201242693 六、發明說明: 【發明所屬之技術領域】 本發明係與銑工機械有關,特別是關於提供侧銑刀使用之 側刀座。 【先前技術】 習式的侧銑刀座,主要是包含一個用以裝設於一工作母機 上的座體、一組設於該座體上之傳動系統、以及一支設於該座 體上且與該傳㈣統呈動力傳輸連接之刀桿。其巾,該傳動系 統包含有至少-輸人軸’扣連接缸作母機之輸出動力並 將該輸㈣力傳輸至該刀桿。該刀_峨裝設—織刀,並 將動力傳輸至細銑刀,輯—卫件進行切削。 上述側銑刀座的刀桿與該輸入軸之間的角度是固定的,所 、、此夠以固^的肢對I件進行糊讀,而無法滿足它種 加工之需求,例如滾齒加工等。 ^ ,要將侧銑刀裝設於一側銑刀座的刀桿之前,必 、-桿自座體上取下。而習式側銑刀座的傳動系統包含有 輸出轴’且輪出_軸地具有_四方職接槽。這種習式側 7刀座的轉—端具有—魅四胁狀的插接部,用以插置於 述述,接射,枝成刀桿與傳綠⑽觸上的連接。上 料1 ’是穿過—111定設置在麵上的-個軸承。另 ★ 螺才于穿過刀杯路於外部的端面及一個轴向地貫穿 干内部的穿孔,而自刀桿位於插接槽中的端面穿出,並鎖固 201242693 於-個位於_槽_螺孔中,將刀桿固定於傳動系統。 由於上述習式織刀座上用以承載刀桿的軸枝固定在 座體上,所崎下刀桿的方式,是將長鄉自刀桿上鬆解取 下,再將刀桿自插接槽及軸承中抽取出。這樣的方式產生下列 缺點: -、刀桿絲承分離或結合的過程中,軸承容易受到刀 桿的碰撞而毀損’導致對工件加工的過程中,因刀 桿轉動不順暢而造成誤差。 二、 刀桿上所沾染之切削_等雜f,容易被帶入刀桿 與軸承之間;同時,為了方便刀桿抽取刀桿,轴承 /又辦法具有良好的密封’也導致蝴鐵屑等雜質容 易進入軸承的滾珠轉成元財,絲承在轉動的 過程中產生磨損。 三、 由於自軸承幅出轉之需要,刀桿整體的最大外 控必須受限_承之内徑,如此使得刀桿沒辦法有 供較大尺寸的侧銑刀裝設。 【發明内容】 有’孤於此本表明之主要目的在於提供一種複合功能側銑 刀座’係—種其輸人_刀桿_纽可供婦,以適用於如 它種加工法如滾齒加工者。 本發月之$目的在於提供—種複合功能側銑刀座,係一 201242693 種其刀桿朗財載刀桿之軸承為—·她t,而可從其座 體上-體地被_該座體,崎低軸承受損的機會者。 為達成本發明前述的主要目的,本發明所提供的複合功能 侧銑刀座,主要包含有-座體、—鎖定裝置、—聯及一傳動 系統。其中,該座體包含有-主座體及一副座體,且該副座體 設於該主賴上,可於社座體上依-固定之轉财心轉動 者,該鎖定裝置用以鎖定該副麵於該主體上,而使該副座體 無法於該域體上_ ;該刀桿設於關座體上,肋供裝設 -側銑刀;該傳動系統至少包含有一輸入軸和輸出轴,該輸入 軸樞設於社麵上,具有—㈣連接—工作賴之動力輸出 端的連接端;該輸出軸樞設於該副座體上,且與該刀桿呈 傳輸之連接。 -藉此於該主座體上轉動該副座體,並以該鎖定裝置,固 定該副座體與触座Μ之抽,可鶴人_該刀桿之 角度,使該複合功能側銑刀座除了可適用於傳统的銑工之外, 也了適用於其它加工法如滾齒加工等。 人▲脅r違成本發明上述之另一目的,本發明所提供的— ^功能側銑刀座’主要包含有—座體、傳動系統及一刀衝 組。其中’該傳動系統設於該座體上,且至少包含有一輪入4 和輪出軸。該輸入軸樞設於該座體上,具有一用以連接一工^ 母機之動力輸出端的連接端;該輸出她設於該賴上。該 桿模組包含有-軸承件及—刀桿。其中,該刀桿穿設於該如 201242693 件中,該轴承件以可拆卸的方式設於該座體上,使該刀桿盥該 傳動糸統之輸出軸呈可脫離的動力傳輸連接。 - 藉此’對麵合功賴銑刀舰行觀刀之機作業時, 該刀杯模組可以整組地,包含該軸承件及該刀桿,從該座體上 ,拆卸下I減’便可避免雜承件受到該刀桿的碰撞而毀 知’也可減低鐵料雜帶人該刀桿與該轴承件之間的機 會。另外,由於沒有從該軸承件中抽出刀桿之需要,所以該刀 桿的最大賴不會被受隨姉之陳而可供較大尺寸 的側銑刀裝設。 【實施方式】 為能更清楚地說明本發明,兹舉較佳實施例並配合圖示詳 細說明如後。 請參關1〜目7 ’本發明一較佳實施例之複合功能側銑 刀座1,包含有: 一座體ίο’該座體ίο包含有一主座體丨丨和一副座體12。 其中,該主座體11外表具有一接合面m,内部具有六個沿圓 形軌跡平行排列的長穿孔112,且該等長穿孔112分別在該接 合面111和位於該接合面1Π相對側的壁面上形成開口。 該副座體12包含有一基盤121、一盤蓋122、一第一刀桿 座123以及一第二刀桿座124。該基盤121之外表具有一接合 201242693 面121卜内部具有一圓環狀的容置槽1212,且該容置槽1212 在該接合面1211上形成一呈圓環狀而寬度小於槽寬的槽口 1213。該基盤121更具有—連通該容置槽1212與該基盤121 之-侧壁的置人孔1214,該置人孔1214在該趣上形成了一 置入口。該盤蓋122具有相同於該基盤121的外周輪廓,且藉 由複數支螺_合職絲121上位於該接合面1211相對侧 之一面上。該盤蓋122具有一齒輪容置室1221,該容置室ΐ22ι 於該盤蓋122朝向於該基盤121之一面上形成一置入口。 該第一刀桿座丨23及該第二刀桿座124分別藉由複數支螺 栓鎖設於該盤蓋122之上’彼此間相間隔—適當的間隔,此一 間隔足夠容納一般的側銑刀或滚齒刀。該第一刀桿座123具有 -第-刀桿穿孔1231,該穿孔1231在該第一刀桿座123之朝 向該第二刀桿座124的外壁上形成一開口。該第二刀桿座以 具有一第二刀桿穿孔1241,該第二刀桿穿孔1241具有相同於 該第一刀桿穿孔1231之中心,且該第二刀桿穿孔1241貫穿該 第二刀桿座124的兩個位於相對側的壁面。 一鎖定裝置20,包含有六個迫緊塊21、二個間隔塊22及 /、支調整螺栓23。該等迫緊塊21及該制隔塊22各為,彎娘 形塊狀體’從該基盤121的置入孔1214依序地被放置入該基 盤121的容置槽1212中’並於該容置槽1212中形成一圓環狀 的排列。該等迫緊塊21各具有一螺孔211,且該等螺栓23分 別穿過該主座體10上的長穿孔112、該基盤121的容置槽口 7 201242693 1213而分別結合於該等迫緊塊21的螺孔211中,藉由鎖緊該 等調整螺栓23,可使得該等迫緊塊21壓迫該容置槽1212的 槽壁’並迫使該基盤121的接合面1211緊緊壓貼於該主座體 11的接合面111上,達成該副座體12與該主座體u之結合。 當旋鬆該等調整螺栓23,使該等迫緊塊21鬆離該容置槽1212 之槽壁’便可使該基盤121的接合面1211鬆離該主座體u之 接合面ill;此時,轉動該副座體12,使該副座體12沿著該 等迫緊塊21及該等間隔塊22所排列形成之圓_道轉動,便 可調整該副座體12與該主座體U間之炎角;藉由再度旋緊該 等調整螺栓23,便可©定該副座體12與社座體u間的角 度。 該基盤121之接合面1211與該主座體u之接合面iu間 設有- Ο型環13 ’-方面用以防止塵土雜質進人該基盤⑵ 與該主座體11間,另-方面在鎖緊該等調整螺栓23時,可增 加該基盤121與該主座體11間之摩擦力。 一傳動系統,包含有一輸入軸31、一第一中介軸&、一 第二中介軸33、一輸出軸34、複數_以改變傳動方向的傘 形齒輪35、以及-第-圓盤齒輪36和—第二圓盤齒輪η。其 中,該輸入軸31和該第-中介轴32設於該主座體^内,I 藉由兩個分顺之結合之挪齒輪35之喃合,戦一個呈直 角的動力傳輸連結。該輸入軸34之一端伸出該主座體η外, 且該端結合卜細以與工作母_動力輸_辆的連結· 8 201242693 座39。該第一中介軸32之一端穿出該主座體n,並穿入該副 座體12的齒輪容置室1221中。 該第二中介軸33設於該副座體12内,其兩端分別位於該 齒輪容置室1221和該第一刀桿座123中。 該第一圓盤齒輪36和該第二圓盤齒輪37位於該齒輪容置 至1221内,分別結合該第一中介軸32上和該第二中介軸33 上,而且相互嚙合。藉此,當調整該主、副座體u、12間的 夾角時’該第二圓盤齒輪37會繞著該第一圓盤齒輪36移動, 並持續地嚙合於該第一圓盤齒輪36上。 該輸出軸34設於該第一刀桿座123内,藉由一個連結於 該輸出軸34上的傘形齒輪35、和一個連結於該第二中介軸% 上之傘形齒輪35的相互嚙合,與該第二中介軸33間形成一個 呈直角的動力傳輸連結。該輸出轴34之一端伸出該第一刀桿 穿孔1231外,且該端處具有一結合孔341 ;該結合孔具有相 連通的一第一孔段3411及一第二孔段3412,該第一孔段3411 為一方形孔,該帛二孔段3412為-®形孔,且該第二孔段3412 於該知之^&面上形成一開口;另外,該端處之周側壁面上具有 一段外螺紋3413。 一刀桿模組40,主要包含有一刀桿41、一軸承件(beadng member)、以及一防塵蓋44 ;其中,該軸承件由一軸承座42 及一固設於該軸承座42上之軸承43所組成。 該轴承座42為一圓筒體,它具有一第一筒421段和一第 201242693 -筒段422 ;該第-筒段的内、外徑都小於該第二筒段422的 内外徑,且該第一筒段421的内壁上具有一凸垣4213。