inconvenient to use 1. 3 M408465 U.S. Patent No. 5,908,025 teaches another technique for the screw-adjusting nail adjustment device, which mainly comprises a stroke groove in the center of the pressing member, and the plurality of positioning grooves are equally arranged on both sides of the pressing member, and the nail-bearing seat is elastic A touch-shaped sheet is arranged in the shape of a gate, and the middle portion of the touch sheet is exposed to the outside through the travel groove, and the two sides of the touch sheet respectively extend to both sides of the pressing member, and a buckle portion is respectively formed on both sides of the touch member, which can be touched The sheet moves to implant and disengage the positioning groove to brake and release the pressing member; thus, the distance between the nail holder and the bottom of the pressing member can be conveniently adjusted. [New content] One of the purposes of the present invention is to solve the above problem of using a bolt to pass through a stroke hole or a through-hole screw assembly on a nail holder, which is inconvenient to use; another object of the present invention is to provide a phase Different from the device technology of the above U.S. Patent No. 5,968,025 patent. In order to achieve the above object and solve the problem, the present invention provides a screw adjusting device for a screw gun, comprising: a guiding cover located at a bottom end of a grab body; a nail bearing seat slidingly disposed in the guiding cover A receiving groove is formed on a side wall of one of the nail holders, and the two sides of the side wall respectively form a sliding groove along a driving direction of one of the screws; a pressing member, and the two sides respectively form a rib capable of being embedded in the sliding groove The pressing member is slidably disposed between the side wall and the sliding slot along the driving axis and extends below the nail holder, and the pressing member is formed with a plurality of positioning along the driving axial direction. a slot, and a series of stroke slots connected to the positioning slot, the stroke slot communicates with the receiving slot, each positioning slot can communicate with or disengage from the receiving slot as the pressing member moves; and 4 M408465 a guiding block, Sliding in the accommodating groove in a load-elastic manner, and moving in the direction of the positioning groove, the guiding block is exposed to the outside through the groove, and can receive a human hand to press in the opposite direction of the positioning groove, the guide More than one button on the lead block The buckle portion is implanted or disengaged from the positioning groove that communicates with the receiving groove as the guiding block moves to brake or release the pressing member. By pressing the guiding block, the buckle portion can be disengaged from the positioning groove to release the pressing member, and the buckle portion can be implanted into the positioning groove via the release guiding block. In the prior art, the problem of using the bolts through the stroke holes or the through-hole screw assembly on the staple holder can be solved, which leads to the inconvenience in use; in addition, the stroke groove of the creation is connected. The positioning groove is configured to provide the buckle portion at a position adjacent to the stroke groove of the guide block, which can effectively reduce the complexity of the production process, and the structure of the guide block of the present invention is more than that of the prior art touch sheet. Strong, with a better durable service life, and restraining the moving direction of the guiding block via the accommodating groove', so that the guiding block also has better stability during the movement; according to φ, this is different from the above US No. Under the premise of the structural technology of the patent of 5988025, 'this creation also has the convenience of improving the distance between the nail holder and the pressed piece' so as to use the same nail to grasp the screw with different driving length. Essentially, the guide cover forms a window that communicates with the stroke groove. The guide block is exposed to the outside through the window. In order to further improve the stability of the guiding block during the movement, the two sides of the receiving groove form a