M325182 八、新型說明: 【新型所屬之技術領域】 . 本創作係涉及一種用於磨削的裝置,尤指一種將銑刀 一· 磨利的磨銑刀機。 . 【先前技術】 既有的銑刀於刀鋒鈍了以後,多半利用砂輪機的砂輪 來將銑刀的逃隙角、前斜角,以及後斜角重新磨削,使其 可以再度用來切削利用。 然而由於利用砂輪機磨銑刀的過程需要較高深的技術 以及經驗,因此若操作不當,經常會使得銑刀損壞,或者 來回磨削花費時間仍不能完成操作,目此有提供方便使用 的磨利銑刀設備需求。 【新型内容】 由於既有銑刀缺乏自動方便的設備磨利,因此有造成 使用不方便困擾的缺點。本創作有鑑於此,設計一種專用 於磨利銑刀的裂置,藉此解決上述問題。 銳刀=括上述目的’本創作係提供-種磨鏡刀機,該磨 馬二=主㈣設有一機身,於機身内的頂部固設- , 垂直伸設一傳動軸,於該傳動軸社人一 Η形的砂輪片,於該砂輪片 号助釉一 於該砂輪片H —周緣形成一水平研磨部, 設一磨刀插庙_ . 角研磨部,於機身頂部固 身頂部並蓋合於砂輪片,於該軍^二该罩盡螺鎖於機 I則面穿設一前插孔,於 4 M325182 省罩蓋頂部分別穿設一中插孔以及一後插孔; 於°亥别插孔結合一前插座,於該中插孔固設一中插座, 並於忒後插孔結合一後插座,其中,該前插座的前面係垂 直面並且穿設一逃隙角插孔,該逃隙角插孔係水平延伸且 中心朝向該砂輪片一側周面的中間,於該前插座外面的上 下兩側分別朝前凸伸形成一前定位凸塊; /中插庄的頂面係斜面並且穿設一前隙角插孔,該前隙 角插孔係朝向該砂輪片的方向較寬的斜孔,前隙角插孔底 多而並朝向該水平研磨部,於該中插座頂面朝向砂輪片的内 側形成一中定位凸塊,該中定位凸塊的高度低於該前定位 凸塊且於朝向所述前隙角插孔的外面形成一抵靠面; 該後插座的頂面係斜面並且穿設一後斜角插孔,該後斜 角插孔係斜向設置並且中心朝向該水平研磨部,於該後插 座頂面凸伸形成一後定位凸塊,該後定位凸塊的高度低於 該前定位凸塊; 一銑刀夾具,該銑刀夹具於前端部設有一前筒夾座,前 筒夾座設有一螺鎖部,於該螺鎖部的前面形成一環肩部, 於該肩部的周緣等間隔凹陷形成複數個分別配合兩前定位 凸塊、該中定位凸塊以及該後定位凸塊的深槽以及淺槽, 各深槽以及各淺槽係交錯設置並且深度介於該前定位凸塊 與該中定位凸塊的高度之間; 於該螺鎖部前端的中央朝前伸設形成一分別配合該逃 隙角插孔、該前隙角插孔以及該後斜角插孔的插管,於該 插管基部的周圍形成一定位部,於該定位部的周圍形成複 5 M325182 數個數量配合深槽、淺槽總量且位於各深槽、淺槽内側的 表面’於表面間隔形成一個以上配合抵靠面的抵靠凸部。 進一步,本創作前插座係以可樞轉形態插設於所述前 插孔,前插座並於伸出的前端形成一直徑較大的盤部,於 該盤部的左右兩側各穿設一弧度各佔3〇度的定位孔,配合 定位孔各設有一螺栓,螺栓穿經定位孔後結合於該前插孔 前端的周緣。 進一步,本創作後插座係以可樞轉形態插設於所述後插 籲孔,於該後插孔與該後插座之間設有一軸承,於該後插座 伸出5亥後插孔的頂端形成一直徑較大的盤部,於該盤部一 側牙5又一弧度佔30度的定位孔,配合定位孔設有一螺栓, 螺栓穿經定位孔後螺鎖於該後插孔頂端的周緣。 較佳的,丽插座的兩前定位凸塊於相對面形成兩平行的 前定位卡制面,於各前定位卡制面的中間凹入形成一凹 槽;於所述後插座的後定位凸塊朝所述後斜角插孔的一側 形成一後定位卡制面,於後定位卡制面的中間形成一凹 籲槽;所述前筒夾座於肩部形成兩個深槽以及兩個淺槽,於 所述定位部周圍配合深槽以及淺槽的内側形成四個所述表 面,表面分別配合抵靠兩前定位卡制面、抵靠面以及後定 位卡制面,於配合兩深槽的間隔表面分別凸設所述抵靠凸 部,柢靠凸部係配合抵靠前定位卡制面的凹槽、抵靠面以 及後定位卡制面的凹槽。 較佳的,前筒夾座於肩部形成三個深槽以及三個淺槽, 於所述定位部周圍配合深檜以及淺槽的内側形成六個所述 M325182 表面,表面分別配合抵靠兩前定位凸塊 。:鬼,於^角形排列表面的其中兩個表 .罪凸部,抵罪凸部的外端面距離所述插管中心的長声*直 , 餘表面距離插管中心的長度長。 、又父其 • 本創作使用時,係將銑刀插設於銑刀夾具,調整銑刀前 _後的位置以及刀刃的位置後,啟動馬達帶動砂輪片旋轉則 接著將銑刀夾具以及銑刀分別由逃隙角插孔、前^角插M325182 VIII. New description: [New technical field] The present invention relates to a device for grinding, in particular to a milling machine for grinding a milling cutter. [Prior Art] After the cutter is blunt, the grinding wheel of the grinder is used to re-grind the escape angle, the front bevel, and the back bevel of the cutter so that it can be used again for cutting. use. However, since the process of using the grinder milling cutter requires a deeper technique and experience, if the operation is improper, the milling cutter is often damaged, or the grinding and grinding takes time to complete the operation, and the utility model provides a smooth and easy to use operation. Milling equipment requirements. [New content] Due to the lack of automatic and convenient equipment for the sharpening of existing milling cutters, it has the disadvantage of causing inconvenience in use. In view of this, the present invention solves the above problems by designing a split for a sharpening cutter. Sharp knife = including the above purpose 'This creation provides a kind of grinding mirror machine, the grinding horse two = main (four) has a fuselage, fixed at the top of the fuselage -, a vertical extension of a drive shaft, the transmission A shaft-shaped grinding wheel piece is formed on the grinding wheel piece to help the glaze form a horizontal grinding part on the periphery of the grinding wheel piece H, and a grinding knife is inserted into the temple _. An angle grinding part is fixed on the top of the fuselage top And cover the grinding wheel piece, in the army, the cover is screwed to the machine I to wear a front jack, and a middle jack and a rear jack are respectively arranged on the top of the 4 M325182 provincial cover; The hex socket is combined with a front socket, and a middle socket is fixed in the middle socket, and a rear socket is combined with the rear socket, wherein the front surface of the front socket is vertical and a clearance angle is inserted a hole, the escape angle insertion hole is horizontally extended and the center is facing the middle of the circumferential surface of the grinding wheel piece, and a front positioning protrusion is protruded forwardly on the upper and lower sides of the front outer portion of the front socket; The top surface is inclined and is provided with a front