1375757 • I 101·年.05月.31日按正替換頁 六、發明說明: 【發萌妍肩之技術領4】 [0001] 本發明涉及一種螺絲結構改良,是關於一種設計可 在工件上攻牙並排屑,達到快速鎖固功能的螺絲結構。 【先前技術】 [0002] 螺絲是工具箱中不可或缺的工具,被稱為最大的小 發明,除因螺絲結構與起子與科學的發展史息息相關; 更因螺絲在現代人日常生活中雖不起眼,但卻是深深影 響所有人生活的鎖固元件,小至身上的飾品零件,大至 汽車、建築,都可以看到螺絲的蹤跡,由此可知螺絲對 人類發展與生活的重要性。 [0003] 然,習用於建築等的螺絲用在木材或大型建材等工 件時,是以螺絲尖端鑽入表面,並以螺紋在木材或大型 建材等工件緊咬住由螺絲尖端鑽出的孔,在木材或大型 建材等工件以破壞及擠壓方式產生對應的内螺紋,再進 一步旋入木材或大型建材等工件的内部,達到螺固的目 的0 [0004] 習用的螺絲螺紋設於釘身邊緣,且形狀為對稱,鑽 孔過程_阻力會隨螺入的螺紋而增加。因使用螺絲鑽入 木材或大型建材等工件時,除了尖端藉擠壓與破壞產生 新螺紋的阻力,還有螺紋前進時的摩擦力,再加上螺入 時產生碎屑與粉末造成外加的摩擦力,造成螺入螺絲所 需的力量隨螺入深度遞增的狀況。 [0005] 此外,若使用者為省力與省時而使用自動工具,透 過自動工具會減少使用者對螺絲狀況的掌握,不易察覺 1013207598-0 09910004^^^ A0101 ^ 3 1 / ^ 15 1 1375757 奏 [0006] [0007] 10Ϊ年.05月.31日接正替換頁 阻力的增加,當施力過大使螺絲斷裂,輕則浪費工件及 螺絲等資源,重則使4T頭彈出告 【發明内容】 有鑒於上述習用螺絲存在的缺陷,本發明人針對螺 絲的釘身作深入之研究,並設計螺絲結構改良,從力學 的角度增加螺紋鑽礼的效果,以複合式的螺紋提高鑽孔 攻牙的效率,減少鎖固的時間,並藉由排屑減低摩擦力 ’成為省時省力並方便作業的螺絲。 本發明螺絲結構改良,包括釘頭與釘身,其中該釘 身包括錐尖與柱體,周圍設有四節螺牙,錐尖的第一螺 牙為不對稱螺牙,該不對稱螺牙的螺牙前端角度α介於 30〜40度,後端角度召介於1〇~20度;錐間與柱體相連處 為第二螺牙,第二螺牙為V形割尾,係沿釘身方向至少一 牙距長度之凹槽,形成一空間,容納前端鑽孔的碎屑及 粉末,並可將碎屑及粉末往後端排送;第三螺牙由錐尖 與柱體相接處向柱體後端延伸,為突出的鑛齒螺牙,且 其牙距與第一螺牙相同’螺牙前端角度α,介於27〜33度 _ - - - - ’後端角度沒介於13度,可使釘身由錐尖向外撐開 為柱體時,順勢以鋸齒螺牙向前增加鑽磨的效果,切斷 •木質等工件的纖維並擴大孔洞,使釘身前進:第四螺牙 設於第二螺牙後,為不對稱螺牙,螺牙前端角度α,, 介於27〜33度,後端角度召,,介於7〜13度,且其牙距 與第一螺牙及第三螺牙相同,可接續第三螺牙所鑽磨出 的内螺紋,增加釘身前進的效果。另,本發明可排出碎 屑及粉末,減少針身的摩擦力,達到省時省力的效果。 第4頁/共15頁 1013207598-0 1375757 » i [0008] [0009] 101年.05月.31日核正替換頁 综上所述,本發明具有以下的優點: 1. 本發明之螺絲結構改良,由螺外缘設 有不對稱螺牙、鋸齒螺牙,可增加鑽孔攻牙的效率 ,達到省時的效果。 2. 本發明之螺絲結構改良,其V形割尾形成刃部,可 增加鑽孔效率。 3. 本發明之螺絲結構改良,所設的螺牙可將碎屑及粉 末排出,減低鑽孔時的摩擦力。 【實施方式】 [0010] 請參閱第1圖、第2圖及第3圖所示,本發明之螺絲結 構1,包括釘身2以及釘頭3,其中: [0011] 該釘身2包括同軸線相連的錐尖21與柱體22,該錐尖 21處設有第一螺牙23,為不對稱螺牙,該第一螺牙23的 螺牙前端角度α介於30〜40度,後端角度冷介於10~20度 ;錐尖21與柱體22相連處設第二螺牙24,第二螺牙24為 V形割尾,係沿釘身2方向至少一牙距長度之凹槽241,凹 槽241邊緣形成鋒利的刃部242 ;第三螺牙25由錐尖21與 柱體22相接處向柱體22後端延伸,為突出的鋸齒螺牙, 該第三螺牙25為不對稱螺牙,其前端角度α’介於27~33 度,後端角度冷’介於7〜13度,且其牙距與第一螺牙23 相同;第四螺牙26設於第三螺牙25後,該第四螺牙26亦 為不對稱螺牙,其前端角度α’ ’介於27〜33度,後端角 度冷’ ’介於7~13度,且其牙距與第一螺牙23及第三螺 牙25相同。 麵_#單編號删1 第5頁/共15頁 1013207598-0 1375757 101年.05月.31日核正替換頁 [0012] 請參閱第1圖、第3圖及第4圖所示,該釘頭3由釘身2 同軸線延啣,為一呈圓板狀體的;氣部^接於釘身2的最 後端,該釘頭3後端面設有四角形凹槽31,可使用對應的 起子等工具卡固旋轉。 [0013] 請再參閱第1圖與第2圖所示,使用本發明之螺絲結 構1時,藉由錐尖21尖端刺入工件,防止螺絲結構1滑動 或移動,並以第一螺牙23對工件開始攻牙;第二螺牙24 利用邊緣鋒利的刃部242切割的碎屑及粉末,並將碎屑及 粉末置於凹槽241中,往後端推送;當釘身2由錐尖21將 工件向外撐開至柱體22時,順勢以第三螺牙25的鋸齒狀 的螺牙向前推進,可切斷木質等工件的纖維,增加鑽磨 的效果並擴大孔洞,而第三螺牙25與第一螺牙23有相同 的牙距,可增加釘身2前進的力量;第四螺牙26則接續第 三螺牙25所鑽磨出的内螺紋,並且具有與第三螺牙25及 第一螺牙23相同的牙距,更可增加釘身2前進的效果,加 速排出碎屑及粉末,減少釘身2的摩擦力,達到快速鎖固 的功效。 [0014] 此外,請參閱第5圖所示,該釘頭3後端面亦可設六 角形凹槽32,或請參閱第6圖所示,該釘頭3後端面可向 後延伸六角體凸塊33。 [0015] 另,請參閱第7圖所示,本發明有一實施例,係將釘 頭3a設為錐體的嵌部,該釘頭3a由釘身2同軸線延伸,連 接於釘身2最後端,增加釘頭3a的結構強度。 【圖式簡單說明】 [0016] 第1圖:係本發明之側視圖。 09910_# 單编號 AQ1G1 ^ 6 I / * 15 I 1013207598-0 1375757 » » 101年.05月.31日梭正^頁 [0017] 第2圖 :係本發明釘身之放大側視圖。 [0018] 产- 第3圖 :係本發明釘頭之放大側視圖。 [0019] 第4圖 :係本發明之釘頭設四角形凹槽之立體圖。 [0020] 第5圖 :係本發明之釘頭設六角形凹槽之立體圖。 [0021] 第6圖 :係本發明之釘頭延伸六角體凸塊之立體圖。 [0022] 第7圖 :係本發明實施例釘頭之放大側視圖。 【主要元件符號說明】 [0023] 1.螺絲結構 .2.釘身 [0024] 21.錐尖 22.柱體 [0025] 23.第一螺牙 24.第二螺牙 [0026] 241.凹槽 242.刃部 [0027] 25.第三螺牙 26.第四螺牙 [0028] 3.釘頭 3a.釘頭 [0029] 31.四角形凹槽 32.