TWI339141B - - Google Patents
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- TWI339141B TWI339141B TW096132712A TW96132712A TWI339141B TW I339141 B TWI339141 B TW I339141B TW 096132712 A TW096132712 A TW 096132712A TW 96132712 A TW96132712 A TW 96132712A TW I339141 B TWI339141 B TW I339141B
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- shank
- hole
- valve body
- base end
- sleeve
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- Gripping On Spindles (AREA)
Description
本發明係有鑒於該現況而為 述問題之柄安裝構造。 其目的在於提供解決上 本發月之目的’能藉由構成如下之柄安裝構造達成。 面朝tr之:安裝構造,係於將卡止構件配置成從内周 仫方向x出且能從該狀態朝外徑方後退,於心軸之 胴邹内孔長邊方向沿心軸之軸 釉万向延伸且前端開口於該胴 二之前端面的筒敎之柄安裝孔’使於基端部具備用以收 亥卡止構件一部分之凹部之刀具侧的柄,以能單觸式裝 卸’其特徵在於: 於該洞部之徑方向中心部位且相鄰於該柄安裝孔之基 端方’以前端連通於該柄安裝孔之方式,形成冷卻劑供鹿 孔; 於該冷卻劑供應孔之前端部將閥體設置成能朝基端側 移動自如,且於該冷卻劑供應孔之較該閥體前端方的位 置,設置能與該間體抵接且與該閥體間形成液密狀態的密 封構件; 於該柄安裝孔内,配設第丨套筒,使能形成該柄之基 端抵接於前端使該軸方向朝基端方移動,藉由該移動能使 推壓部抵接於該閥體而使該閥體能從該密封構件離開, 且,於該柄並未抵接於前端之狀態,具有大致等於該柄安 裝孔之孔徑外徑的外周面,能形成使該卡止構件從該柄安 裝孔之内周面朝外徑方後退的狀態; 將於基端具備用以推壓該閥體使其從該密封構件離開 之推壓部,且於前端具備供柄抵接之抵接面的閥體操作構 1339141 件配置於該柄安裝孔内。 根據構成如上述之本發明柄安裝構造,若將刀具之柄 插入心軸胴部之柄安裝孔内,該柄之基端會使配置於該心 軸胴部之柄安裝孔内的該閥體操作構件朝該柄安裝孔之基 端側移動。藉由該移動,該閥體操作構件之推壓部使該閥 體朝基端側移動,使該閥體從該密封構件離開。因此,即 使係無令心銷之刀具,亦可僅於穿孔時供應冷卻劑至刀具 側。 又,若將刀具之柄插入心軸胴部之柄安裝孔内該柄 之基端會使配置於該心軸胴部之柄安裝孔内的第丨套筒朝 該柄安裝孔之基端側移動,使該卡止構件從該胴部之内周 面朝内徑方突出,並使該卡止構件之一部分卡止於柄之凹 部。其結果’能使柄以單觸式安裝於心軸。 於該柄安裝構造,亦可將該第丨套筒與該閥體操作構 件連接成一體狀,在此情形,能減少零件數目口 於該柄安裝構造,亦可將該閥體與該閥體操作構件連 接成一體狀’在此情形,能減少零件數目。 於該柄安裝構造,若將該柄之外徑形成為於該卡止構 件從該柄安裝孔之内周面朝外徑方後退之狀態下能插入訪^ 柄安裝孔的尺寸;且 x 將該凹部於柄之基端部形成長孔狀,以於該 、卞止構件 之一部分收容在該凹部之狀態下該柄能於該心紅 w <釉方向 移動自如既定距離; 於該卡止構件位在該柄之長孔狀凹部之前端位 置之狀 7 1339141 態’該第1套筒使該閥體從該密封構件離開,於該卡止構 件位在該柄之長孔狀凹部之基端位置之狀態,該第1套筒 不使該閥體從該密封構件離開,則該心軸之卡止構件卡止 於柄之於刀具卡止於之狀態’當該卡止構件位 於該柄之長孔狀ω部之前端位置之狀態肖,能供應冷卻 劑,另-方面,當該卡止構件位於柄之長孔狀凹部之基端 位置之狀悲時,能形成停止供應冷卻劑之狀態。 即’以刀具將被加工面穿孔時,力將刀具之前端抵接 於被加工面之狀態下,閥體尚未從密封構件離開,故沒有 ~郃劑被供應至刀具側,藉由從該狀態進一步將刀具朝基 端方推壓’使該心軸之卡止構件朝刀柄凹部内之前端方移 動,成為刀柄更加插入心軸之柄安裝孔之狀態。其結果, 該柄之基端’使该心軸之第丨套筒朝基端方移動將該閥 體朝基端側推動使其從密封構件離開。因此,在閥體與密 封構件之間形成間隙,使已供應至該冷卻劑供應孔之冷卻 劑,從該間隙經過該柄安裝孔,供應至刀具側。 如此,即使不具備中心銷之刀具,亦能僅於切削時, 供應冷卻劑至切削部分。 又’該柄安裝構造’若於該柄安裝孔之鄰接於該第1 套筒軸方向移動區域前端的該前端方位置,沿該柄安裝孔 之周方向將卡止用凹部形成為環狀;於該卡止用凹部配設 停止%構件,該停止環構件,具備:最小徑部分較該柄之 基端外楦稍微小的内徑,及最大徑部分於自由狀態較該凹 部之外控大的外徑;具有相對於假想真圓一部分朝外徑方 1339141 突出且另一部分退縮之波形環狀的形態,朝該外徑方突出 之部分能變形於該柄安裝孔之軸方向, 若作成上述構成,則能於將柄插入該柄安裝孔時,該 停止環構件在卡止於卡止用㈣之狀態下變形,容許柄通 過停止環構件更深地插入柄安裝孔内,又,於將柄拔出時, 停止環構件可在卡止於卡止用凹部之狀態下㈣,以從該 柄安裝孔僅拔出柄。The present invention is a handle mounting structure that is problematic in view of this state of the art. The purpose of the present invention is to provide a solution for the purpose of solving the previous month. Facing tr: the mounting structure is configured to arrange the locking member so as to exit from the inner circumferential direction x and can retreat from the state toward the outer diameter, and the axis of the mandrel is along the axis of the mandrel. The shank mounting hole of the shank which extends in a girth direction and has a front end opening at the front end of the yoke is provided with a shank at the base end portion for receiving a concave portion of a part of the locking member, so that the one-touch type can be loaded and unloaded' The method is characterized in that: a coolant is supplied to the deer hole at a central portion in the radial direction of the hole portion and adjacent to a base end of the shank mounting hole to communicate with the shank mounting hole; and the coolant supply hole The front end portion is configured to be movable toward the base end side, and is disposed at a position closer to the front end of the valve body than the front end of the valve body, and is capable of abutting against the intermediate body and forming a liquid-tight state with the valve body. a sealing member; a second sleeve is disposed in the shank mounting hole, so that a base end of the shank is formed to abut the front end to move the axial direction