另外, 該第二筒段422具有複數個沿其圓徑等距地排列的小穿孔 424。 該刀桿41之-端至另一端分別具有一方柱形結合部 411、圓柱形結合部412、一圓柱形置刀部413、一第一凸垣 414、一第二凸垣415以及一圓柱形穿入部416。其中,該置 刀部413的外徑大於該圓形結合部412和該穿入部416之外 徑;該第一凸垣414的外徑大於該第二凸垣415的外徑,且該 第二凸垣415之外徑大於該置刀部416之外徑。另外,該刀桿 41具有一貫穿其兩端的貫穿孔417。 該軸承43被裝設該刀桿41的穿入部416上,且被裝設於 該軸承座42 W第-筒段421内,其一側緣抵接於該第一筒段 421内的凸垣423上。藉此,該刀桿41透過該軸承43與該軸 承座42結合。 雖然該軸承件在本實施例中是該軸承座42和轴承所組 成,但在精簡構件數量的考量下’該軸承件也可以只是一個自 潤轴承、軸套或其它一般軸承。 該防塵蓋44為一圓環狀蓋體,套設於該刀桿41的穿入部 416上而鄰接該軸承43 ’且位於該軸承座42的第二筒段似 内。Ρ方塵蓋44的周側壁面上具有相對應該第二筒段422之穿 孔424而設之穿孔441 ’藉由相同數量的銷同時穿置於每一組 201242693 相對應的第二筒段422上 加 Μ孔424和防塵蓋44上的穿农 构’以固定該防塵蓋44於該 ^孔 λα ^ 』卡又422笮的位置,並防止 該防塵蓋44於該第二筒段422内轉動。 該防塵蓋44外壁與該第二筒請内壁間設有一 衣,該防塵蓋44内壁與該刀桿41之穿入部416間設 W油封46’而且該刀桿41之第二凸垣415與該 峨壁間設有一 V型油封47。藉由這些密封構件之設置, 可以強化該轉顯4G之防果,可減低加獨屑或雜質 塵土進入姉承座42 _害雜承43的機會。 將該刀桿触40裝設贿鋪ω上時,先將該刀桿41 之方柱形結合部川的一端依序穿過該第二刀桿穿孔蘭, 並穿入該輸出轴34的結合孔341中,使該方柱形結合部w、 該圓柱形結合部412分別位於該第一孔段則和該第二孔段 中3412,同時’該軸承座42被容置於該第二刀桿穿孔1241 中,其第-筒段421與第二筒段422交接處的外部端面抵頂於 該第二刀桿穿孔1241内的一個止播面上。以一長螺栓48自該 刀桿41的外部端穿經該刀桿41之貫穿孔417,並結合於一設 在該輸出軸34内與該結合孔341連通的螺孔342上,再以一 支或一支以上的短螺栓49鎖設於該第二刀桿座124的第二刀 才于穿孔1241周緣處,而使該等螺栓49的頭部同時壓抵該軸承 座42及該防塵蓋44的外部端面。如此,便可將整個刀桿模組 40牢固地裝設於該座體1〇上。 201242693 自該座體10上拆卸該刀桿模組40時,依序將該等短螺检 49及該長螺栓48拆卸下來,就可以將整個刀桿模組4〇自該 第二刀桿穿孔1241抽出,離開該座體。 另外,該傳動系統更包含有一調節環38,它包含有一環體 381及一螺栓382,且該環體381具有一斷開的間隙383。該 螺栓382穿過該環體381上位於該間隙383 一側的一穿孔,穿 過該間隙383,並結合於該環體381上位於該間隙撕另一侧 的螺孔中;藉由調整該螺栓382,可控制該間隙383的寬度, 亦即,可調整個環體381的内徑。另外,該環體381的内壁上 設有-螺紋段384。該調節環38螺紋段384結合於該輸出轴 34外部端處的螺紋段3412上’鬆解該螺栓383時,可轉動該 調節環38以調整該調節環%在該輸出軸%上的位置;鎖緊 該螺栓382時,則可固定該該調節環38在該輸出轴上的位置。 藉由賴節環38的設置並配合使用墊片的使用,可以調整侧 銑刀裝設於該刀桿41上之位置。 以下’將說明該複合功能侧銑刀座!如何達成前揭之發明 目的及其功能。 第-’請參閱圖5、圖6和圖8,由於該主座體u和副座 體12間之炎角是可被調整的,亦即,旋鬆該等調整螺检^, 使該等迫緊塊21鬆離該容· 1212之槽壁,便可使該 121的接合面1211鬆離該主座體u 動該副座體12 ’使該副座體12 之接合面111 ;此時,轉 沿著該等迫緊塊21及該等間& 12 201242693 隔塊22所排列形成之圓環軌道轉動,便可調整該副座體12與 該主座體11間之失角。又,藉由鎖緊該等調整螺栓23,可使 得該等迫魏21觀财錢m2 _壁,競使該基盤 121的接合面1211緊緊壓貼於該主座體11的接合面111上, 達成該韻體12無主座體11之航結合,以岐該副座體 12與該主座體η間的角度。 由於該傳動系統之輸入軸31裝設於該主座體η上,而該 刀桿模組40之轉41裝設於該副座體12上,@此,該主座 體11與該副座體12間之夾角可被調整改變,便形同該輸入轴 3/與該刀桿41間的夾角可被調整改變。如此—來,該複合功 :侧銑刀座1不僅可翻於—般賴銑加卫,還可以適用於其 匕種加工例如’在刀桿W上換裝滾齒刀,並適當地調整刀 桿41與輸人軸31之夾角後,進行《加工。 弟二1參閱圖6及圖9,該複合功能侧銑刀座1採用刀 桿模組4卜魏設與拆卸之料,亦即,將該刀桿41、該相 承43該軸承座42以及該防塵蓋44、該㈣環45與該等γ 5•油封46 47構件預先組裝形成一模組,並以整個模組褒設 至該副座體12、或自該副座體12上拆卸下來。 栎離如:之…十使件該刀桿41與該軸承43不須反覆結合或201242693 VI. Description of the Invention: TECHNICAL FIELD OF THE INVENTION The present invention relates to milling machines, and more particularly to side blades for use in providing side milling cutters. [Prior Art] The side milling cutter seat of the conventional method mainly comprises a seat body mounted on a working machine, a set of transmission systems disposed on the seat body, and a set on the seat body. And the arbor that is connected to the transmission (four) is a power transmission connection. In the towel, the transmission system includes at least an input shaft of the input shaft as the output power of the mother machine and transmits the transmission force to the tool holder. The knife is equipped with a weaving knife and transmits power to the fine milling cutter. The angle between the shank of the side milling cutter seat and the input shaft is fixed, so that the workpiece can be pasted with the solid body, and the processing cannot be satisfied, such as hobbing processing. Wait. ^, before the side milling cutter is installed on the cutter bar of one side milling cutter seat, the rod must be removed from the seat. The transmission system of the conventional side milling cutter holder includes an output shaft 'and has a _ square bracket groove. The rotary end of the 7-tool seat of this type of work has a plug-in portion of the charm-like shape, which is inserted into the description, and the connection is made, and the branch is connected with the green (10). Feed 1 ' is a bearing that is placed on the surface through -111. In addition, the screw passes