M342228 八、新型說明: 【新型所屬之技術領域】 本創作係屬於加工刀具調校儀器之技術領域,尤指一 種刀具預調儀之快速拆裝技術,其能使刀具預調儀拆成易 於裝箱或運送的體積,使其能達到快速拆裝但又不會影響 到刀具預調儀之出廠時精密度。 【先前技術】M342228 VIII. New description: [New technical field] This creation belongs to the technical field of machining tool adjustment instrument, especially the quick disassembly and assembly technology of tool presetting instrument, which can make the tool presetting instrument easy to install. The volume of the box or transport allows it to be quickly disassembled without affecting the factory precision of the tool presetter. [Prior Art]
習用之刀具預調儀,其底座上裝有X軸向滑執及滑座 ’於X軸向滑執及滑座鎖固有一鎖設鈑,鎖設鈑上鎖固有 一立柱,而於立柱側面上設有一 z轴向滑執,當出廠前先 將上述元件組裝,但為了確保X軸向滑軌及Z轴向滑軌間 的垂直度,必須使用昂貴且精密之儀器調校,於調校過程 中,尚有誤差時則可於立柱至X軸向滑軌及滑座間縫隙做 必要的增減調整,纟調整可使用薄墊片墊設至特定位置, 調整完成後鎖固,即不能再拆解。The conventional tool presetter has an X-axis slide and a sliding seat on the base. The X-axis slide and the slide lock are inherently locked, and the lock is locked on the side of the column. There is a z-axis slide, which is assembled before leaving the factory, but in order to ensure the verticality between the X-axis slide and the Z-axis slide, expensive and precise instrument adjustment must be used in the adjustment process. In the case of error, the gap between the column and the X-axis slide rail and the sliding seat can be adjusted and adjusted as necessary. The adjustment can be made to a specific position by using a thin gasket. After the adjustment is completed, the lock can not be removed. solution.
惟,其上述習知之刀具預 、為使Z軸立柱部之z軸向滑軌與具主軸及父軸 底座部之X軸向滑執兩者係為確實的垂直,於出廠時 在組裝之縫隙做過—些增減之修正’且該增減之修 依特定位置所為之增減,不得再任意調整或移動, 拆裝’即使用極精密的儀器校正過後,Z軸立柱部之 :滑軌與具主軸及χ軸之底座部之χ軸向滑軌為確 :為確保出廠前已校正好的垂直精密度不被破壞,銷 适時,僅能以組裝及校正好的整台機台整個裝箱 M342228 整個機台運送,如此,佔用體積大, 成本亦高。 違輪相當不便,運輸 一、而若真要將習知之刀具 ,將會更動到調校時增減修正之相;義:開後運送或裝箱 密度已不準確,如此之不精確刀具置,再組回去時精 目的,而出廠後也無法再有精密將失去其存在的 相當時間與技術及儀器,都是習“=’調校又需花費 可能產生之問題。 刀八預調儀任意拆解所 是以,針對上述習知結構所存在之問題 一種更具理想實用性之創新結構,實、、肖鲁/如何開發 亦係相關業者須努力研發突破之目標及方向所啟切企盼, *4:於此,創作人本於多年從事相關:品之製造開發 :、口又计!驗,針對上述之目標, ^ 終得-確具實用性之本創作。 十與審慎評估後, 【新型内容】 欲解決之技術問題點··習知 缺點: 之刀具預調儀,具有以下 底座;之轴立柱部之z轴向滑軌與具主轴及父轴之 —— X軸向滑軌兩者係為確實的 縫隙已經做過修正, 力出廠時組裝 定位署新或^ 且5亥★日減之修正都是依特 疋位置所為之增減,不得再任意調整 ’即使用極精密的儀器校正過後 ’更不町拆裝 轨盥呈士k z軸立杈部之Z軸向滑 為確;出:之底座部之x轴向滑執為確切的"。 礙刖已校正好的垂直精密度不被破壞,銷售運送 M342228 • 時,僅能以組裝及校正好的整台機台整個梦铲二μ 正1U裝相,而後整個 ^ 機台運送,如此,佔用體積大,運輪i日告尤你 - 逯輸相畜不便,運輸成本 • 亦高。 二、而若真要將習知之刀具預調儀拆開後運送或裝箱 ’將會更動到調校時增減修正之相對位置,再組回去時精 密度已不準確,如此之不精確刀具預調儀將失去其存在2 目的,而出廠後也無法再有精密儀器調校,調校又需花費 相當時間與技術及儀器,都是習知刀具預調儀任意拆解所 可能產生之問題。 解決問題之技術特點:提供一種刀具預調儀之快速拆 裝結構,其中該刀具預調儀,包括:一具主軸及χ軸之底 座°卩’ 5亥具主轴及X轴之底座部包含有該底座上固定之一 X軸向滑軌、一組設於χ軸向滑軌之滑座,滑座上則固定 一 X軸滑鈑,該X軸滑鈑具精密頂面及設有結合部;一 ζ 軸立柱部,該Ζ軸立柱部包括一立柱設有一 ζ軸向滑軌, 鲁該立柱鎖固至一立柱基鈑,而該立柱基鈑再鎖固至Ζ軸塾 鈑’該ζ軸墊鈑具精密底面及固接部;該ζ軸立柱部以ζ -軸墊鈑精密底面組至具主軸及X軸之底座部之χ軸滑鈑精 密頂面,並經固接部及結合部之快速固定,成一刀具預調 儀而可校正χ軸向滑軌與Ζ軸向滑執之垂直度,需墊設薄 塾片時係於立柱至Ζ軸墊鈑間之位置墊設,據此,藉固接 部及結合部可快速拆裴,且拆離或裝回時,χ轴向滑轨與 Ζ軸向滑軌,皆不會影響出廠時之校準垂直度。 對照先前技術之功效:提供一種刀具預調儀之快速拆 7 M342228 裝結構,本創作與習知比較 一、本創作藉由拆開固 主軸及X軸之底座部分離, 高度方面的體積,而可使刀 裝箱或運送變得更加便利。 ’具有下列進步之功效: 接部’即可使z軸立柱部與具 將Z軸立柱部水平擺設,減少 具預調儀易於裝箱或運送,使However, the conventional tool pre-preparation is such that the z-axis slide rail of the Z-axis column portion and the X-axis slide rail with the main shaft and the parent shaft base portion are perpendicular to each other, and are assembled at the factory gap. Have done some corrections of increase and decrease' and the increase or decrease of the increase or decrease according to the specific position, can not be arbitrarily adjusted or moved, disassembly and assembly 'that is corrected with extremely precise instruments, Z-axis column: slide The axial slide rails with the base part with the main shaft and the boring shaft are: in order to ensure that the corrected vertical precision before leaving the factory is not damaged, the pin can be assembled and calibrated only for the entire machine. Packing M342228 is transported throughout the machine, so it is bulky and costly. It is quite inconvenient to violate the round. If you want to use the conventional tool, you will be able to change the correction phase when you adjust it. Meaning: The shipping or packing density is not accurate after opening, so the inaccurate tool is placed. When the group is back, it is fine, and after the factory, there is no longer the time and technology and equipment that will lose its existence. It is a matter of “=' adjustment and costing. The solution is to create an innovative structure that is more ideal and practical for the problems of the above-mentioned conventional structure. Reality, Xiaolu/how to develop is also the hope and direction of the relevant industry to strive to develop breakthroughs. 4: Here, the creator has been engaged in related production for many years: the manufacture and development of the product: the test of the mouth, and the test, for the above-mentioned objectives, ^ the ultimate - practical and practical creation. Ten and after careful evaluation, [new Contents] Technical problems to be solved · Conventional shortcomings: The tool presetter has the following base; the z-axis slide of the shaft column and the spindle and the parent axis - the X-axis slide Is the exact gap already If the correction is made, the force is assembled at the factory and the positioning department is new or ^ and the correction of the 5 hai ★ day reduction is the increase or decrease of the position of the 疋 疋 , , , , , , , , , ' ' ' ' ' ' ' ' ' ' ' ' ' ' 任意 任意 任意 任意 任意 任意The Z-axis slide of the k 盥 士 kz axis 杈 为 为 ; ; ; ; ; ; ; ; ; k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k k • When only the entire machine is assembled and calibrated, the whole shovel is 2μ positive 1U, and then the whole machine is transported. Therefore, the volume is large, and the ship i is especially good for you. Inconvenience, the transportation cost is also high. 2. If you really want to disassemble the conventional tool pre-adjuster and then transport or pack it, it will change the relative position of the correction when you adjust it, and then the precision