toward the base end, and the pressing portion can abut the pressing portion The valve body allows the valve body to be separated from the sealing member, and The shank does not abut against the front end, and has an outer peripheral surface substantially equal to the outer diameter of the aperture of the shank mounting hole, and can form a state in which the locking member is retracted from the inner circumferential surface of the shank mounting hole toward the outer diameter; A valve body operating mechanism 1391141 having a pressing portion for pressing the valve body away from the sealing member is provided at the base end, and a valve body operating mechanism 1391141 having a contact surface for abutting the shank at the distal end is disposed in the shank mounting hole. According to the handle mounting structure of the present invention as described above, if the shank of the tool is inserted into the shank mounting hole of the mandrel, the base end of the shank causes the valve body disposed in the shank mounting hole of the mandrel The operating member moves toward the base end side of the shank mounting hole. By this movement, the pressing portion of the valve body operating member moves the valve body toward the proximal end side to separate the valve body from the sealing member. Therefore, even if the tool is not sold, the coolant can be supplied to the tool side only during the perforation. Moreover, if the shank of the tool is inserted into the shank mounting hole of the mandrel shank, the base end of the shank will cause the third sleeve disposed in the shank mounting hole of the mandrel portion toward the base end side of the shank mounting hole The locking member is caused to protrude from the inner peripheral surface of the crotch portion toward the inner diameter, and one of the locking members is locked to the recess of the shank. As a result, the handle can be attached to the mandrel in a one-touch manner. In the handle mounting structure, the second sleeve can be integrally connected with the valve body operating member. In this case, the number of parts can be reduced to the handle mounting structure, and the valve body and the valve body can also be The operating members are connected in one piece 'in this case, the number of parts can be reduced. In the shank mounting structure, if the outer diameter of the shank is formed such that the locking member is retracted from the inner circumferential surface of the shank mounting hole toward the outer diameter, the size of the access mounting hole can be inserted; and x The concave portion is formed in a long hole shape at a base end portion of the handle, so that the handle can be moved in the glaze direction by a predetermined distance in a state in which the one of the blocking members is received in the concave portion; The member is located at the front end position of the long hole-shaped recess of the shank. The state of the first sleeve causes the valve body to be separated from the sealing member, and the locking member is located at the base of the long hole-shaped recess of the shank. In the state of the end position, the first sleeve does not move the valve body away from the sealing member, and the locking member of the spindle is locked in the state in which the shank is locked by the shank when the locking member is located at the shank The state of the front end position of the long hole-shaped ω portion can supply the coolant, and on the other hand, when the locking member is located at the base end position of the long hole-shaped recess of the shank, the supply of the coolant can be stopped. status. That is, when the tool is used to pierce the surface to be machined, the force is used to abut the front end of the tool against the surface to be machined, and