through the outer end surface of the cutter cup and a through hole that penetrates the inner portion axially, and the end face of the cutter bar is located in the insertion groove, and is locked and locked in 201242693. In the screw hole, the shank is fixed to the transmission system. Since the shaft branch for carrying the arbor on the above-mentioned woven knife holder is fixed on the seat body, the way of slashing the arbor is to loosen the shank from the shank and then insert the arbor from the spigot. And extracted from the bearing. Such a method has the following disadvantages: - During the process of separating or joining the cutter bar, the bearing is easily damaged by the impact of the cutter bar, which causes an error in the process of machining the workpiece due to the smooth rotation of the cutter bar. Second, the cutting _ and other miscellaneous f on the arbor are easy to be brought between the arbor and the bearing; at the same time, in order to facilitate the extraction of the arbor from the arbor, the bearing / method has a good seal 'also causes the iron filings, etc. Impurities easily enter the bearing's balls and turn into yuan, and the wire bearing wears during the rotation. Third, due to the need of the bearing from the bearing, the maximum external control of the overall tool bar must be limited to the inner diameter of the bearing, so that the tool bar can not be equipped with a larger size side milling cutter. [Summary of the Invention] The main purpose of the invention is to provide a composite function side milling cutter holder, which is suitable for use in such processing methods as hobbing. Processor. The purpose of this month's month is to provide a kind of composite function side milling cutter holder, which is a 201242693 type of cutter. The bearing of the cutter rod is - she is t, but can be from the seat body - body to be _ Seat, the opportunity of the low bearing damage. In order to achieve the foregoing main object of the present invention, the composite function side milling cutter seat provided by the present invention mainly comprises a seat body, a locking device, a coupling and a transmission system. Wherein, the base body comprises a main body and a sub-body, and the sub-seat body is disposed on the main body, and can be rotated on the seat body according to the fixed body, and the locking device is used for Locking the sub-surface on the main body, so that the sub-seat is not attached to the domain body; the arbor is disposed on the closing body, and the rib is provided with a side milling cutter; the transmission system includes at least one input shaft And an output shaft pivoted on the social surface, having a connection connection of the power output end of the (four) connection-operating; the output shaft is pivotally disposed on the auxiliary base body and is connected to the tool holder for transmission. - thereby rotating the sub-seat body on the main seat body, and fixing the sub-seat body and the contact seat shackle by the locking device, and the composite function side milling cutter is provided at an angle of the arbor In addition to being suitable for conventional milling, the seat is also suitable for other machining methods such as hobbing. According to another object of the invention, the functional side milling cutter holder ** mainly comprises a seat body, a transmission system and a knife punching group. Wherein the transmission system is disposed on the base body and includes at least one wheel 4 and a wheel shaft. The input shaft is pivotally mounted on the base body and has a connecting end for connecting a power output end of the working machine; the output is disposed on the base. The rod module includes a bearing member and a cutter bar. Wherein, the arbor is inserted in the piece such as 201242693, and the