1295212 九、發明說明: 【發明所屬之技術領域】 本創作係與微型鑽頭有關, a 鑽頭之再生製造方法及其成σ 砰而5之是指一種微型 【先前技術】 、按’目前一般之微型鐵頭 成,其結構主要包含有-鑽柄部、1 =型之方式所製 該鑽柄部係用以供一鑽 運接錐部及一鑽身部, 於該鑽柄部之一端,苴.二二夹持,該連接錐部係連接 接於該連接錐部之另於該鑽柄部,該鑽身部係連 之用。 而 以於電路板上進行鑽孔作業 必然會有損耗之J形::於::板上進行鑽孔作業,使之 15 再次順利地進行鑽孔^必須^加以研磨’使鐵身部能 鑽孔作業後,本身便::’而§鑽身部累計進行一萬次之 界-般係將此—已進者相當程度之磨耗與損傷,因此業 汰。 進仃—萬次鑽孔作業之微型鑽頭加以淘 20 之部二ft,行—萬次鑽孔作業之微型鑽頭,其損耗 任何之耗Γ纟於鑽身部上,而其連接錐部及鑽柄部並無 斜f,因此將整個微型鑽頭加以淘汰,於現今原物 曰貝。向漲之時代,實在有過於浪費材料資源之疑 且,由於璟仅立 u 相對之、示思識之抬頭,致使各種廢棄物之處理程序皆 、之I瑣以期能再生使用資源,因此,如何避免產生廢 4 1295212 =:=:料“再生使用’儼然已成為各業界 【發明内容】 ;有鑑於此,本發明之主要目的乃在提供 之再生製造方法及其成品,柯 „鑽頭 鑽頭=重如再生使时將祕㈣^度之微型 旦在t,為達上述目的’本發明所提供一種微型鑽頭之 該鑽柄部係用以徂一麗 連接錐#及一弟一鑽身部, 連接於該鑽柄部之—端:機持’該連接錐部係-體 身部已磨耗連接錐部之自由端上,且該第-鑽 15 於該鑽柄部之自由2=驟b:_去除第—鑽錄步驟c: 合部;步驟¢1.¾一从-y、外徑小於該鑽柄部外徑之接 並形成有_#彳續_柄部崎之接合件,該接合件 中而呈緊_^接合槽,使將雜合«人於該接合槽 該第二鑽身部具=e:於連接錐部上形成〆第二鑽身部, 路板上進行鑽:、,右,之刀刀及溝槽,該刀刃係用以於電 藉由上述之步贤’而遠溝槽係用以提供鑽孔時之排屬空間; 頭包含有1二出—微型鑽頭,該微型鑽 身部及一技人^ 轴連接於該鑽柄部一端之鑽 Q ;该鑽柄部自由端之接合件。 20 Ϊ295212 【實施方式】 為使貴審查委員,能對本發明之特徵及目的有更進一1295212 IX. Description of the invention: [Technical field to which the invention belongs] This creation is related to micro drills, a method for regenerating a drill bit and its σ 砰 and 5 refers to a micro [previous technique], according to the current general micro The iron head is formed by a shank portion and a 1 = type. The shank portion is used for a drilled taper portion and a drill body portion at one end of the shank portion. The two-two clamping, the connecting cone portion is connected to the connecting taper portion and the shank portion, and the drill body portion is connected. For the drilling operation on the circuit board, there must be a J-shaped loss:: On the:: drilling operation on the board, so that 15 can be drilled smoothly again ^ Must be grinded to make the iron body drill After the hole operation, it itself:: 'and § the body of the drilled body to carry out 10,000 times of the boundary - the general system - this has been a considerable degree of wear and damage, so the industry. Into the 仃-10,000 drilling operations of the micro-drills to scouring the 20th part of the ft, the 10,000-hole drilling operation of the micro-drill, the loss of any loss on the drill body, and its connection cone and drill The handle has no oblique f, so the entire micro drill bit is eliminated, and the original mussels are nowadays. In the era of rising, there is indeed a doubt that it is too wasteful of material resources. Because it is only a relative, the rise of thinking, causing all kinds of waste disposal procedures, I can reproduce resources, so how Avoid the generation of waste 4 1295212 =:=: The material "recycling use" has become the industry [invention]; in view of this, the main purpose of the present invention is to provide a regenerative manufacturing method and its finished product, Ke „Drill bit=heavy For example, when the regeneration is performed, the micro-denier of the (4) degree is used for the above purpose. The shank portion of the micro-drill which is provided by the present invention is used for the connection of the cone and the body of the body. At the end of the shank portion: the machine holder 'the connecting cone portion-body portion has been worn on the free end of the connecting cone portion, and the freedom of the first drill 15 in the shank portion 2 = step b: _ Removing the first-drilling step c: the joint; the step ¢1.3⁄4 is from -y, the outer diameter is smaller than the outer diameter of the shank portion, and the joint member of the _#彳continent_handle is formed, the joint member Medium and tight _^ joint groove, so that the hybrid «people in the joint groove the second body part =e: in the connection cone Forming a second drill body portion on the road plate, and drilling, and, right, the knife and the groove on the road plate, the blade is used to provide drilling by using the above-mentioned step The time is arranged in the space; the head comprises a 12-out micro-drill, the micro-drilled body and a technician are connected to the drill Q at one end of the shank; the joint of the free end of the shank. 