the valve body has not yet been separated from the sealing member, so no sputum is supplied to the tool side, from which the state is Further, pushing the cutter toward the base end moves the locking member of the spindle toward the front end in the recess of the shank, and the shank is inserted into the shank mounting hole of the spindle. As a result, the base end of the shank moves the second sleeve of the mandrel toward the base end to push the valve body toward the base end side to be separated from the sealing member. Therefore, a gap is formed between the valve body and the sealing member, so that the coolant supplied to the coolant supply hole is supplied from the gap through the shank mounting hole to the cutter side. In this way, even if the tool without the center pin is used, the coolant can be supplied to the cutting portion only during cutting. Further, the handle mounting structure is formed such that the locking recess is formed in a ring shape in a circumferential direction of the shank mounting hole when the shank mounting hole is adjacent to the front end of the first sleeve axial direction moving region; A stop % member is disposed in the locking recess, the stop ring member having an inner diameter that is slightly smaller than a base end of the shank, and a maximum diameter portion that is larger than the recess in a free state. An outer diameter; a shape in which a portion of the imaginary true circle protrudes toward the outer diameter 1339141 and the other portion retreats, and a portion protruding toward the outer diameter can be deformed in the axial direction of the shank mounting hole, In the configuration, when the handle is inserted into the handle mounting hole, the stop ring member is deformed in a state of being locked in the locking (4), and the handle is inserted into the handle mounting hole deeper by the stop ring member, and When pulled out, the stop ring member can be locked in the locking recess (4) to extract only the handle from the handle mounting hole.
又,藉由該停止環構件,該帛H於將柄插入柄 安裝孔或拔出0寺,均維持於柄安裝孔内。因此,能藉由極 之構成’維持將該第1套筒收納於柄安裝孔内之狀態。 又’該柄安裝構造,若將該胴部之配置有該卡止構件 之部分的壁部厚度,構成為較該卡止構件之該壁部厚度Further, by the stop ring member, the 帛H is held in the shank mounting hole when the shank is inserted into the shank mounting hole or the yoke is pulled out. Therefore, the state in which the first sleeve is housed in the shank attachment hole can be maintained by the pole configuration. Further, the handle mounting structure is configured such that the thickness of the wall portion of the portion where the locking member is disposed is configured to be thicker than the thickness of the wall portion of the locking member
To7 66 I? -4- .1 ·To7 66 I? -4- .1 ·
將保持該卡止構件的保持孔,形成於該壁部之盘,玄轴 交之方向’以使内徑側端開口於該,丨套筒在該柄 、Θ於軸方向移動之移動區域内的該柄安裝孔 ,且使外徑側端開口於該壁部之外周面;且 ° 様:…裝孔之㈣1套筒之基端方,配置第U 構件’彈㈣帛1㈣使其前端抵接於該停止環構件 於該胴部之外周方配設内 , 凸輪面的第2套Β 』第1凸輪面與第 端之任—二广以使其可向該心軸之轴方向前端, 下,能以向内徑方突出之該,〗凸輪面,將=之壯 該卡止構件朝師 U保持孔内 乃〜方推Μ,且於不移動之狀態下能 9 凸輪面使该卡止構件收 # ^ . 分於外彳工方,且,藉由第2彈性構 件之弹性力將該第2套 卡止構件之-部分收之方向推壓,形成使該 2 e w & 於柄之凹部之狀態,藉由克服該第 =構件之彈性力將,2套筒維持於該不移動之狀態, Μ止構件能於該保持孔内朝外徑方後退, 若㈣上述構成,則可於使第2套筒朝與該—方之方 :土知側之方向或前端側之方向)相反之方向移動之狀 匕’僅須將柄插入心軸之柄安裝孑L,卡止構件便會邊與柄 卜周面接觸邊將其表面相對於軸方向移動,使該卡止構 件之内徑側之一部分,收納於形成在柄之凹部。 如此,當卡止構件被收容於凹部時,到此時為止卡止 牛斤卡止之4第2套筒的卡止狀態被解除,該第2套筒 :::第2彈性構件之彈性力作用,朝該一方之方向移動。 果,柄卡止且保持於心軸之柄安裝孔内。如此,能以 單觸式將柄安裝於心軸之柄安裝孔。 另一方面,當要從心軸卸下柄時,若使該第2套筒朝 方之方向相反之方向移動,則一部分收容於該凹部之 卡止構件便能朝外徑方後退,而解除該卡止構件與柄之凹 P的卡止。其結果’能將刀具側之柄簡單地從心軸卸下。 因此,操作員於安裝柄時,僅須將柄插入心軸之柄安 裝孔即可’又於卸下時,僅須使第2套筒克服第2彈性構 件朝與該一方之方向相反的方向移動,便能簡單地卸下。 即’將柄安裝於心軸及從心軸卸下柄,即使只用一隻手亦 能容易操作。又’藉由將第2套筒朝與該一方之方向(前端 1339141 側之方向或基端側之方向)相反的方向滑動,能將柄從心轴 卸下。因此’即使在旋轉中有任何物體誤抵接於第2套筒, 亦不會如如習知技術造成柄脫落。特別是若構成為藉由將 第2套筒朝基端方推壓使其朝基端方滑動使其解除卡止 構件,卡止’則即使於被穿孔物側有異物或突起而致使第 2套筒抵接於此等,柄亦不會從心轴脫落。