bearing member is detachably disposed on the base body, so that the arbor is detachable power transmission connection of the output shaft of the transmission system. - By means of the 'opposite aligning and milling cutter', the cutter cup module can be assembled in a complete group, including the bearing member and the arbor, and the detachment is removed from the seat body. It can prevent the miscellaneous parts from being damaged by the collision of the arbor. It can also reduce the chance of the iron stalker between the arbor and the bearing. In addition, since there is no need to extract the shank from the bearing member, the maximum razor of the arbor is not subject to the squeezing of the larger size side boring cutter. [Embodiment] In order to explain the present invention more clearly, the preferred embodiment will be described in detail with reference to the accompanying drawings. The composite function side milling tool holder 1 of a preferred embodiment of the present invention comprises: a body ίο' the body ίο includes a main body 丨丨 and a sub-body 12. The main body 11 has an engaging surface m on the outer surface, and has six long through holes 112 arranged in parallel along a circular trajectory, and the equal long holes 112 are respectively at the joint surface 111 and on opposite sides of the joint surface 1 Π An opening is formed in the wall. The sub-body 12 includes a base 121, a cover 122, a first holder 123 and a second holder 124. The outer surface of the base plate 121 has a receiving groove 1212 having a ring shape inside the joint 201242693, and the receiving groove 1212 defines a notch 1213 having an annular shape and a width smaller than the groove width on the joint surface 1211. . The base plate 121 further has a manhole 1214 that communicates with the accommodating groove 1212 and the side wall of the base plate 121. The insertion hole 1214 forms an inlet for the fun. The disc cover 122 has the same outer peripheral contour as the base disc 121, and is located on one of the opposite sides of the joint surface 1211 by a plurality of fulcrums. The disk cover 122 has a gear housing chamber 1221, and the housing chamber 22 is formed with a mounting opening toward a face of the disk cover 122. The first shank holder 23 and the second holder 124 are respectively locked on the disc cover 122 by a plurality of bolts - spaced apart from each other by an appropriate interval, which is sufficient for accommodating the general side milling Knife or hobbing knife. The first holder base 123 has a - shank hole perforation 1231 formed in the opening of the first holder 112 toward the outer wall of the second holder 124. The second holder has a second holder perforation 1241, the second holder perforation 1241 has the same center as the first holder perforation 1231, and the second holder perforation 1241 extends through the second holder Two of the seats 124 are located on opposite side walls. A locking device 20 includes six pressing blocks 21, two spacer blocks 22, and/or adjusting bolts 23. The pressing block 21 and the spacer block 22 are each formed by the insertion hole 1214 of the base plate 121 being placed into the receiving groove 1212 of the base plate 121. An annular arrangement is formed in the receiving groove 1212. Each of the pressing blocks 21 has a screw hole 211, and the bolts 23 respectively pass through the long hole 112 on the main body 10 and the receiving slot 7 of the base 121 201242693 1213 respectively. In the screw hole 211 of the compact block 21, by tightening the adjusting bolts 23, the pressing blocks 21 can press the groove wall of the receiving groove 1212 and force the joint surface 1211 of the base plate 121 to be tightly pressed. The coupling of the sub-body 12 and the main seat u is achieved on the joint surface 111 of the main