clearance angle socket, and the front clearance angle socket is a wide oblique hole facing the grinding wheel piece. The bottom of the slot jack has a plurality of bottoms and faces the horizontal grinding portion, and a top positioning protrusion is formed on the inner surface of the middle socket toward the inner side of the grinding wheel piece, and the middle positioning protrusion has a lower height than the front positioning protrusion and is oriented toward the front Forming an abutting surface on the outer surface of the front slot angle jack; the top surface of the rear socket is inclined and is provided with a rear bevel jack, and the rear bevel jack is disposed obliquely and centered toward the horizontal grinding portion, Forming a rear positioning protrusion on the top surface of the rear socket, the rear positioning protrusion has a lower height than the front positioning protrusion; and a milling cutter holder having a front tube holder at the front end portion, the front part The collet holder is provided with a screw locking portion, and a ring shoulder portion is formed on the front surface of the screw locking portion, and is recessed at equal intervals on the circumference of the shoulder portion to form a plurality of respectively respectively engaging two front positioning protrusions, the middle positioning protrusion and the rear positioning a deep groove of the bump and a shallow groove, each deep groove and each shallow groove are staggered and have a depth between the height of the front positioning protrusion and the middle positioning protrusion; extending toward the center of the front end of the screw lock portion Forming a pair of the escape angle jacks respectively, the front The angle insertion hole and the cannula of the rear oblique insertion hole form a positioning portion around the base of the insertion tube, and a plurality of M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M The surface of the deep groove and the inner side of the shallow groove is formed with one or more abutting convex portions that are fitted to the abutting surface at intervals. Further, the front socket of the present invention is pivotally inserted into the front insertion hole, and the front socket forms a larger diameter disk portion at the extended front end, and one of the left and right sides of the disk portion is disposed. The positioning holes are respectively arranged at a curvature of 3 degrees, and each of the positioning holes is provided with a bolt, and the bolt passes through the positioning hole and is coupled to the periphery of the front end of the front socket. Further, after the creation, the socket is pivotally inserted into the rear insertion hole, and a bearing is disposed between the rear socket and the rear socket, and the socket is extended at the top of the socket after 5 hours. Forming a disk portion having a larger diameter, and a tooth having a curvature of 30 degrees on one side of the disk portion, and a positioning bolt is provided with a bolt, and the bolt passes through the positioning hole and is screwed to the periphery of the top end of the rear socket. . Preferably, the two front positioning protrusions of the Phillips socket form two parallel front positioning card faces on opposite sides, and a recess is formed in the middle of each front positioning card surface; a rear positioning convex is formed on the rear socket. Forming a rear positioning card surface on a side of the rear beveled insertion hole, and forming a recessed groove in a middle of the rear positioning card surface; the front collet holder forms two deep grooves on the shoulder and two a shallow groove, four deep surfaces are formed around the positioning portion, and four inner surfaces are formed on the inner side of the shallow groove, and the surfaces are respectively matched against the two front positioning card faces, the abutting surface and the rear positioning card surface, The abutting protrusions are respectively protruded from the spacing surfaces of the deep grooves, and the protruding protrusions are engaged with the grooves of the front positioning