六角形凹槽 [0030] 33,六角體凸塊 09910004^^^^ A〇101 第7頁/共15頁 1013207598-01375757 • I 101·年.05月.31日正正换页六、发明说明: 【发萌妍的技术领 4】 [0001] The present invention relates to a screw structure improvement, relating to a design that can be placed on a workpiece Tapping and chip removal to achieve a quick locking function. [Prior Art] [0002] Screw is an indispensable tool in the toolbox, and it is called the largest gizmo, except that the screw structure and the screwdriver are closely related to the development history of science. Moreover, the screw is not in the daily life of modern people. Eyes, but it is a locking component that deeply affects everyone's life. As small as the car's jewelry parts, as far as cars and buildings, you can see the traces of the screws, which shows the importance of screws for human development and life. [0003] However, screws used for construction and the like are used for workpieces such as wood or large building materials, and are drilled into the surface with screw tips, and the holes drilled by the screw tips are tightly threaded on the workpiece such as wood or large building materials. In the case of wood or large building materials, the corresponding internal thread is broken and squeezed, and then screwed into the interior of the workpiece such as wood or large building materials to achieve the purpose of screwing. [0004] The conventional screw thread is placed on the edge of the nail body. And the shape is symmetrical, the drilling process _ resistance will increase with the screw thread. When using screws to drill into workpieces such as wood or large building materials, in addition to the resistance of the new thread created by the extrusion and destruction of the tip, the frictional force when the thread advances, plus the friction caused by the debris and the powder during the screwing. Force, causing the force required to screw into the screw to increase with the depth of the screw. [0005] In addition, if the user uses the automatic tool for labor saving and time saving, the automatic tool can reduce the user's grasp of the screw condition, and it is difficult to detect 1013207598-0 09910004^^^ A0101 ^ 3 1 / ^ 15 1 1375757 [0006] [0007] On the 10th, 5th, and 5th of March, the increase of the resistance of the replacement page is increased. When the force is too large, the screw is broken, and the resources such as the workpiece and the screw are wasted, and the 4T head is popped up. In view of the defects of the above-mentioned conventional screws, the inventors made in-depth research on the nail body of the screw, and designed the screw structure to improve the effect of the thread drilling ceremony from the mechanical point of view, and improve the efficiency of the drilling and tapping with the compound thread. , to reduce the lock time, and reduce the friction by the chip evacuation 'to become a time-saving and effort-saving screw. The screw structure of the invention is improved, comprising a nail head and a nail body, wherein the nail body comprises a cone tip and a cylinder body, and four screw teeth are arranged around the cone, and the first thread of the cone tip is an asymmetrical thread, the asymmetrical thread The front end angle α of the thread is between 30 and 40 degrees, the back end angle is between 1 and 20 degrees; the second thread is connected between the cone and the cylinder, and the second thread is a V-shaped tail. The groove of the nail body at least one tooth length length forms a space for accommodating the debris and powder of the front end hole, and can discharge the debris and the powder to the