communicating channel along the driving direction, and the two sides of the guiding block respectively form a guiding groove. a rib such that the guide block receives the guide groove via the rib along a direction perpendicular to the drive axis 5 M408465. In a more specific implementation, the positioning slots are equally distributed on both sides of the stroke slot, and the buckle portions are formed on both sides of the guiding block; further, the guiding block moves toward the positioning slot. Receiving the stop of the pressing member, and forming a contact portion on the guiding block that can be exposed to the outside through the groove, the touching portion can be implanted or disengaged from the stroke groove as the guiding block moves; The guide block is provided with a button that can be exposed outside the pressing member via the stroke groove, and the guiding block can be driven by pressing the button. However, in order to be able to clearly and fully disclose the present invention, and to illustrate the preferred embodiment, the detailed description of the embodiments will be described as follows: [Embodiment] The first embodiment is shown in FIG. 1 to reveal the prior embodiment of the present invention. View, and with reference to Figure 2, Figure 4, Figure 5 and Figure 7 to illustrate the nail adjustment device of the present screw gun, comprising a guide cover 11, a nail holder 2, a pressing member 3 and a guiding block 4; The guiding cover 11 is located at the bottom end of the gun body 1 of the screw gun, and the inside of the guiding cover 11 forms a central passage 12 along one of the driving directions of the screw, and the driving axial direction refers to the screw driving screw of the screw The axial direction of the object to be processed. The socket 2 is slidably disposed in the central passage 12 of the guide cover 11, and a receiving groove 21 is formed in a sidewall 20 of the socket 2 along a vertical direction of the driving axis (as shown in FIG. 3). A sliding groove 23 is formed on each side of the side wall 20 along the driving axis; a first spring 51 is disposed in the central passage 12, and is pressed between the bottom of the body 1 and the top of the nail holder 2 to drive the bearing The nail base 2 elastically extends along the driving axial direction to the bottom of the guiding cover 11 and can be elastically retracted into the central passage 12 along the driving axial direction; the bottom of the nail holding base 2 can be introduced with a screw belt 8, the screw The belt 8 has a plurality of short screws 91 6 M408465 2 (: two shown) or a long snail % (as shown in Figure 9), and the nail holder 17 has a rivet release outlet 22, which is within the body 1 - The starter 2, the bottom: ^ The central passage 12 is pierced in the nail base 2, which can drive the nail base 2 low seven long and short screws 92, 91, and the Hu Wei visits the defense i U to enter the object to be added. The axial direction of the filament is formed on both sides of the release port == member 3 - a rib 36 that can be embedded in the sliding groove U. The pressing member 3 is slidably disposed along the driving axial direction on the lateral soil 2 of the socket holder 2 Between the crucible and the sliding groove 23, and an inner wall 31 of the pressing member 3 is adjacent to the nail holder 2·20, the pressing member 3 extends below the bottom of the staple holder 2, and is formed at the bottom of the pressing member 3 - capable of resisting The workpieces 33·'the long and short screws 92, 91 can be driven by the standby between the screw release opening 22 and the contact portion 33 (as shown in FIGS. 6 and 9), the release port 22 and the pressure When the contact portion 33 is at a distance t1, the short screw 91 can be used. When the distance between the release port 22 and the pressure contact portion 33 is t2, the long screw = 92 can be used, and the distance U is smaller than the distance (1). The upper spacing is formed with a plurality of positioning grooves 34 (shown in FIG. 3) distributed along the driving axis, and - a stroke groove 35 of the positioning groove 34 is connected in series; in practice, the positioning groove 34 can be formed on (10) The inner wall 31 of the member 3 can also be formed between (4) the outer wall 32 of the workpiece 3 and the inner wall 31. The stroke groove % is formed on the inner wall 31 and the outer