card surface, the abutting surface and the grooves of the rear positioning surface. Preferably, the front collet holder has three deep grooves and three shallow grooves formed in the shoulder portion, and six M315182 surfaces are formed on the inner side of the shallow groove and the inner side of the shallow groove around the positioning portion, and the surfaces are respectively matched against the two surfaces. Front positioning bumps. : Ghost, two of the surfaces of the angling surface. The sin convex portion, the outer end surface of the sinus convex portion is long from the center of the cannula, and the remaining surface is longer than the length of the center of the cannula. And the father and the other are used to insert the milling cutter into the milling cutter fixture, adjust the position of the front and rear of the milling cutter and the position of the cutting edge, then start the motor to drive the grinding wheel to rotate, then the milling cutter and the milling cutter By the escape angle jack, the front corner
孔,以及後斜角插孔分別插入,藉此磨出各個逃隙二 籲斜角,以及後斜角。 月,J 當欲磨削銑刀的逃隙角時,係將銑刀夾具的插管由逃隙 角插孔插入,以成對的深槽以及成對的淺槽分別卡抵於兩 刖疋位凸塊,由於相鄰深槽以及淺槽深淺不一,因此當插 管分別旋轉並依次插入逃隙角插孔時,可因為插入深度不 同而由砂輪片的尖角研磨部對銑刀磨出複數個深淺交錯 -逃隙角。 曰 _ 當欲磨削銑刀的前隙角時,係將銑刀夾具的插管由前隙 角插孔插入,以各深槽以及各淺槽分別卡抵於中定位凸 塊,當插管分別旋轉並依次插入前隙角插孔時,可由砂輪 片的水平研磨部對銑刀磨出複數個前隙角; 並且當銑刀夾具利用未設有抵靠凸部的表面配合抵靠 面而插设於中插座時,由於插管可朝砂輪片進退移動,因 此研磨時水平研磨部可以研磨過銑刀的中心,當銑刀夹具 利用抵罪凸部配合抵靠面而插設於中插座時,由於插管會 被頂靠外移,因此研磨時水平研磨部不會研磨到銑刀的中 M325182 心,加上抵靠凸部係間隔設置,因此可將銑刀的部分刀研 磨為不過中心的狀態,可確立中心點的存在以適合重切 削。 • 當欲磨削銑刀的後斜角時,係將銑刀夾具的插管由後斜 角插孔插入,以各深槽以及各淺槽分別卡抵於後定位凸 - 塊’當插管分別旋轉並依次插入後斜角插孔時,可由砂輪 —片的水平研磨部對銑刀磨出複數個後斜角。 本創作藉由銑刀夾具提供銑刀插設,再將銑刀夾具以及 泰銑刀配合插設於逃隙角插孔、前隙角插孔,以及後斜角插 孔,藉此可以快速的磨出各個逃隙角、前斜角,以及後斜 角,刼作簡單不需要較高的經驗以及磨削技巧,具有方便 使用者利用的功效,再者由於本創作研磨前隙角時可將銑 刀的邛分刃研磨為不過中心的狀態,因此可確立中心點的 存在’藉此適合重切削使用的場合。 【實施方式】 Φ 創作係種磨銑刀機,請參看第一至九圖的較佳實 施例’其係包括一主機(1 、 ^ 王微、iU)以及一銑刀夾具(2〇), 弟七圖,該主機(1 0 )設有 清參看第一 :身(11) ’於機身(11)㈣頂部固設一馬達(1 ,馬達(1 2 )朝上垂直伸設一傳動轴(i , 於傳動軸(1 2 1 )結合一圓形的砂輪 Η ( Λ η λ J y 輪片(1 3 ),砂輪 丄d )係水平設置並於頂部周緣 Ο 1 N # 丨门緣t成一水平研磨部(1 ,於砂輪片(1 3 )的周圍的底缝介 _曰]原緣亦形成一尖角研 M325182 磨部(1 3 2 ),於機鱼/ 4),磨刀插座(、广身(11)頂部固設-磨刀插座 (1 4)螺鎖於機身)設有—罩蓋(1 5 ),磨刀插座 於罩蓋(丄 吁1 1 )頂部並蓋合於砂輪片(1 3 ), 3 )周側的中間:1蓋(1 5 )頂部對應砂輪片(1 一中插孔(1 5 2 /面分別穿設一前插孔(1 5 1 )、 以及一後插孔(]S q 孔(1 5 1)係朝 二153 )’其中刖插 中插孔(1 5 2 )往 (13)側的周面水平穿設, 插孔(15 3)係朝:Γ輪片(13)頂面斜向穿設,後 請參看第三、四片(1 3)頂面斜向穿設; (16) c 1 ρ; Ί w 6 )係以可樞轉形態插設於前插孔 #、伸出的前端形成一直徑較大的盤部(1 6 二定=(161)的左右兩側各穿設-弧度各佔3。 度的疋位孔(1 β 1 Ί 右一你氣h 1 ),配合定位孔(1 Θ 1 1)各設 ==位件的螺检(162),螺检(162)穿經 緣〜6 1 1 )後螺鎖於前插孔(1 5 1 )前端的周 :刖纟(1 6 )的前面係垂直面並且穿設一圓形的逃 '、番孔(1 6 3 ),逃隙角插孔(工6 3 )係水平延伸 :固孔並且中心朝向砂輪片(")-側周面的中間,於 刖插座(1 6 )外面的上下兩側分別朝前凸伸形成一前定 位凸塊(1 6 4 ),於兩前定位凸塊(丄6 4 )的相對面 形成兩平行的前定位卡制面(1641),於各前定位卡 制面(1 6 4 1 )的中間凹入形成—凹槽(工6 4 2 ); 請參看第三、五圖,於中插孔(丄5 2 )固設一中插座 9 M325182 (1 7 )中插座(i 7 )的頂面係斜面 前隙角插孔(1 7 Ί、,命睹&社 ……1 7 1 )別隙角插孔(1 7 1 )係朝向砂 :片(1 3) $向寬度較寬的斜孔並且底端朝向水平研磨 1 ) A中插座(1 7 )頂面朝向砂輪片(丄3 ) 的内側凸伸形成—中定位凸塊(α 7 2),中定位凸塊〇 72)南度低於兩前前定位凸塊(164),於中定位凸 塊(1 7 2 )的外側面形成一抵靠面(丄7 3 ); 請參看第三、七圖’於後插孔(1 5 3)樞設一後插座The holes, and the rear beveled insertion holes are respectively inserted, thereby grinding out the respective escape angles and the back bevels. Month, J When you want to grind the escape angle of the milling cutter, insert the cannula of the milling cutter clamp into the escape angle socket, and the pair of deep grooves and the pair of shallow grooves are respectively clamped to the two sides. Position bumps, because the adjacent deep grooves and shallow grooves are different in depth, when the cannula is rotated and inserted into the escape angle jacks in turn, the sharp grinding portion of the grinding wheel piece can be used for the milling cutter grinding because of the different insertion depths. A number of depths and interlaces - escape angles.