body 11. When the adjusting bolts 23 are loosened, the pressing blocks 21 are loosened from the groove wall of the receiving groove 1212, so that the joint surface 1211 of the base plate 121 is loosened from the joint surface ill of the main seat body u; When the sub-body 12 is rotated, the sub-body 12 is rotated along the circle formed by the pressing blocks 21 and the spacers 22, and the sub-body 12 and the main seat can be adjusted. The angle between the bodies U; by tightening the adjusting bolts 23 again, the angle between the sub-body 12 and the body u can be determined. The joint surface 1211 of the base plate 121 and the joint surface iu of the main seat body u are provided with a Ο-shaped ring 13'-to prevent dust impurities from entering between the base plate (2) and the main seat body 11, and When the adjusting bolts 23 are locked, the friction between the base 121 and the main seat 11 can be increased. A transmission system includes an input shaft 31, a first intermediate shaft & a second intermediate shaft 33, an output shaft 34, a plurality of bevel gears 35 for changing the direction of transmission, and a - disc gear 36 And - the second disc gear η. The input shaft 31 and the first intermediate shaft 32 are disposed in the main body, and the I is coupled by a two-way combination of the gears 35 to transmit a power transmission at a right angle. One end of the input shaft 34 extends out of the main seat n, and the end is combined with the working body to connect with the working body. One end of the first intermediate shaft 32 passes through the main seat n and penetrates into the gear housing chamber 1221 of the sub-body 12. The second intermediate shaft 33 is disposed in the sub-body 12, and two ends of the second intermediate shaft 33 are respectively located in the gear receiving chamber 1221 and the first holder base 123. The first disk gear 36 and the second disk gear 37 are located in the gear accommodating to 1221, respectively coupled to the first intermediate shaft 32 and the second intermediate shaft 33, and are engaged with each other. Thereby, when the angle between the main and auxiliary seats u, 12 is adjusted, the second disk gear 37 moves around the first disk gear 36 and continuously meshes with the first disk gear 36. on. The output shaft 34 is disposed in the first holder base 123, and is meshed by a bevel gear 35 coupled to the output shaft 34 and a bevel gear 35 coupled to the second intermediate shaft %. A power transmission connection is formed at a right angle with the second intermediate shaft 33. One end of the output shaft 34 extends out of the first arbor hole 1231, and has a coupling hole 341 at the end; the coupling hole has a first hole segment 3411 and a second hole segment 3412 that communicate with each other. A hole section 3411 is a square hole, and the second hole section 3412 is a --shaped hole, and the second hole section 3412 forms an opening on the surface of the known surface; in addition, the peripheral side wall surface at the end There is a section of external thread 3413. A tool holder module 40 mainly includes a tool holder 41, a bearing member, and a dust cover 44. The bearing member includes a bearing housing 42 and a bearing 43 fixed to the bearing housing 42. Composed of. The bearing housing 42 is a cylindrical body having a first cylinder 421 section and a 201242693 - cylinder section 422; the inner and outer diameters of the first cylinder section are smaller than the inner and outer diameters of the second cylinder section 422, and the The inner wall of the first cylinder section 421 has a tenon 4213. Additionally, the second barrel section 422 has a plurality of small perforations 424 that are equally spaced along its circular diameter. The end of the shank 41 has a cylindrical joint portion 411, a cylindrical