rear end; the third screw is made up of the cone tip and the cylinder body The joint extends toward the rear end of the cylinder, which is a protruding ore tooth, and its pitch is the same as that of the first thread. The front end angle α of the thread is between 27 and 33 degrees _ - - - - ' At 13 degrees, when the nail body is extended from the tip of the cone to the cylinder, the effect of drilling and grinding is increased by the sawtooth thread, and the fiber of the workpiece such as wood is cut and the hole is enlarged to advance the nail body. : The fourth screw is set behind the second screw, which is an asymmetrical screw. The front end angle of the screw is α, between 27 and 33 degrees, and the back end angle is called, between 7~ 13 degrees, and the tooth distance is the same as that of the first screw and the third screw, and the internal thread drilled by the third screw can be connected to increase the advancement of the nail body. In addition, the invention can discharge debris and powder, reduce the friction of the needle body, and achieve the effect of saving time and labor. Page 4 of 15 1013207598-0 1375757 » i [0008] [0009] 101.05.31. Nuclear verification page In summary, the present invention has the following advantages: 1. The screw structure of the present invention Improved, with asymmetrical thread and serrated thread on the outer edge of the screw, it can increase the efficiency of drilling and tapping, and achieve a time-saving effect. 2. The screw structure of the present invention is improved, and the V-shaped cutting tail forms a blade portion, which can increase the drilling efficiency. 3. The screw structure of the present invention is improved, and the screw provided can discharge the debris and the powder to reduce the frictional force during drilling. [Embodiment] [0010] Referring to Figures 1, 2, and 3, the screw structure 1 of the present invention includes a body 2 and a nail head 3, wherein: [0011] the body 2 includes a coaxial a taper tip 21 connected to the line and a column 22, wherein the taper tip 21 is provided with a first thread 23, which is an asymmetrical thread, and the front end angle α of the thread of the first thread 23 is between 30 and 40 degrees. The end angle is cold between 10 and 20 degrees; the second thread 24 is connected to the cone 21 and the second thread 24, and the second thread 24 is a V-shaped tail, which is concave along the length of the nail body 2 at least one pitch length. The groove 241, the edge of the groove 241 forms a sharp edge portion 242; the third thread 25 extends from the tip end of the cone 21 to the rear end of the column 22, and is a protruding serrated thread, the third thread 25 is an asymmetrical thread, the front end angle α' is between 27 and 33 degrees, the rear end angle is cold 'between 7 to 13 degrees, and the pitch is the same as that of the first thread 23; the fourth thread 26 is set at After the third screw 25, the fourth screw 26 is also an asymmetrical thread, the front end angle α' 'between 27 and 33 degrees, and the rear end angle is cold ' ' between 7 and 13 degrees, and the tooth pitch thereof It is the same as the first screw 23 and the third screw 25.