will be set back. Inaccurate, such an inaccurate tool presetter will lose its existence 2, and there will be no more precision instrument adjustment after leaving the factory. It takes a considerable amount of time and technology and equipment to adjust. It is a conventional tool presetter. Any problems that may arise due to arbitrary disassembly. Technical features: Provide a quick disassembly and assembly structure of the tool presetter, wherein the tool presetter includes: a base with a spindle and a shaft. The base of the spindle and the base of the X-axis include the base. Fixing one X-axis slide rail, one set of slides arranged on the axial slide rails, and an X-axis slide joint fixed on the slide seat, the X-axis slide joint has a precision top surface and a joint portion; The shaft column portion includes a column with an axial sliding rail, and the column is locked to a column base, and the column base is locked to the shaft axis. The utility model has a precision bottom surface and a fixing portion; the ζ-axis column portion is provided with a 底面-axis pad 钣 precision bottom surface group to the 顶 shaft sliding precision top surface of the base portion with the main shaft and the X-axis, and is fastened through the fixing portion and the joint portion Fixed, into a tool presetter to correct the verticality of the 滑 axial slide and the Ζ axial slide. When the thin 塾 is required, it is placed between the column and the 钣 钣 pad, according to which, The fixing part and the joint part can be quickly disassembled, and when the detaching or reinstalling, the χ axial slide rail and the Ζ axial slide rail do not affect the factory. Quasi verticality. Compared with the effect of the prior art: providing a quick release of the tool presetter 7 M342228 mounting structure, this creation is compared with the conventional one. This creation separates the solid shaft and the base portion of the X-axis by the height, and the volume is high. It makes it easier to box or transport the knife. ‘The following advancements are made: the joints allow the z-axis column to be placed horizontally with the Z-axis column to reduce the ease of packing or transporting the presetter
、二、本創作藉由X軸滑鈑創新的設計,得使刀具預調 儀可分為二大主體,並可快速鎖固成為一整體,再調校完 成後,拆或裝該二大主體都不會影響整體精準度。 有關本創作所採用之技術、手段及其功效,茲舉一較 佳實施例並配合圖式詳細說明於后,相信本創作上述之目 的、構造及特徵,當可由之得一深入而具體的瞭解。 【實施方式】 參閱第一及第三圖所示,係為一刀具預調儀之基本構 成’ 4刀具預调儀主要之構成包含有一具主軸及X轴之底 座部(2 )及一 Ζ軸立柱部(3 ),其中該具主軸及χ軸 •之底座部(2 )設有X軸向滑軌(2 1 ),而ζ軸立柱部 (3 )則設有Ζ軸向滑軌(3 〇 χ ) ,χ軸向滑執(2工 、)與Ζ軸向滑執(3 〇 1 )需保持精確的直角關係,所以 出廠前一定會經過精密儀器確實校正過,而該校正過程也 有可能使用了一些薄墊片墊設於不平處,薄墊片厚度及墊 設的深度、位置也會影響到X軸向滑軌(2 1 )與Ζ軸向 滑轨(3 0 1 )的直角關係,在完全校正並鎖固定位在最 精密準確狀況後,一般都是不能再去拆裝該Ζ軸立柱部( 3 ),否則送至銷售點裝回去後將沒有精密儀器重新校正 M342228 . 