joint portion 412, a cylindrical knife portion 413, a first tenon 414, a second tenon 415, and a cylindrical shape. The penetrating portion 416. The outer diameter of the knife portion 413 is larger than the outer diameter of the circular joint portion 412 and the penetration portion 416; the outer diameter of the first tenon 414 is larger than the outer diameter of the second tenon 415, and the second The outer diameter of the tenon 415 is larger than the outer diameter of the knife portion 416. Further, the shank 41 has a through hole 417 penetrating both ends thereof. The bearing 43 is mounted on the penetration portion 416 of the shank 41 and is mounted in the first barrel section 421 of the bearing housing 42 W, and a side edge thereof abuts against the tenon in the first cylinder section 421. On 423. Thereby, the shank 41 is coupled to the bearing seat 42 through the bearing 43. Although the bearing member is composed of the bearing housing 42 and the bearing in this embodiment, the bearing member may be a self-lubricating bearing, a bushing or other general bearing in consideration of the number of the reduced members. The dust cover 44 is an annular cover body that is sleeved on the penetration portion 416 of the shank 41 and abuts the bearing 43' and is located in the second cylinder section of the bearing housing 42. The perforations 441' provided on the peripheral side wall surface of the side dust cover 44 with the corresponding through holes 424 of the second cylinder section 422 are simultaneously placed on the corresponding second cylinder section 422 of each group 201242693 by the same number of pins. The boring hole 424 and the wearing mechanism on the dust cover 44 are fixed to fix the dust cover 44 to the position of the hole λα ^ 』 card, and prevent the dust cover 44 from rotating in the second cylinder segment 422. A garment is disposed between the outer wall of the dust cover 44 and the inner wall of the second cylinder, and an oil seal 46' is disposed between the inner wall of the dust cover 44 and the penetration portion 416 of the cutter rod 41, and the second protrusion 415 of the cutter rod 41 is A V-shaped oil seal 47 is provided between the walls. By the arrangement of these sealing members, the effect of the 4G can be enhanced, and the chance of adding the dwarf or the impurity dust into the bearing seat 42 _ the miscellaneous bearing 43 can be reduced. When the arbor touch 40 is installed on the bribe ω, one end of the square-shaped joint portion of the arbor 41 is sequentially passed through the second arbor perforation blue, and the combination of the output shaft 34 is inserted. In the hole 341, the square cylindrical joint portion w and the cylindrical joint portion 412 are respectively located in the first hole portion and the second hole portion 3412, and at the same time, the bearing housing 42 is received in the second knife. In the rod perforation 1241, the outer end surface of the intersection of the first cylinder section 421 and the second cylinder section 422 abuts against a stop surface in the second cutter hole perforation 1241. A long bolt 48 is inserted through the through hole 417 of the shank 41 from the outer end of the shank 41, and is coupled to a screw hole 342 disposed in the output shaft 34 and communicated with the coupling hole 341, and then The second knife that is locked to the second holder 124 is placed at the periphery of the perforation 1241, and the heads of the bolts 49 are simultaneously pressed against the bearing housing 42 and the dust cover. The outer end face of 44. In this way, the entire tool bar module 40 can be securely mounted on the base body 1〇. 201242693 When the tool holder module 40 is detached from the base body 10, the short thread check 49 and the long bolt 48 are sequentially removed, and