20 Ϊ 295212 [Embodiment] In order to enable your review committee, you can further improve the features and objectives of the present invention.
步之瞭解與認同,茲列舉以下較佳之實施例,並配合圖 說明於後: X 第一圖係本發明—較佳實施例之製造流程方塊圖。 第一圖係本發明一較佳實施例步驟(a)之示意圖。 第二圖係本發明一較佳實施例步驟之示意圖。 $四圖係本發明—較佳實施例步驟⑷之示意圖。 =五圖係本發明一較佳實施例步驟(d)之示意圖。 =六圖係本發明—較佳實施例步驟⑷之示意圖。 第七圖係本發明一較佳實施例之成品分解圖。 15 20 提供-種微型鑽頭之再二、Γ方ΓΓ—較佳實施例所 冉生衣以方法,其步驟包含如下· 圖斯 Γ —損耗至預定程度之微型辆(1G)。如第- 圖所示’该微型鑽頭(1⑺ 弟一 接錐~19、总门± 鑽孔機械所夹持ϋ查 ⑽係同軸連接於該鑽柄部⑴ ::亥連 連接錐部⑽之自由端上,並朴同車由連接於該 形成有若干之㈣及溝連接錐部⑽,並 者,且兮m rn , 用進仃电路板之鑽孔作業 且心—婦部行轩 作業,而達損耗触之標準。 θ I人)之鐵孔 6 1295212 步驟(b):去除已損耗之第一鑽身部(13)。如第三圖所 示’利用切削或研磨等方式將該第一鑽身部(13)完全去除。 步驟(c):於該鑽柄部(11)之自由端形成出一接合部 (111)。如第四圖所示,於該鑽柄部(11)之自由端上以切削或 5研磨等方式,加以形成出一外徑小於鑽柄部外徑而具有預 定長度之接合部(111),該接合部(111)為一圓柱。 步驟(d):將一接合件(20)連接於該接合部(πι)上。如第 五圖所示,取一外徑相等於該鑽柄部(u)之接合件(2〇),且 该接合件(20)之長度等於被去除之第一鑽身部(13)長度,並 10於該接合件(20)之一端形成出一接合槽(21),並將該鑽柄部 (11)之接合部(111)穿入於該接合槽(21)内,而呈緊固之接合 狀態’使該接合件(20)、鑽柄部(n)及該連接錐部(12)之總 長相等於步驟(a)時之微型鑽頭(1〇)總長。 一步驟(昨於連接錐部(12)上形成出一第二鑽身部(14)。如 15第六圖所示,於該連接錐部(12)上以切削或研磨等方式加以 形成出一第二鑽身部(丨4),該第二鑽身部(14)具有若干之刀 及溝才曰以由。亥刀刀進行鑽孔之作業而由該溝槽提供鑽 孔排屑之空間。 ' 藉由上述之步驟,即可將原本需加以去棄淘汰之 不、、、心又又彳月匕在利用最少材料之替換下製造出一可伊 使用之微型鑽頭。 π 」1/' (11)及Γ-本發明之微型鑽頭(1G)包含有—鑽柄部 把口連接於該鑽柄部(11)一端之鑽身部(14), 7 20 1295212 該鑽身部(14)具有若干之刀刃及溝槽,以由該刀刀進行電路 板之鑽孔作業,而由該溝槽提供鑽孔時之排屑空間,該鑽 柄部(11)之自由端則形成有一外徑較小之接合部(111);一接 合件(20),其外徑相同於該鑽柄部(11)之外徑,並於其一端 5 軸向地延伸形成有一接合槽(21),使該接合部(111)穿入於該 接合槽(21)内而呈緊密固接。 1295212 【圖式簡單說明】 第一圖係本發明一較佳實施例之製造流程方塊圖。 第二圖係本發明一較佳實施例步驟(a)之示意圖。 第三圖係本發明一較佳實施例步驟(b)之示意圖。 .5 第四圖係本發明一較佳實施例步驟(C)之示意圖。 第五圖係本發明一較佳實施例步驟(d)之示意圖。 第六圖係本發明一較佳實施例步驟(e)之示意圖。 鲁 第七圖係本發明一較佳實施例之成品分解圖。 ίο【主要元件符號說明】 微型鑽頭(10) 接合部(111) 第一鑽身部(13) 接合槽(21) 鑽柄部(11) 連接錐部(12) 接合件(20) 第二鑽身部(14)BRIEF DESCRIPTION OF THE DRAWINGS The following preferred embodiments are illustrated with reference to the following drawings: X The first drawing is a block diagram of the manufacturing process of the present invention. The first figure is a schematic illustration of step (a) of a preferred embodiment of the invention. The second drawing is a schematic illustration of the steps of a preferred embodiment of the invention. $4 is a schematic representation of the present invention - step (4) of the preferred embodiment. = Five figures are schematic illustrations of step (d) of a preferred embodiment of the invention. = Six Figures are schematic views of the present invention - step (4) of the preferred embodiment. Figure 7 is an exploded view of a preferred embodiment of the present invention. 15 20 Providing a second type of micro-drill, the preferred embodiment is a method of producing a garment, the steps of which include the following: Tuss Γ - a miniature vehicle (1G) that is depleted to a predetermined degree. As shown in the figure - Figure 'The micro drill bit (1(7) brother taper ~19, the total door ± the drilling machine clamp inspection (10) is coaxially connected to the drill handle (1) :: Hailian connection cone (10) freedom On the end, and the Park Tong is connected by the formation of a plurality of (four) and