曰 _ When you want to grind the front clearance angle of the milling cutter, insert the insert of the milling cutter clamp into the front clearance corner socket, and the deep groove and each shallow groove respectively get stuck to the middle positioning projection, when the cannula When rotating and sequentially inserting the front clearance corner jack, the plurality of front clearance angles may be ground by the horizontal grinding portion of the grinding wheel piece; and when the milling cutter jig is fitted with the abutting surface by the surface not provided with the abutting convex portion When inserted in the middle socket, since the cannula can move forward and backward toward the grinding wheel piece, the horizontal grinding part can be ground through the center of the milling cutter during grinding, and when the milling cutter jig is inserted into the middle socket by using the abutting convex part to fit the abutting surface Because the cannula will be moved outwards, the horizontal grinding part will not grind to the center of the milling cutter M325182 during grinding, and the spacing of the convex parts will be set, so that part of the milling cutter can be grounded but not centered. The state of the center point can be established to suit heavy cutting. • When grinding the rear bevel of the milling cutter, insert the cannula of the milling cutter clamp into the rear beveled socket, and the deep groove and each shallow groove are respectively clamped to the rear positioning convex-block' as the cannula When rotating and sequentially inserting the rear beveled jacks, a plurality of rear bevels may be grounded by the horizontal grinding portion of the grinding wheel-plate. This creation provides milling cutter insertion by milling cutter fixture, and then inserts the milling cutter fixture and the Thai milling cutter into the escape angle jack, the front slot angle jack, and the rear bevel jack, which can be quickly Grinding out the escape angle, the front bevel angle, and the back bevel angle, the simple operation does not require high experience and grinding skills, and has the effect of being convenient for the user to use, and further, since the creation of the front gap angle can be The cutting edge of the milling cutter is not centered, so the presence of the center point can be established. This is suitable for heavy cutting applications. [Embodiment] Φ Creative Milling and Milling Machine, please refer to the preferred embodiment of the first to ninth drawings, which includes a main machine (1, ^ Wang Wei, iU) and a milling cutter (2 〇), In the seventh picture, the main unit (10) is provided with a clear reference first: body (11) 'fixes a motor on the top of the fuselage (11) (four) (1, the motor (1 2) vertically extends a drive shaft (i, in the drive shaft (1 2 1 ) combined with a circular grinding wheel Η (Λ η λ J y wheel (1 3 ), grinding wheel 丄 d ) is horizontally set and at the top circumference Ο 1 N # 丨 door edge t Into a horizontal grinding part (1, the bottom edge of the grinding wheel (1 3) around the bottom of the hole _ 曰] also formed a sharp angle M325182 grinding part (1 3 2), in the fish / 4), sharpening socket (, wide body (11) top fixed - sharpening socket (1 4) screw lock on the fuselage) with a cover (1 5), sharpening socket on the top of the cover (丄 1 1 ) and cover In the middle of the grinding wheel (1 3 ), 3) in the middle of the circumference: 1 cover (1 5) corresponds to the top of the grinding wheel (1 middle socket (1 5 2 / face respectively wear a front jack (1 5 1), And a rear jack (]S q hole (1 5 1) is tied to two 153 ) Insert the middle jack (1 5 2 ) horizontally to the circumferential surface of the (13) side. The jack (15 3) is oriented toward the top of the Γ wheel (13). Please refer to the third and fourth. The top surface of the piece (1 3) is obliquely threaded; (16) c 1 ρ; Ί w 6 ) is pivotally inserted into the front socket #, and the extended front end forms a disk portion having a larger diameter ( 1 6 二定=(161) The left and right sides are respectively set to - each of the arcs is 3. The degree of the hole (1 β 1 Ί right one you h 1 ), with the positioning holes (1 Θ 1 1) == Thread check of the bit piece (162), screw check (162) piercing the rim ~6 1 1 ) After the screw is screwed to the front end of the front jack (1 5 1 ): 前面 (1 6 ) front of the vertical Face and wear a circular escape', Fan hole (1 6 3), the escape angle jack (gong 6 3) is horizontally extended: the solid hole and the center is facing the grinding wheel (") - the middle of the side circumference A