面##单编号删1 Page 5/15 pages 1013207598-0 1375757 101.05.31. Nuclear replacement page [0012] Please refer to Figure 1, Figure 3 and Figure 4, The nail head 3 is extended by the same axis of the nail body 2, and is a disk-shaped body; the gas portion is connected to the last end of the nail body 2, and the rear end surface of the nail head 3 is provided with a quadrangular groove 31, and the corresponding A tool such as a screwdriver is rotated. [0013] Referring again to FIGS. 1 and 2, when the screw structure 1 of the present invention is used, the tip of the taper tip 21 is inserted into the workpiece to prevent the screw structure 1 from sliding or moving, and the first screw 23 is used. The workpiece is tapped; the second thread 24 uses the sharp edges of the blade 242 to cut the debris and powder, and the debris and powder are placed in the groove 241 to push back; when the body 2 is tapered When the workpiece is stretched outward to the column 22, the sawtooth-shaped screw of the third screw 25 is pushed forward, and the fibers of the workpiece such as wood can be cut, the effect of drilling and grinding is enlarged, and the hole is enlarged. The triple thread 25 has the same tooth pitch as the first thread 23, which can increase the forward force of the nail body 2; the fourth thread 26 follows the internal thread drilled by the third thread 25, and has the third thread. The same tooth pitch of the screw 25 and the first screw 23 can increase the advancement effect of the nail body 2, accelerate the discharge of debris and powder, reduce the friction of the nail body 2, and achieve the effect of quick locking. [0014] In addition, as shown in FIG. 5, the rear end surface of the nail head 3 may also be provided with a hexagonal groove 32, or as shown in FIG. 6, the rear end surface of the nail head 3 may extend the hexagonal bump backwards. 33. [0015] In addition, referring to FIG. 7, an embodiment of the present invention is characterized in that the nail head 3a is a fitting portion of a cone, and the nail head 3a is extended by a coaxial line of the nail body 2, and is connected to the nail body 2 at the end. At the end, the structural strength of the nail head 3a is increased. BRIEF DESCRIPTION OF THE DRAWINGS [0016] Fig. 1 is a side view of the present invention. 09910_# Single number AQ1G1 ^ 6 I / * 15 I 1013207598-0 1375757 » » 101.05.31. Shuttle page ^ [0017] Fig. 2: An enlarged side view of the body of the present invention. [0018] Production - Fig. 3: An enlarged side view of the nail head of the present invention. 4 is a perspective view of a nail head of the present invention provided with a quadrangular groove. [0020] FIG. 5 is a perspective view of a nail head of the present invention provided with a hexagonal groove. [0021] FIG. 6 is a perspective view of a nail head extension hexagonal bump of the present invention. [0022] FIG. 7 is an enlarged side elevational view of a nail head in accordance with an embodiment of the present invention. [Description of main component symbols] [0023] 1. Screw structure. 2. Nail body [0024] 21. Cone tip 22. Cylinder [0025] 23. First thread 24. Second thread [0026] 241. Concave Groove 242. Blade [0027] 25. Third thread 26. Fourth thread [0028] 3. Head 3a. Head [0029] 31. Square groove 32. Hexagon groove [0030] 33, Hexagonal bump 09910004^^^^ A〇101 Page 7 of 15 1013207598-0