portion of the house member 3. Between 32 and communicating with the receiving groove 21, the positioning groove 34 · 3 can be moved with or departing iv member communicates the accommodating groove 21 (FIG. 10). The guiding block 4 can be cylindrical and is slidably disposed in the receiving groove 21 in a load elastic manner to move in the direction of the positioning groove of the pressing member 3 (as shown in FIG. 6), in fact, The fourth end forms an m hole 4b 7 M408465 and a second groove 21 is disposed in the positioning hole 41, and the guiding block 4 is negatively moved to the hole 3 and the hole 42 and the receiving portion 42 are passed through the groove 3 ;Γ4?Γ2' and the force of the madness D is obvious to the outside world, and can accept the opposite direction of the person's abundance positioning groove 34 (as shown in the main or the second slot); implant or job material
制動或釋放該壓制件3。 M 在一具體實施上,玆丨$ U 行程槽35的條狀窗σ i,導^ 11之壁面上形成-連通該 口 13顯露口 13,該導引塊4之觸動部C經由窗 轴向二Γ置槽21雙側分別沿著該驅動 211久白β - °成導槽211 (如圖3所示),所述導梓 能夠谷置槽21相連通’該料塊4雙侧分別形‘ 料接受所肋二4二::導引塊_ 導槽211/0者該驅動軸向之垂直方向導弓丨(如 =不),能進一步提升導引塊4於移動期間的二如 示,該肋部44與扣部43能夠一體形成。 %雙t]又施上,所述定位槽34對等分佈於行程槽 雙側;實γ h 所述扣部43對等形成於料塊4 ^ ^ ,所述扣部43能夠形成於該觸動部42雙側。 r:::r牛3和所述定位槽34方向移動,二 尾之千面40接受壓制件3之内壁31止擋(如圖6所 8 M408465 不)’且導彳丨塊4之觸動部42上螺組一能夠經由行程槽35 顯露於壓制件3之外壁32外側的按鈕6,能夠經由按^該 按鈕6而驅動導引塊4往所述定位槽34之相反方向移動: 藉由上述構件組成,可供據以實施本創作,特別是欲 將螺絲釘搶原本使用之短螺絲釘91 (如圖4至圖7所示), 更換使用長螺絲釘92時,可先經由按壓該按鈕6,而驅動 導引塊4往所述定位槽34之相反方向移動至容置槽21内 (如圖8及圖9所示),致使導引塊4之平面40脫離壓制 • 件3内壁31,且觸動部42脫離行程槽35,同時所述扣部 43脫離所述連通容置槽21的定位槽34,以釋放壓制件3 ; 此時’驅動壓制件3下移(如圖10所示),而使釋出口 22 與壓觸部33之間為距離t2’該壓制件3下移期間,由於所 述扣部43位於容置槽21内(如圖11所示),能夠避開移 動中的所述定位槽34 ’進而避免扣部43影響壓制件3移 動;隨後’經由釋放按鈕6而使導引塊4往所述定位槽34 方向移動(如圖12所示),致使導引塊4之平面4〇i抵 φ 壓制件3内壁31而停止移動,且觸動部42植入行程槽35, 同時所述扣部43植入所述連通容置槽21的定位槽34,以 制動壓制件3。當欲使用短螺絲釘91時,可重複實施上述 動作’其相異處在於驅動壓制件3上移,而使釋出口 22與 壓觸部33之間為距離t2。 藉由上述,能夠解決先前技術中利用螺栓經由行程孔 或通孔螺組壓制件於承釘座上,而導致使用上較不方便的 問題;此外,本創作之行程槽35串連所述定位槽34,有利 於將所述扣部43設於導引塊4鄰近行程槽35的位置,能 9 M408465 夠有效降低產製上的複雜度,且本創作之導引塊4的結構 較先前技術之觸動薄片更為結實,具有較佳之耐久使用壽 命’並經由谷置槽21拘束導引塊4的移動方向,致使導引 塊4於移動期間也具有較佳的穩固性;據此,在相異於上 述美國No.5988025專利案之結構技術的前提下,本創作也 具備提升調整承釘座2與壓制件3之間距離的便利性,以 便於使用同一把釘搶驅動長度相異的螺絲釘。 綜上所陳,僅為本創作之較佳實施例而已並非用以 鲁P艮定本創作;凡其他未脫離本創作所揭示之精神下而完成 的等效修飾或置換,均應包含於後述申請專利範圍内。 【圖式簡單說明】 圖1 :為本創作較佳實施例的前視圖。 圖2 :為圖1之導引罩與承釘座的立體圖。 圖3 :為圖1之承釘座與壓制件的立體分解圖。 圖4:為圖2的前視圖。 圖5 :為圖4的A-A斷面圖。 ® 圖6 :為圖5的局部放大剖示圖。 圖7 :為圖4的B-B斷面圖。 圖8:為圖7的一使用狀態圖。 圖9 :為圖6的一使用狀態圖。 圖10:為圖4的一使用狀態圖。 圖11 :為圖7的另一使用狀態圖。 圖12:為圖6的另一使用狀態圖。 【主要元件符號說明】 M408465The pressing member 3 is braked or released. In a specific implementation, the strip window σ i of the stroke groove 35 is formed, and the port 13 is formed to communicate with the port 13 to expose the port 13. The touch portion C of the guide block 4 is via the window axis. The two sides of the two slots 21 are respectively along the drive 211 for a long white β-° into a guide groove 211 (as shown in FIG. 3), and the guide can be connected to the valley 21 to form a double side of the block 4 'Material acceptance rib 2 4:: guide block _ guide groove 211 / 0 The vertical direction of the drive axis guide bow 如 (such as = no), can further improve the guide block 4 during the movement of the second as shown The rib 44 and the buckle portion 43 can be integrally formed. The double-t] is applied again, and the positioning groove 34 is equally distributed on both sides of the stroke groove; the buckle portion 43 is formed in the block 4^^, and the buckle portion 43 can be formed on the touch. Part 42 is bilateral. r:::r cattle 3 and the positioning groove 34 are moved in the direction, and the two-tailed surface 40 receives the inner wall 31 of the pressing member 3 (as shown in Fig. 6 M408465 does not) 'and the touch portion of the guiding block 4 42 a screw group 1 capable of being exposed to the outside of the outer wall 32 of the pressing member 3 via the stroke groove 35, capable of driving the guiding block 4 to move in the opposite direction of the positioning groove 34 by pressing the button 6: The component composition can be used to implement the creation. In particular, the short screw 91 (shown in Figures 4 to 7) used to grab the screw is used. When the long screw 92 is replaced, the button 6 can be pressed first. The driving guide block 4 is moved into the accommodating groove 21 in the opposite direction of the positioning groove 34 (as shown in FIGS. 8 and 9 ), so that the plane 40 of the guiding block 4 is separated from the inner wall 31 of the