front positioning protrusion (1 6 4 ) is protruded forwardly on the upper and lower sides of the outer side of the socket (1 6 ), and two parallel front positions are formed on opposite sides of the two front positioning protrusions (丄6 4 ). The card surface (1641) is recessed in the middle of each front positioning card surface (1 6 4 1) to form a groove (Work 6 4 2 Please refer to the third and fifth figures. Fix the middle socket (丄5 2) in the middle socket 9 M325182 (1 7). The top surface of the socket (i 7) is inclined to the front slot (1 7 Ί) ,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,, The top surface of the socket (1 7 ) protrudes toward the inner side of the grinding wheel piece (丄3 )—the middle positioning protrusion (α 7 2), the middle positioning protrusion piece 72) is lower than the two front front positioning protrusions (164). , an abutting surface (丄7 3 ) is formed on the outer side surface of the middle positioning bump (1 2 2 ); please refer to the third and seventh figures of the rear socket (1 5 3) to pivot a rear socket
’後插座(18)#以可樞轉形態插設於後插孔 (1 5 3 ),於後插孔(χ 5 3 )與後插座(} 8 )之間 設有-轴承(1 9 ) ’於後插座(丄8 )伸出後插孔(丄 5 3 )的頂端形成一直徑較大的盤部(丄8丄),於盤部 (1 8 1 ) —侧穿設一弧度佔30度的定位孔(丄8 2 ), 配合定位孔(1 8 2 )設有一作為定位件的螺拴(丄8 3 ), 螺检(1 8 3 )穿經定位孔(1 8 2 )後螺鎖於後插孔(工 5 3 )頂端的周緣’後插座(1 8 )的頂面係斜面並且穿 設形成一圓形的後斜角插孔(1 8 4 ),後斜角插孔(1 8 4 )係斜向的圓孔並且中心朝向水平研磨部(丄3丄), 於後插座(1 8 )頂面的周圍凸伸形成一後定位凸塊(1 85),後定位凸塊(185)的高度等於中定位凸塊(1 7 2 ),於後定位凸塊(1 8 5 )朝後斜角插孔(1 8 4 ) 的一側形成一後定位卡制面(1 8 5 1 ),於後定位卡制 面(1 8 5 1 )的中間形成一凹槽(1 8 5 2 )。 請參看第八、九圖,該銑刀夾具(2〇)係包括一前筒 M325182 夹座(21)、一與前筒夹座 丄(2 1 )螺鎖的後筒央座(2 及一夾合於前筒夾座( + , 0 人从C 2 1 )與後筒夾座(2 2 )之 間的同夾(2 3 ),其中, 前筒夹座(2 1 )前端# + 、 9 . . 7成—^刀別配合逃隙角插孔(1 5』1 )、前隙角插孔(i 5 ? Ί、 μ ,,, 3 d 1 )、後斜角插孔(1 5 4 1 ),以及插孔(2 S Ί、au ,Q "、 U d 1 )的插管(2 1 1 ),於插管 〔Z丄1 )的基部向後延伸带τ^、 _»_ 嫂4PIW。Ί 直純大且為®環形的 螺鎖邛(2 1 2 ),於螺鎖部(?彳 A . Ar? , 1 1 2 1 2 )丽面形成一環狀 的^ (213) ’於肩部(us)的周緣等間隔凹陷 形成四個分別配合兩前定位凸塊(164)、中定位凸塊 (172)、後疋位凸塊(185)的深槽(2131) 以及欠槽(2丄3 2 ),深槽(2工3工)以及淺槽(2 1 3 2 )係交錯設置’各深槽(2 1 3 1 )以及各淺槽(2 1 3 2)的深度介於前定位凸塊(χ 6 4)與中定位凸塊 (1 7 2 )的高度之間; 於插s ( 2 1 1 )基部的周圍形成一寬度較大的定位部 (214),於定位部(214)周圍位於深槽(213 1 j ^及/义槽(2 1 3 2 )的内側形成四個分別配合抵靠 兩前定位卡制面(1 5 2 3 )、中定位卡制面(丄5 3 3 )、 後定位卡制面(1 5 4 3 )的表面(2 1 4 1 ),於配合 雨/米槽(2 1 3 1)的間隔表面(2 1 4 1 )配合抵靠凹 槽(1642)、抵靠面(X73)以及凹槽(1852) 凸設一抵靠凸部(2丄4 2 )。 本創作除上述較佳實施例將前插座(1 6 )以及後插座 11'The rear socket (18)# is pivotally inserted into the rear jack (1 5 3 ), and between the rear jack (χ 5 3 ) and the rear socket (} 8 ) is provided with a bearing (1 9 ) 'After the rear socket (丄8) is extended, the top end of the insertion hole (丄5 3 ) forms a larger diameter disk portion (丄8丄), and the disk portion (1 8 1 ) is provided with a curvature of 30 degrees. The positioning hole (丄8 2 ) of the degree, with the positioning hole (1 8 2 ) is provided with a screw (丄8 3 ) as a positioning member, and the screw inspection (1 8 3 ) passes through the positioning hole (1 8 2 ) Lock the top edge of the rear end of the rear jack (work 5 3 ). The top surface of the rear socket (1 8 ) is inclined and is formed to form a circular rear beveled jack (1 8 4 ), rear beveled jack ( 1 8 4) is an oblique circular hole with a center toward the horizontal grinding portion (丄3丄), and a rear positioning projection (1 85) is formed around the top surface of the rear socket (18), and the rear positioning convex portion is formed. The height of (185) is equal to the middle positioning projection (1 7 2 ), and a rear positioning engagement surface is formed on the side of the rear positioning projection (1 8 5 ) toward the rear oblique insertion hole (1 8 4 ) (1 8 5 1 ), a groove (1 8 5 2 ) is formed in the middle of the rear positioning card surface (1 8 5 1 ). Please refer to the eighth and ninth drawings. The milling cutter fixture (2〇) includes a front barrel M325182 clamp seat (21), and a front cylinder clamp seat (2 1 ) screwed rear cylinder seat (2 and one) Clamped to the same clamp (2 3 ) between the front collet holder (+, 0 person from C 2 1 ) and the rear collet holder (2 2 ), wherein the front collet holder (2 1 ) front end # + , 9 . . 