The holding hole of the locking member is held, and is formed in the disk of the wall portion, and the direction of the sinus axis intersects so that the inner diameter side end opens therein, and the 丨 sleeve moves in the moving region of the shank and the yaw axis The handle is mounted with a hole, and the outer diameter side end is opened on the outer peripheral surface of the wall portion; and the base member of the (four) 1 sleeve is placed at the base end of the sleeve, and the U-shaped member 'elastic (four) 帛 1 (four) is disposed so that the front end thereof is abutted The second ring member and the first end of the second surface of the cam surface are disposed so as to be in the outer circumferential direction of the shank portion, so that the first cam surface and the first end of the cam surface can be oriented in the axial direction of the mandrel. Next, the cam surface can be protruded toward the inner diameter side, and the cam surface can be pushed to the inside of the hole by the arm member, and the card can be pushed by the cam surface without moving. The stop member receives # ^ . is divided into the outer work side, and the elastic force of the second elastic member presses the portion of the second set of the locking member in a direction to form the 2 ew & In the state of the recess, by overcoming the elastic force of the first member, the sleeve is maintained in the non-moving state, and the retaining member can be in the retaining hole. If the outer diameter is retracted, if the configuration is as described above, the second sleeve may be moved in a direction opposite to the direction of the side of the ground side or the front end side. The shank of the mandrel is attached to the shank L, and the locking member moves the surface thereof in the axial direction while being in contact with the circumferential surface of the shank, and one of the inner diameter sides of the locking member is housed in the concave portion formed in the shank. When the locking member is housed in the recessed portion, the locked state of the second sleeve that has been locked until now is released. The second sleeve:: elastic force of the second elastic member Act, move in the direction of the party. If the handle is locked and held in the shank mounting hole of the mandrel. In this way, the handle can be attached to the shank mounting hole of the mandrel in a one-touch manner. On the other hand, when the handle is to be removed from the mandrel, if the second sleeve is moved in the opposite direction, the locking member accommodated in the recess can be retracted toward the outer diameter. The locking member is locked with the recess P of the handle. As a result, the tool-side handle can be simply removed from the mandrel. Therefore, when the operator installs the handle, it is only necessary to insert the handle into the shank mounting hole of the mandrel. When the shank is removed, the second sleeve only needs to overcome the direction of the second elastic member in the opposite direction to the one side. Move it and simply remove it. That is, the handle is attached to the mandrel and the handle is removed from the mandrel, which is easy to operate even with only one hand. Further, the shank can be detached from the mandrel by sliding the second sleeve in a direction opposite to the one direction (the direction of the front end 1339141 side or the base end side). Therefore, even if any object is mistakenly abutted on the second sleeve during the rotation, the handle does not fall off as in the prior art. In particular, the second sleeve is configured such that the second sleeve is pressed toward the proximal end to slide toward the proximal end to release the locking member, and the second sleeve is caused by foreign matter or protrusion on the side of the perforated object. When it is abutted, the handle will not fall off the mandrel.