the entire tool bar module 4 can be pierced from the second tool bar. 1241 is pulled out and leaves the seat. In addition, the transmission system further includes an adjustment ring 38 including a ring body 381 and a bolt 382, and the ring body 381 has a broken gap 383. The bolt 382 passes through a through hole of the ring body 381 on the side of the gap 383, passes through the gap 383, and is coupled to the screw hole 381 in the screw hole on the other side of the gap; A bolt 382 can control the width of the gap 383, that is, adjust the inner diameter of the entire ring body 381. Further, the inner wall of the ring body 381 is provided with a - thread segment 384. The adjusting ring 38 threaded section 384 is coupled to the threaded section 3412 at the outer end of the output shaft 34. When the bolt 383 is loosened, the adjusting ring 38 can be rotated to adjust the position of the adjusting ring % on the output shaft %; When the bolt 382 is locked, the position of the adjusting ring 38 on the output shaft can be fixed. The position of the side cutter mounted on the shank 41 can be adjusted by the arrangement of the yoke ring 38 and the use of the shims. The following will explain the composite side milling cutter holder! How to achieve the purpose and function of the invention. - 'Please refer to FIG. 5, FIG. 6 and FIG. 8, since the angle between the main body u and the sub-body 12 can be adjusted, that is, the adjustment screw is loosened, so that the same The pressing block 21 is loosened from the groove wall of the container 1212, so that the joint surface 1211 of the 121 is loosened from the main body, and the sub-body 12' is moved to the joint surface 111 of the sub-body 12. The rotation of the ring track formed by the pressing blocks 21 and the spacers 22 and the blocks 22 can be adjusted to reduce the angular loss between the sub-body 12 and the main body 11. Moreover, by locking the adjusting bolts 23, the force can be made to force the joint surface 1211 of the base plate 121 to be tightly pressed against the joint surface 111 of the main seat body 11. The aerodynamic body 12 has no aeronautical combination of the main body 11 and the angle between the sub-body 12 and the main body n. Since the input shaft 31 of the transmission system is mounted on the main seat body η, the rotation 41 of the shank module 40 is mounted on the sub-seat body 12, and the main seat body 11 and the sub-seat The angle between the bodies 12 can be adjusted and changed, so that the angle between the input shaft 3/ and the holder 41 can be adjusted and changed. In this way, the composite work: the side milling cutter seat 1 can not only be turned over and the like, but also can be applied to its processing such as 'replacement of the hobbing cutter on the shank W, and adjust the knives appropriately After the rod 41 is at an angle with the input shaft 31, the processing is performed. 2nd and 2nd, referring to FIG. 6 and FIG. 9, the composite function side milling cutter seat 1 adopts the material of the cutter bar module 4, that is, the tool bar 41, the bearing 43 and the bearing seat 42 and The dust cover 44, the (four) ring 45 and the γ 5 • oil seal 46 47 components are pre-assembled to form a module, and the entire module is erected to or detached from the sub-body 12 . .栎如如:之十十件 The arbor 41 and the bearing 43 need not be reversely combined or