70% - ^ knife with the escape angle jack (1 5』1), front clearance jack (i 5 ? Ί, μ,,, 3 d 1), rear bevel jack (1 5 4 1 ), and the cannula (2 1 1 ) of the jack (2 S Ί, au, Q ", U d 1 ), extending backwards at the base of the cannula [Z丄1) with τ^, _»_嫂 4PIW.直 Straight and large, the ring-shaped screw 邛 (2 1 2 ), in the screw lock (?彳A. Ar?, 1 1 2 1 2 ), the surface is formed into a ring ^ (213) ' on the shoulder The peripheral edges of (us) are recessed at equal intervals to form four deep grooves (2131) and under-grooves (2131) respectively matching the two front positioning projections (164), the middle positioning projections (172), and the rear clamping projections (185). 3 2 ), the deep groove (2 work 3 work) and the shallow groove (2 1 3 2 ) are staggered to set the depth of each deep groove (2 1 3 1 ) and each shallow groove (2 1 3 2). Between the height of the bump (χ 6 4) and the middle positioning bump (1 7 2 ); a positioning portion (214) having a larger width is formed around the base of the plug s ( 2 1 1 ) at the positioning portion (214) The four sides of the deep groove (213 1 j ^ / / groove (2 1 3 2 ) are formed to fit against the two front positioning card faces (1 5 2 3 ), the middle positioning card surface (丄5) 3 3), the surface of the rear positioning card surface (1 5 4 3 ) (2 1 4 1 ), fits against the groove on the spacing surface (2 1 4 1 ) of the rain/meter slot (2 1 3 1) (1642), the abutting surface (X73) and the groove (1852) are convexly disposed against the convex portion (2丄4 2 ). Preferred embodiment the front receptacle (16) and a rear socket 11
4 1 )平行,銑 、四圖,啟動主 M325182 (1 8 )設為可偏轉的形態以外,亦可將前插座(丄6 ) 以及後插座(1 8 )固設於罩蓋(1 5 )的前插孔(1 5 1 )以及後插孔(1 5 3 )使用,本創作在此不加以限制。 當本創作較佳實施例使用時係可用於兩刃以及四刃的 銑刀’請參看第八、九圖,卩四刃的銑刀(A )為例子, 先將銑刀(A )穿設定位於銑刀夾具(2 〇 )並將其定位, 使銑刀(A)的刀刃與其中一表面(2 1 刀(A)疋位完成後’請進一步參看第二 機(1 0 )的馬達(1 2 )帶動砂輪片(丄 者將銳刀夾具(2 0 )以及插設的銑刀(a 角插孔(1 6 3 )、前隙角插孔(1 了工) 插孔(1 8 4 )插入’藉此磨出各個逃ji审角 及後斜角。 3 )旋轉,接 )分別由逃隙 ,以及後斜角 、前斜角,以 當欲磨削銑刀 的插管(2 1 1 ) 的深槽(2 1 3 1 抵於兩前定位凸塊 及抵靠凸部(2 1 4 1 )以及凹槽( 由於相鄰深槽 不一,因此當插管 隙角插孔(1 6 3 (1 4 )的尖角研 深淺交錯的逃隙角 由逃隙角插孔(1 6 3 ) )以及成對的淺槽(2 1 (1 6 4 ),並且表面( 4 2 )分別抵靠於前定位 1 6 4 2 )。 (2 1 3 1 )以及淺槽(2 (2 1 1 )分別旋轉9 〇 )時,可因為插入深度不 磨部(1 4 2 )對銳刀( ’並且每次插入時可藉由 插入,以成對 3 2 )分別卡 2 1 4 1 )以 卡制面(1 6 1 3 2 )深淺 度依次插入逃 同而由砂輪片 A )磨出四;個 可旋轉的前插 12 M325182 座(1 6)與銑刀夾具(20)並銑刀(a) —同作3q声 的偏轉,藉此將銑刀(A )逃隙角的外端研磨成較為鋒^ 的狀態以適合使用於重切削。 當欲磨削銑刀(A )的前隙角時,請進一步參看第二以 及第五、六圖,係將銑刀夾具(2 〇 )的插管(2丄工) 由前隙角插孔(1 7 1 )插入,以各深槽(2 1 3 Ί、、 及淺槽(2 1 3 2 )分別卡抵於中定位凸塊(1 7 2 ), 並且表面(2141)分別抵靠於抵靠面(173)。 §插管(2 1 1 )分別方疋轉9 〇度依次插入前隙角插孔 (1 7 1 )時’可由砂輪片(1 3 )的水平研磨部(1 3 1 )對銑刀(A )磨出四個前隙角,當銑刀夾具(2 〇 )4 1) Parallel, milling, four-figure, starting the main M325182 (1 8) in a deflectable configuration, the front socket (丄6) and the rear socket (18) can also be fixed to the cover (1 5) The front jack (1 5 1 ) and the rear jack (1 5 3) are used, and the creation is not limited herein. When the preferred embodiment of the present invention is used, it can be used for two-blade and four-blade milling cutters. Please refer to the eighth and ninth drawings, and the four-blade milling cutter (A) is an example. First, the milling cutter (A) is set. Located in the milling cutter clamp (2 〇) and positioned it so that the cutting edge of the milling cutter (A) and one of the surfaces (2 1 knife (A) after the completion of the position 'Please refer to the motor of the second machine (1 0) ( 1 2) Drive the grinding wheel (the latter will sharpen the clamp (2 0) and the inserted milling cutter (a corner jack (1 6 3), front slot angle jack (1 work) jack (1 8 4 ) Insert 'to make out the various escape angles and back bevels. 