鎖固,其精度失準將影響刀具預調儀的功用;但是不拆解 ^ ,其具主軸及X軸之底座部(2 )在X、Y軸佔具相當大 , 的面積,而Z軸立柱部(3 )又佔具Z軸向相當高的高度 ,總的佔用體積將相當不利於刀具預調儀的裝箱運輸作業 〇 參閱第一至四圖所示,本創作係提供一種刀具預調儀 ’之快速拆裝結構,該刀具預調儀(1 )主要包含有: 一具主軸及X軸之底座部(2 ),該具主軸及X軸之 胃底座部(2)包含有該底座(20)上固定之一X軸向滑 執(2 1 )、一組設於X軸向滑軌(2 1 )上之滑座(2 2 ),滑座(2 2 )上則固定一 X軸滑鈑(2 3 );該X 軸滑鈑(2 3 )具精密頂面(2 3 1 )及結合部(2 3 2 ); 一 Z軸立柱部(3 ),該Z軸立柱部(3 )包括一立 柱(3 0 )設有一 Z軸向滑執(3 0 1 ),該立柱(3 0 φ )鎖固至一立柱基鈑(31),而該立柱基鈑(31)再 鎖固至Z軸墊鈑(32) ;該Z軸墊鈑(32)具精密底 •面(3 2 1 )及固接部(3 2 2 ); 上述Z軸立柱部(3 )乃以Z軸墊鈑(3 2 )之精密 底面(3 2 1 )貼靠至具主軸及X軸之底座部(2)其X 軸滑鈑(2 3 )之精密頂面(2 3 1 ),並以固接部(3 2 2 )預鎖固至結合部(2 3 2 ),使成一刀具預調儀( 1 ),其後將該刀具預調儀(1 )以精密儀器調校X軸向 滑軌(21)與Z軸向滑執(301)之垂直度,如有垂 9 M342228 直度不正確情形,並在Z軸立枉部(3 )之立柱(3 〇 ) 至Z軸塾鈑(3 2 )間縫隙,使用薄墊片(3 3 )墊設調 整’直到垂直度精確並鎖固定位。 $上述固接部(3 2 2 )及結合部(2 3 2 )得藉由螺 絲(3 2 2 1 )鎖固(參閱第四圖所示)。 =本創作之創作人乃設計出一全新之刀具預調儀 使,、出廠前仍可經過精密儀 立柱至Z軸勢柘„益^ 艾在Z軸立柱部之 墊片進行置仍能以特定區域增減或使用薄 其係可藉由ζ:立:部之確狀態並鎖固定位後, 部之X軸滑鈑間拆開,而後 2具主轴及χ轴之底座 X轴之底座部,如此農箱運輪可2軸立柱部與具主軸及 售點將Ζ轴立虹加 」Μ相當節省空間,到達銷 釉立柱部之ζ軸墊鈑 座部之X軸滑鈑鎖固德,ν 、連對齊具主軸及X軸之底 到可拆裝又不影變 >、原先出廠的垂直度’達 p a到原廠精密儀 參閱第四及五调校之精度值者。 ,只要該刀具預調儀(丄)/、後,如有要裝箱運輸的情形 固接部(3 ? 1 (如第一圖所示)以預鎖設之 W 2 )拆離結合 (3 )整組即可從7 卩2 3 2 ),該Z軸立柱部 . &軸立柱部f 〇、 與具主軸及X軸 3)之Z轴墊鈑(32) Λ釉之底座部(2 ) 合處拆離開來, 之X軸滑鈑(2 3 )之鎖 阳矢成Ζ軸立虹# 之底座部°卩(3)與具主轴及X轴 間較小的裝箱出貨。 就可以相當容易的且佔用空 達銷售地時,拆箱後 文將具主軸及X軸之底座部 10 以2 M342228 (2 )放至預定位置’其後將冗軸立 鈑(32)精密底面(321)貼靠該具主心 座部(2 ) X軸滑鈑(2 3 )之精密 11 利用固接部(q 9 9、也、击 ^ 3 1 ) 〔3 2 2 )快速鎖固結合部( 得以立即回錄山危a蓋 ^ ), 设出廠則儀器校正之精確度, 影響到原廠精宓儀5!詷栌夕i 彳可拆絮 ^ 谓也儀益凋杈之精度值之功效者。 前文係針對本創作之較佳實施例為 進行具體之說明;惟,孰染 之技術 ......此項技術之人士當可在不 t創作之精神與原則下對本創作進行變更與修改,而 ’*、更/、4改,皆應涵蓋於如下申請專利範圍所界定之 中。 【圖式簡單說明】 第一圖·係本創作之刀具預調儀機台平面圖。 第二圖:係本創作之其一實施例正視圖。 第一圖·係本創作之其一實施.例側視圖。 第四圖:係本創作之其一實施例立體分解圖。 第五圖·係本創作之其一實施例立體組合圖。 【主要元件符號說明】 (1 )刀具預調儀 (2)具主軸及X軸之底座部 (2 0 )底座 (2 1 ) X軸向滑軌 (2 2 )滑座 (2 3 ) X軸滑飯 車由塾 之底 ,再 如此 又不 特徵 脫離 該等 範疇 11 M342228 (2 3 1 )精密頂面 (2 3 2 )結合部· (3 ) Z軸立柱部 (3 0 )立柱 (3 0 1 ) Z軸向滑軌 (31)立柱基鈑 (3 2 ) Z軸墊鈑 "(3 2 1 )精密底面 (3 2 2 )固接部 (3 2 2 1 )螺絲 (3 3 )薄墊片Second, the original design of the X-axis slider can make the tool presetter can be divided into two main bodies, and can be quickly locked into a whole. After the adjustment is completed, the two main bodies are disassembled or installed. Will not affect the overall accuracy. With regard to the techniques, means and functions of the present invention, a preferred embodiment is described in detail with reference to the drawings, and it is believed that the above objects, structures and features of the present invention can be obtained from an in-depth and specific understanding. . [Embodiment] Referring to the first and third figures, it is the basic structure of a tool presetter. 4 The main component of the tool presetter includes a base part (2) and a shaft of the spindle and the X-axis. a column portion (3), wherein the base portion (2) having the main shaft and the cymbal shaft is provided with an X-axis slide rail (2 1 ), and the ζ-axis column portion (3) is provided with a Ζ-axis slide rail (3) 〇χ ) , χ axial sliding (2 work,) and Ζ axial sliding (3 〇 1 ) need to maintain a precise right angle relationship, so it must be corrected by precision instruments before leaving the factory, and the correction process is also possible Some shimming pads are used in the unevenness. The thickness and position of the shims and the