pressing member 3 and is touched. The portion 42 is disengaged from the stroke groove 35, and the buckle portion 43 is disengaged from the positioning groove 34 of the communication accommodating groove 21 to release the pressing member 3; at this time, the driving extrusion member 3 is moved downward (as shown in FIG. 10), and The buckle portion 43 is located in the accommodating groove 21 during the downward movement of the pressing member 3 at a distance t2' between the release port 22 and the pressure contact portion 33. (as shown in FIG. 11), the positioning groove 34' in movement can be avoided to prevent the buckle portion 43 from affecting the movement of the pressing member 3; then the guide block 4 is directed to the positioning groove 34 via the release button 6. Moving (as shown in FIG. 12) causes the plane 4〇i of the guiding block 4 to abut against the inner wall 31 of the pressing member 3 to stop moving, and the touch portion 42 is implanted into the stroke groove 35, while the buckle portion 43 is implanted The positioning groove 34 of the accommodating groove 21 is connected to brake the pressing member 3. When the short screw 91 is to be used, the above-described action can be repeatedly performed. The difference is that the driving press member 3 is moved up, and the distance between the discharge port 22 and the pressure contact portion 33 is a distance t2. With the above, it is possible to solve the problem in the prior art that the bolt is pressed onto the socket by the stroke hole or the through-hole screw assembly, which is inconvenient to use; further, the stroke groove 35 of the present invention is connected in series with the positioning. The groove 34 is arranged to provide the buckle portion 43 at a position adjacent to the stroke groove 35 of the guiding block 4, and the 9 M408465 can effectively reduce the complexity in production, and the structure of the guiding block 4 of the present invention is earlier than the prior art. The touch sheet is more robust, has a better durable service life' and restrains the moving direction of the guiding block 4 via the valley groove 21, so that the guiding block 4 also has better stability during the movement; accordingly, in the phase Different from the above-mentioned structural technology of the US No. 5988025 patent, the creation also has the convenience of improving the distance between the nail holder 2 and the pressing member 3, so as to use the same nail to grasp the screw with different driving lengths. . In summary, the present invention is not intended to be a preferred embodiment of the present invention, and any other equivalent modification or replacement that has been completed without departing from the spirit of the present invention should be included in the application below. Within the scope of the patent. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a front elevational view of a preferred embodiment of the present invention. Figure 2 is a perspective view of the guide cover and the staple holder of Figure 1. Figure 3 is an exploded perspective view of the socket and the pressing member of Figure 1. Figure 4: is a front view of Figure 2. Fig. 5 is a cross-sectional view taken along line A-A of Fig. 4. ® Figure 6 is a partial enlarged cross-sectional view of Figure 5. Figure 7 is a cross-sectional view taken along line B-B of Figure 4; Figure 8 is a diagram showing the state of use of Figure 7. Figure 9 is a diagram showing the state of use of Figure 6. Figure 10 is a diagram showing the state of use of Figure 4. Figure 11 is another use state diagram of Figure 7. Figure 12 is another use state diagram of Figure 6. [Main component symbol description] M408465
1 搶體 11 導引罩 12 中央通道 13 窗口 2 承釘座 20 側壁 21 容置槽 211 導槽 22 釋出口 23 滑槽 3 壓制件 31 内壁 32 外壁 33 壓觸部 34 定位槽 35 行程槽 36 肋條 4 導引塊 40 平面 41 定位孔 42 觸動部 43 扣部 44 肋部 M408465 51 第一彈簧 52 第二彈簧 6 按钮 7 起子工具 8 螺絲釘帶 91 短螺絲釘 92 長螺絲釘1 grab body 11 guide cover 12 central passage 13 window 2 staple holder 20 side wall 21 accommodating groove 211 guide groove 22 release port 23 chute 3 pressing member 31 inner wall 32 outer wall 33 pressure contact portion 34 positioning groove 35 stroke groove 36 rib 4 Guide block 40 Plane 41 Positioning hole 42 Touch part 43 Button part 44 Rib M408465 51 First spring 52 Second spring 6 Button 7 Screwdriver tool 8 Screw belt 91 Short screw 92 Long screw
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