3) Rotate, connect) by the escape, and the back bevel, the front bevel, to intubate the cutter to be ground (2 1 1) The deep groove (2 1 3 1 is opposite to the two front positioning bumps and the abutting convex part (2 1 4 1 ) and the groove (because the adjacent deep groove is not the same, so when the insertion slot angle jack (1 6 3 (1 4 ) sharp corners of the shallow staggered escape angle by the escape angle jack (1 6 3 )) and pairs of shallow grooves (2 1 (1 6 4 ), and the surface (4 2 ) respectively Relying on the front positioning 1 6 4 2 ). (2 1 3 1 ) and the shallow groove 2 (2 1 1 ) When rotating 9 〇) respectively, it can be used because the insertion depth is not worn (1 4 2 ) for sharp knives (' and can be inserted by each insertion, paired 3 2 ) respectively 2 1 4 1) Inserting the escape plane in the depth of the card surface (1 6 1 3 2) and grinding it out by the grinding wheel A); a rotatable front insert 12 M325182 seat (16) and milling cutter (20) The milling cutter (a) is the same as the deflection of the 3q sound, thereby grinding the outer end of the escape angle of the milling cutter (A) into a relatively sharp state to be suitable for heavy cutting. When grinding the milling cutter (A) For the front clearance angle, please refer to the second and fifth and sixth figures. The cannula (2 〇) of the milling cutter clamp (2 )) is inserted by the front clearance angle jack (1 7 1 ) to The deep grooves (2 1 3 Ί, and the shallow grooves (2 1 3 2 ) respectively abut against the middle positioning projections (1 7 2 ), and the surfaces (2141) respectively abut against the abutting faces (173). When the cannula (2 1 1 ) is inserted into the rake angle jack (1 7 1 ) in turn, the horizontal grinding part (1 3 1 ) of the grinding wheel piece (1 3 ) can be used to mill the cutter (A). Grind out four front clearance angles when milling cutter clamps (2 〇)
利用未設有抵靠凸部(2 1 4 2 )的表面(2 1 4 1 )配 合抵靠面(1 7 3 )而插設於中插座(1 7 )時,由於插 官(2 1 1 )可朝砂輪片(1 3 )進退移動,因此研磨時 水平研磨部(1 3 1 )可以研磨過銑刀(a )的中心,當 銑刀夾具(2 0 )利用抵靠凸部(2丄4 2 )配合抵靠Z (173)而插5又於中插座(17)時,由於插管(21 1 )會被頂靠外移,因此研磨時水平研磨部(丄3 1 )不 會研磨到銑刀(A )的中心,如第六圖所示,加上抵靠凸 部(2 1 4 2 )係間隔設置,因此可將銑刀(a )的四刃 研磨為兩刃過中心而兩刃不過中心的狀態,確立中心點的 存在以適合重切削。 當欲磨削铁刀(A )的後斜角時,請進_步衰看第三、 七圖,係將銑刀夾具(2 0 )的插管(2 1 1 )由後斜角 M325182 插孔(1 8 4 )插入,以各深槽(2 1 3 1 )以及淺槽(2 13 2)分別卡抵於後定位凸塊(18 5),並且表面(2 ^ 1 4 1 )以及抵靠凸部(2 1 4 2 )分別抵靠於後定位卡 ·· 制面(1851)以及凹槽(1852)。當插管(21 . 1 )分別旋轉9 0度依次插入後斜角插孔(1 8 4 )時, 可由砂輪片(1 3)的水平研磨部(1 3 1)對銑刀(a) 磨出四個後斜角。 本創作較佳實施例銑刀夾具(2 0 )的前筒夾座(2 1 ) _形態係用以磨削四刃的銑刀(A ),除此設置以外,請參 看第十圖,前筒夾座(2 1A)亦可以於肩部(2 1 3A) 等間隔形成三個深槽(2 1 3 1 A )以及三個淺槽(2 1 3 2A) ’於定位部(2 1 4A)周圍配合三個深槽(2 1 3 1 A )以及三個淺槽(2 1 3 2 A )的内側形成六個 表面(2 14 1A) ’於呈三角形排列表面的其中兩個表 .面(2 1 4 1 A )凸設所述抵靠凸部(2 1 4 2 A ),抵 靠凸部(2142A)的外端面距離插管(21 1A)中 籲心的長度較其餘表面(2141A)距離插管(2liA) 中心的長度長。 前述具有三個深槽(2 1 3 1 A )以及三個淺槽的前筒 夾座(2 1 A )係適用於三刃的銑刀,並且實施操作的方 式與前述四刃的相同,唯一不同處在於,三刃的銑刀由於 各刃之間所姑的角度為1 20度,因此於研磨後斜角時有研 磨不及的範圍,因此於研磨時可利用旋轉3〇度的後插座(工 8 ) 一同轉動,使銑刀於加工時旋轉30度的角度並擴大研 14 M325182 磨的範圍’藉此研磨出適合三刃銑刀的後斜角。 【圖式簡單說明] 第-圖係本創作較佳實施例之立體圖。 ^第二圖係本創作較佳實施例馬達部分之剖面圖。 第一圖係本創作車父佳實施例磨刀插座之立體分解圖。 第四圖係本創作較佳實施例磨削逃隙角之實施示意 圖。 第五、六圖係本創作較佳實施例磨削前隙角之實施示意 第七圖係本創作較佳實施例磨肖彳後斜角之實施示意 圖。When the surface (2 1 4 1 ) which is not provided with the abutting convex portion (2 1 4 2 ) is fitted to the intermediate socket (1 7 3 ) and inserted into the middle socket (1 7 ), due to the insertion (2 1 1 ) It can move forward and backward toward the grinding wheel (1 3 ), so the horizontal grinding part (1 3 1 ) can be ground through the center of the milling cutter (a) when grinding, when the milling cutter clamp (20) uses the abutting convex part (2丄) 4 2) When the 5 (173) is inserted into the middle socket (17), the cannula (21 1 ) will be moved outwards, so the horizontal grinding part (丄3 1 ) will not grind during grinding. To the center of the milling cutter (A), as shown in the sixth figure, and the abutment projections (2 1 4 2 ) are spaced apart, so that the four edges of the milling cutter (a) can be ground to a two-blade center. The two-edged but central state establishes the presence of a center point to accommodate heavy cutting. When you want to grind the back bevel of the iron knife (A), please enter the third and seventh pictures of the yaw step. Insert the cannula (2 1 1 ) of the milling cutter clamp (2 0 ) from the rear bevel M325182. The hole (1 8 4 ) is inserted, and the deep groove (2 1 3 1 ) and the shallow groove (2 13 2) are respectively engaged with the rear positioning protrusion (18 5), and the surface (2 ^ 1 4 1 ) is offset. The convex portions (2 1 4 2 ) respectively abut against the rear positioning card·face (1851) and the groove (1852). When the cannula (21.1) is rotated 90 degrees and inserted into the rear beveled jack (1 8 4 ), the milling cutter (a) can be ground by the horizontal