Li會 懈43輸桿41 _,柯減低損毀 又 由於該刀# 4!與鞠承Μ獨反覆結合或拆離,可 13 201242693 =::41上因加工所法染之切削鐵屑等雜質被帶入該刀 L 2軸承43之間。啊,由魏轉41與該軸承幻不 實例中,便在雜塵蓋44與雜承座42㈤、以及該 防塵蓋44與該刀桿41之穿入料6間分別設有該〇型環和 該:型油封’且在該刀桿41之第二凸垣415與該轴承座幻 間-又有V鶴封。藉由如此良好的防塵設計,可大幅減低切 削鐵屑等雜質容易進入該軸承43的滾珠等構成元件中的機 會’進而延長了該軸承之使用壽命。 再者,由於該刀桿41與該軸承43不須反覆結合或拆離, 3<刀杯41之整體外控不須受限於該軸承a之内徑,如在本實 施例中,該刀桿41之置刀部413的外徑便大於該穿入部416 之外徑,而可供較大尺寸的侧銑刀裝設。 以上所述僅為本發明較佳可行實施例而已,舉凡應用本發 明說明書及申請專利範圍所為之等效結構及製作方法變化,理 應包含在本發明之專利範圍内。 201242693 【圖式簡單說明】 圖1為本發明一較佳實施例之立體圖 圖2為沿圖1之線之剖視圖 圖3為沿圖2之nr—m線之剖視圖 圖4為沿圖2之IV—IV線之剖視圖 圖5〜圖7為圖1所示實施例之部份構件的分解圖; =圖1所示實施例之部份構件的調整動作示意圖; 圖9為圖1所示實施例之部份構件的拆解動作示意圖。 【主要元件符號說明】 複合功能側銑刀座1 座體10 主座體11 接合面lu 副座體12 基盤121 容置槽1212槽口 1213 盤蓋122 齒輪容置室 第一刀桿座123 第二刀桿座124 〇型環13 長穿孔112 接合面1211 置入孔1214 1221 第一刀桿穿孔1231 第二刀桿穿孔1241 間隔塊22 鎖定裝置20 迫緊塊21 螺孔211 調整螺栓23 201242693 輸入軸31 第一中介軸32 第二中介軸33 輸出軸34 結合孔341 第一孔段3411 第二孔段3412 外螺紋3413 螺孔342 傘形齒輪35 第一圓盤齒輪36 第二圓盤齒輪37 調節環38 環體381 螺栓382 間隙383 螺紋段384 連結座39 刀桿模組40 刀桿41 方柱形結合部411 圓柱形結合部412 圓柱形置刀部413 第一凸垣414 第二凸垣415 圓柱形穿入部416 貫穿孔417 軸承座42 第一筒段421 第二筒段422 凸垣423 穿孔424 轴承43 防塵蓋44 穿孔441 0型環45 V型油封46 V型油封47 長螺栓48 短螺栓49Li will slap 43 poles 41 _, Ke reduced the damage and because of the knife # 4! and 鞠承Μ alone combined or detached, can be 13 201242693 =::41 on the processing of the method of dyeing cutting iron filings and other impurities were Brought into between the knife L 2 bearing 43. Ah, in the case of the Wei 41 and the bearing, the weir ring and the weaving cover 42 (f), and the dust cover 44 and the insert 6 of the shank 41 are respectively provided. The type: oil seal 'and between the second tenon 415 of the shank 41 and the bearing seat - there is a V seal. By such a good dust-proof design, it is possible to greatly reduce the chance that impurities such as iron scraps can easily enter the constituent elements of the balls of the bearing 43 and further extend the service life of the bearing. Moreover, since the shank 41 and the bearing 43 do not need to be repeatedly coupled or detached, the overall external control of the blade cup 41 is not limited to the inner diameter of the bearing a, as in the embodiment, the knives The outer diameter of the knife portion 413 of the rod 41 is larger than the outer diameter of the penetration portion 416, and is available for a larger size side cutter. The above description is only for the preferred embodiments of the present invention, and the equivalent structures and manufacturing methods of the present invention and the scope of the patent application are intended to be included in the scope of the present invention. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view of a preferred embodiment of the present invention. FIG. 2 is a cross-sectional view taken along line 1 of FIG. 1. FIG. 3 is a cross-sectional view taken along line nr-m of FIG. - Figure 5 is an exploded view of some of the components of the embodiment shown in Figure 1; = Figure 1 is an embodiment of the embodiment shown in Figure 1; Figure 9 is an embodiment of Figure 1. Schematic diagram of the disassembly of some of the components. [Main component symbol description] Composite function side milling cutter holder 1 Seat body 10 Main body 11 Joint surface lu Sub-body 12 Base plate 121 accommodating groove 1212 Notch 1213 Cover 122 Gear accommodation chamber First holder 123 Two-pole holder 124 〇-ring 13 Long perforation 112 Engagement surface 1211 Insertion hole 1214 1221 First arbor perforation 1231 Second arbor perforation 1241 Spacer block 22 Locking device 20 Tightening block 21 Screw hole 211 Adjustment bolt 23 201242693 Input Shaft 31 first intermediate shaft 32 second intermediate shaft 33 output shaft 34 coupling hole 341 first hole section 3411 second hole section 3412 external thread 3413 screw hole 342 bevel gear 35 first disc gear 36 second disc gear 37 Adjustment ring 38 Ring body 381 Bolt 382 Clearance 383 Threaded section 384 Joint 39 Tool holder module 40 Tool holder 41 Square cylindrical joint 411 Cylindrical joint 412 Cylindrical knife portion 413 First crown 414 Second crown 415 cylindrical penetration 416 through hole 417 bearing housing 42 first cylinder section 421 second cylinder section 422 tenon 423 perforation 424 bearing 43 dust cover 44 perforation 441 0 type ring 45 V type oil seal 46 V type oil seal 47 long bolt 48 short Bolt 49