groove connection cones (10), and 兮m rn, using the drilling of the circuit board and the heart-women's work, and The standard of the loss touch. θ I person) iron hole 6 1295212 Step (b): remove the worn first drill body (13). The first body portion (13) is completely removed by cutting or grinding, as shown in the third figure. Step (c): forming a joint portion (111) at the free end of the shank portion (11). As shown in the fourth figure, on the free end of the shank portion (11), a joint portion (111) having an outer diameter smaller than the outer diameter of the shank portion and having a predetermined length is formed by cutting or 5 grinding or the like. The joint portion (111) is a cylinder. Step (d): attaching a joint member (20) to the joint portion (πι). As shown in the fifth figure, an engaging member (2〇) having an outer diameter equal to that of the shank portion (u) is taken, and the length of the engaging member (20) is equal to the length of the first drill body portion (13) to be removed. And forming a joint groove (21) at one end of the joint member (20), and inserting the joint portion (111) of the drill portion (11) into the joint groove (21), and tightening The solid joint state 'the total length of the joint member (20), the shank portion (n) and the joint taper portion (12) is equal to the total length of the micro drill bit (1 〇) at the time of the step (a). In one step (a second drill body portion (14) is formed on the connecting taper portion (12). As shown in Fig. 6 of Fig. 15, the connecting taper portion (12) is formed by cutting or grinding. a second body portion (丨4), the second body portion (14) having a plurality of knives and grooves for providing drilling and chip evacuation by the boring tool for drilling Space. ' With the above steps, you can make a micro drill bit that can be used in Iraq with the replacement of the least material with the need to eliminate it. π ” '(11)和Γ-The micro drill bit (1G) of the present invention comprises a drill body portion (14) having a shank mouth connecting the end of the shank portion (11), 7 20 1295212 the body portion (14) Having a plurality of blades and grooves for drilling a circuit board by the knife, and providing a chip evacuation space for drilling when the groove is formed, the free end of the shank portion (11) is formed with an outer portion a smaller joint (111); an engaging member (20) having an outer diameter equal to the outer diameter of the shank portion (11) and extending axially at one end 5 thereof to form a joint (21), the joint portion (111) is inserted into the joint groove (21) to be tightly fixed. 1295212 [Schematic description of the drawings] The first figure is a block diagram of the manufacturing process of a preferred embodiment of the present invention. The second drawing is a schematic view of the step (a) of a preferred embodiment of the present invention. The third drawing is a schematic view of the step (b) of a preferred embodiment of the present invention. The fourth drawing is a preferred embodiment of the present invention. BRIEF DESCRIPTION OF THE DRAWINGS Figure 5 is a schematic view of a step (d) of a preferred embodiment of the present invention. Figure 6 is a schematic view of a step (e) of a preferred embodiment of the present invention. An exploded view of a preferred embodiment. ίο [Description of main components] Micro drill (10) Joint (111) First body (13) Engagement groove (21) Drill (11) Connection taper ( 12) Joint (20) Second body (14)