grinding part (1 3 1) of the grinding wheel piece (13). Four rear bevels are shown. The front collet (2 1 ) of the milling cutter jig (20) is preferably used to grind a four-blade milling cutter (A). In addition to this setting, please refer to the tenth figure. The collet holder (2 1A) can also form three deep grooves (2 1 3 1 A ) and three shallow grooves (2 1 3 2A) at the shoulder (2 1 3A) at the positioning portion (2 1 4A). ) The inner side of the three deep grooves (2 1 3 1 A ) and the three shallow grooves (2 1 3 2 A ) form six surfaces (2 14 1A) 'in the two surfaces of the triangular arrangement surface. (2 1 4 1 A ) protruding the abutting convex portion (2 1 4 2 A ), the outer end surface of the abutting convex portion (2142A) is longer than the remaining surface of the cannula (21 1A) (2141A) ) The length from the center of the cannula (2liA) is long. The foregoing front collet (2 1 A) having three deep grooves (2 1 3 1 A ) and three shallow grooves is suitable for a three-blade milling cutter, and is operated in the same manner as the aforementioned four-blade, the only The difference is that the three-blade milling cutter has a range of less than 20 degrees due to the angle between the blades. Therefore, it can be used in the range of grinding after the grinding. 8) Rotate together to rotate the cutter at an angle of 30 degrees during machining and expand the range of the grinding machine 14 M325182 'by grinding the rear bevel for a three-blade milling cutter. BRIEF DESCRIPTION OF THE DRAWINGS A first embodiment is a perspective view of a preferred embodiment of the present invention. The second drawing is a cross-sectional view of the motor portion of the preferred embodiment of the present invention. The first figure is an exploded view of the sharpening socket of the present embodiment. The fourth figure is a schematic diagram of the implementation of the grinding escape angle of the preferred embodiment of the present invention. The fifth and sixth figures are schematic diagrams of the preferred embodiment of the present invention. The seventh figure is a schematic diagram of the implementation of the preferred embodiment of the present invention.
第八圖係本創作較佳實施例校刀座之分解圖。 第九圖係本創作較佳實施例前筒夾座之立體圖 第十圖係本創作前筒夾座其他態樣之俯視圖。 【主要元件符號說明 (1 0 )主機 (1 2 )馬達 (13)砂輪片 (132)尖角研磨部 (1 5 )罩蓋 (1 5 2 )中插孔 (1 6 )前插座 (1611)定位孔 (1 6 3 )逃隙角插孔 (1 1 )機身 (1 2 1 )傳動軸 (1 3 1 )水平研磨部 (1 4 )磨刀插座 (1 5 1 )前插孔 (1 5 3 )後插孔 (161)盤部 (1 6 2 )螺栓 (164)前定位凸塊 15 M325182 (1641)前定位卡制面 (1 (1 7 )中插座 (171) (172)中定位凸塊(173) (1 8 )後插座 (181) (1 8 2 )定位孔 (18 3) (1 8 4 )後斜角插孔(1 8 5 ) (1 8 5 1 )後定位卡制面 (1 (1 9 )軸承 (2 0 )銑 (2 1 )前筒夾座 (211) (212)螺鎖部 (213) (2 1 3 1 )深槽 (2132 (214)定位部 (2141 (2 1 4 2 )抵靠凸部(2 2 )後 (2 3 )筒夾 (A )銑刀 6 4 2 )凹槽 前隙角插孔 抵罪面 盤部 螺栓 後定位凸塊 8 5 2 )凹槽 刀夾具 插管 肩部 )淺槽 )表面 筒夾座The eighth figure is an exploded view of the tool holder of the preferred embodiment of the present invention. The ninth drawing is a perspective view of the front collet of the preferred embodiment of the present invention. The tenth drawing is a top view of other aspects of the front collet. [Main component symbol description (1 0) Main unit (1 2 ) Motor (13) Grinding wheel (132) Sharp angle grinding part (1 5 ) Cover (1 5 2 ) Jack (1 6 ) Front socket (1611) Positioning hole (1 6 3 ) escape angle jack (1 1 ) fuselage (1 2 1 ) drive shaft (1 3 1 ) horizontal grinding part (1 4) sharpening socket (1 5 1 ) front jack (1 5 3) Rear jack (161) Disc (1 6 2) Bolt (164) Front positioning projection 15 M325182 (1641) Positioning the front side of the card (1 (1 7) in the socket (171) (172) Bump (173) (1 8 ) Rear socket (181) (1 8 2 ) Positioning hole (18 3) (1 8 4 ) Rear beveled jack (1 8 5 ) (1 8 5 1 ) Rear positioning card Face (1 (1 9 ) bearing (2 0 ) milling (2 1 ) front collet (211) (212) screw lock (213) (2 1 3 1 ) deep groove (2132 (214) positioning part (2141 (2 1 4 2 )After the convex part (2 2 ) (2 3 ) Collet (A ) Milling cutter 6 4 2 ) Groove front clearance angle socket against the face plate bolt rear positioning cam 8 5 2 ) Groove knife clamp cannula shoulder) shallow groove) surface tube holder
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