position of the shims also affect the right angle relationship between the X-axis slide rails (2 1 ) and the Ζ axial slide rails (3 0 1 ). After fully correcting and locking the fixed position in the most precise and accurate condition, it is generally impossible to disassemble the shaft column (3). Otherwise, there will be no precision instrument to recalibrate M342228 after being sent back to the point of sale. The accuracy of the misalignment will affect the function of the tool presetter; but it does not disassemble ^, it has a spindle and X-axis base The part (2) occupies a considerable area in the X and Y axes, and the Z-axis column part (3) occupies a relatively high height in the Z-axis. The total occupied volume will be quite unfavorable for the tool presetter. Box transport operation 〇Refer to Figures 1 to 4, this creation provides a quick disassembly structure for the tool presetter. The tool presetter (1) mainly includes: a base with a spindle and an X-axis (2) The stomach base portion (2) having the main shaft and the X-axis includes one X-axis slide (2 1 ) fixed on the base (20) and one set on the X-axis slide rail (2 1 ) on the slide (2 2 ), the slide (2 2 ) is fixed with an X-axis slide (2 3 ); the X-axis slide (2 3 ) has a precision top surface (2 3 1 ) and a joint (2 3 2 ); a Z-axis column portion (3), the Z-axis column portion (3) comprising a column (30) provided with a Z-axis slide (3 0 1 ), the column (3 0 φ) Locked to a column base (31), and the column base (31) is then locked to the Z-axis pad (32); the Z-axis pad (32) has a precision bottom surface (3 2 1 ) and a fixing portion (3 2 2 ); the Z-axis column portion (3) is a precision bottom surface of the Z-axis pad (3 2 ) (3 2 1 ) abut against the precision top surface (2 3 1 ) of the X-axis slide (2 3 ) with the spindle and X-axis base (2), and pre-lock with the fixing part (3 2 2 ) Fix to the joint (2 3 2 ) to form a tool presetter ( 1 ), and then adjust the tool presetter (1) with a precision instrument to adjust the X-axis slide (21) and Z-axis slide (301) The verticality, if there is a vertical 9 M342228 straightness is not correct, and in the Z-axis vertical part (3) between the column (3 〇) to the Z-axis 塾钣 (3 2) gap, use a shim (3 3) Pad adjustment 'until the verticality is accurate and the fixed position is locked. The above-mentioned fixing portion (3 2 2 ) and the joint portion (2 3 2 ) are locked by a screw (3 2 2 1 ) (refer to the fourth figure). = The creator of this creation has designed a new tool presetter that can still be passed through the precision instrument column to the Z-axis before leaving the factory. The increase or decrease of the area or the use of the thin layer can be achieved by the ζ: stand: the state is correct and the fixed position is locked, the X-axis sliding part of the part is disassembled, and then the base part of the X-axis of the base and the base of the x-axis is Such a container transport wheel