又,構造上,特別是站在加工面之觀點,本發明之柄 安裝構造,因能僅以圓形加工或其組合之加工進行,故構 造上容易加工,且亦可簡單組裝。 又,於該柄安裝構造,於該心軸之胴部,形成其前端 連通於冷卻劑供應孔、其基端露出於該胴部之外周面的第 1冷卻劑供應通路, 將固定構件,於該第2冷卻劑供應通路之前端,以使 該第1冷卻劑供應通路之基端連通之狀態配置,該固定構 件,係於該胴部之外周方,具有具備開放於内周面之環狀 通路的第2冷卻劑供應通路與前端連通於該第2冷卻劑供 應通路之基端而基端露出於外周的第3冷卻劑供應通路, 且具有將泫胴部從外周方旋轉自如地支撐之筒狀的胴部保 持孔, 若於該固定構件之第3冷卻劑供應通路,設置能變更 6玄第3冷卻劑供應通路之通路剖面之冷卻劑的流量調整機 構’則藉由操作該流量調整機構,從第3冷卻劑供應通路 經過第2冷卻劑供應通路及第1冷卻劑供應通路,能將必 要且足夠量之冷卻劑,從冷卻劑供應孔供應至刀具之切削 v a 11 部分。 又’若該柄安 孔邹,形成於該第η 整機構’具有:錐形 對庳14 7卻劑供應通路,錐形蕊構件,具有 耵應、5亥錐形孔之 丁丹有 錐形孔部接近咬離門構,使該錐形蕊構件能對 地,…開’則可藉由簡單之構成’實現能正確 。正机置的流量調整機構。 S柄安裝構造之該卡止構件係球體,該密封構 。二彈性構件構成之〇型環,該球體藉由螺旋彈菁彈壓 向邊密封構件冑,則可為簡單之構造,加工及組裝皆簡單。 根據本發明之柄安裝構造,即使無中心銷之鑽頭之情 形,亦可藉由簡單之構成,實現僅於加工時供應必要量之 冷卻劑。 【實施方式】 以下’參照圖式具體說明本發明實施例之柄安裝構造。 本發明並不限於此等實施例。 (實施例1 ) 圖1係將本實施例之心軸從穿孔裝置側所見的俯視 圖,圖2係從圖1之π — Π箭頭方向所見的圖,表示部分 剖面之内部構造的側視圖,圖3係從圖2之m —冚箭頭方 向所見的仰視圖。 在圖1〜圖3,A係心軸,該心軸A,如圖1〜圖3所示, 具有心軸本體1,該心軸本體1,具有:胴部丨B,一體安 裝於未圖示之穿孔裝置旋轉軸且與該旋轉軸一體旋轉;及 12 ^^141 固疋構件1 A ’以從外周覆蓋該胴部1 b之基端部(圖2之上 ,半部)之狀態將該胴部1B支撐成能旋轉自如。 ‘並且,該固定構件1A,透過安裝螺絲B 一體安裝之 固疋托架90,保持於未圖示之該穿孔裝置之本體等,使其 固定而不能旋轉。 在本實轭例,如圖2所示,該胴部1B,具有從令央以 下邛位擴徑之段部1 E的圓筒狀形態,該段部1 e以上之部 透過刀離配置於基端側與前端側之一對轴承1 2八,1, 方疋轉自如地被支撐於形成在該固定構件丨八中心的圓筒狀 之胴部保持孔le内。並且,於該固定構件IA與胴部 ]即於軸承〖2A,1 2B安裝部分,分別配設有密封構 件23,以免冷卻劑從該軸承12a,12b安裝部分洩漏。 2該胴部1B之形成擴徑狀之前端部,形成有圓筒狀 :柄文裝iL 2 ’其係以心轴本體工之中心軸X為孔中心, 則端在别端(於圖2係、下端)面開口且從該開^ &朝基端側 (於圖2係上方側)延伸。 又,於該胴部1B之形成縮徑狀之基端部,形成有安 裝軸。p 1W’用以安裝於未圖示之該穿孔裝置之夾頭。再 者,於該胴部之該安裝軸部lw之下方位置徑方向之 :央部位,前端連通於該柄安裝2基端且其孔徑較該柄 文裝孔2小的圓筒狀冷卻劑供應孔3,係與該柄安裝孔2 、為同。圓狀。又’於圖2 ’因於該冷卻劑供應孔3配設 有後述之㈣料6,㈣冷卻劑供應孔3之-部分成為 被該螺旋彈簧6隱藏之狀態。Further, in terms of construction, particularly in the view of the machined surface, the shank mounting structure of the present invention can be processed easily by circular machining or a combination thereof, and can be easily assembled and assembled. Further, in the shank attachment structure, a first coolant supply passage whose front end communicates with the coolant supply hole and whose base end is exposed to the outer peripheral surface of the dam portion is formed in the dam portion of the mandrel, and the fixing member is formed The front end of the second coolant supply passage is disposed in a state in which the base end of the first coolant supply passage communicates with each other, and the fixing member has a ring shape that is open to the inner peripheral surface on the outer circumference of the second portion. The second coolant supply passage of the passage and the tip end communicate with the base end of the second coolant supply passage, and the base end is exposed to the third coolant supply passage on the outer circumference, and the dam portion is rotatably supported from the outer circumference. a cylindrical crotch portion holding hole, and a flow rate adjusting mechanism that can change the passage of the passage of the passage of the 6th third coolant supply passage by the third coolant supply passage of the fixing member is operated by the flow rate adjustment The mechanism, from the third