can be equipped with a two-axis column and a spindle and a point of sale. The shaft can be placed in a space-saving manner, and the X-axis slide lock of the yoke pad seat of the pin glazed column is reached, ν , Even the alignment of the spindle and the bottom of the X-axis to the removable and non-shadowing >, the original factory verticality 'to pa to the original precision instrument, refer to the fourth and fifth adjustment accuracy values. As long as the tool presetter (丄)/, after the case of packing, the fixing part (3? 1 (as shown in the first figure) is pre-locked W 2 ) detached and combined (3 The whole group can be from 7 卩 2 3 2 ), the Z-axis column part. & shaft column part f 与, and the Z-axis pad (32) with the main axis and the X axis 3) Λ glaze base part (2 The joint is removed, and the X-axis sliding cymbal (2 3 ) locks the yoke into the base of the yoke vertical rainbow #° 卩 (3) and has a smaller packing and shipping between the main shaft and the X-axis. When it is quite easy to take up the empty sales place, after unpacking, the base part 10 with the main shaft and the X-axis will be placed at the predetermined position with 2 M342228 (2)' followed by the redundant shaft (32) precision bottom surface. (321) Abut against the precision of the X-axis slide (2 3 ) with the main seat (2). Use the fixing part (q 9 9 , also, ^ 3 1 ) [3 2 2 ) to quickly lock and bond. Ministry (can immediately record the mountain danger a cover ^), set the factory to adjust the accuracy of the instrument, affecting the original fine instrument 5! 詷栌 i i 彳 detachable flos ^ said that the accuracy of the instrument Efficacy. The foregoing texts are specific to the preferred embodiment of the present invention; however, the technology of the dyeing technology... the person of the technology can make changes and modifications to the creation under the spirit and principle of not creating the creation. , and '*, more /, 4 changes, should be covered by the scope of the following patent application. [Simple description of the drawing] The first picture is the plan view of the tool presetter machine. Second Figure: A front view of an embodiment of the present invention. The first picture is one of the implementations of this creation. The fourth figure is an exploded perspective view of an embodiment of the present creation. Fig. 5 is a perspective assembled view of an embodiment of the present invention. [Description of main component symbols] (1) Tool presetter (2) Base part of spindle and X-axis (2 0) Base (2 1 ) X-axis slide (2 2 ) Slide (2 3 ) X-axis The shovel is made up of the bottom of the raft, and then it does not feature the detachment of these categories. 11 M342228 (2 3 1 ) Precision top surface (2 3 2 ) joints · (3) Z-axis column sections (3 0 ) Columns (3 0 1) Z-axis slide rail (31) column base 钣 (3 2 ) Z-axis pad 钣 " (3 2 1 ) precision bottom surface (3 2 2 ) fixing part (3 2 2 1 ) screw (3 3 ) thin Gasket
1212