coolant supply passage through the second coolant supply passage and the first coolant supply passage, can supply a necessary and sufficient amount of coolant from the coolant supply hole to the cutting portion of the cutter va 11 . And 'if the handle Ankong Zou, formed in the η whole mechanism' has: a tapered pair of 7 14 7 agent supply passage, a tapered core member, with a 耵 、, 5 Hai tapered hole, Bing Dan has a cone The hole portion is close to the bite door structure, so that the conical core member can be grounded, and the opening can be realized by a simple configuration. The flow adjustment mechanism of the positive machine. The locking member of the S-shank mounting structure is a ball, the sealing structure. The 弹性-shaped ring composed of two elastic members, which is pressed against the edge sealing member by the spiral elastic embossing, can be simple structure, and is simple to process and assemble. According to the shank mounting structure of the present invention, even in the case of the bit without the center pin, it is possible to supply a necessary amount of the coolant only during processing by a simple configuration. [Embodiment] Hereinafter, a handle mounting structure according to an embodiment of the present invention will be specifically described with reference to the drawings. The invention is not limited to such embodiments. (Embodiment 1) Fig. 1 is a plan view showing a mandrel of the present embodiment from a side of a perforating device, and Fig. 2 is a view seen from a direction of a π-Π arrow of Fig. 1, showing a side view of an internal structure of a partial cross section, 3 is a bottom view seen from the direction of the m-冚 arrow of Fig. 2. In Fig. 1 to Fig. 3, the A-system mandrel, as shown in Figs. 1 to 3, has a mandrel body 1 having a crotch portion B and integrally mounted on the mandrel. The perforating device rotates the shaft and rotates integrally with the rotating shaft; and 12 ^ 141 the fixing member 1 A ' covers the base end portion (the upper portion and the half portion of FIG. 2) of the crotch portion 1 b from the outer circumference The crotch portion 1B is supported to be rotatable. Further, the fixing member 1A is fixed to a main body of the perforating device (not shown) by a fixing bracket 90 integrally attached to the mounting screw B, and is fixed so as not to rotate. In the embodiment of the present invention, as shown in FIG. 2, the crotch portion 1B has a cylindrical shape in which the segment portion 1 E is expanded from the lower side of the center, and the portion of the segment 1 e or more is disposed through the blade. One of the base end side and the front end side of the pair of bearings 1 2, 8, is rotatably supported in a cylindrical crotch portion holding hole le formed at the center of the fixing member. Further, the fixing member IA and the dam portion, that is, the mounting portions of the bearings 2A, 1 2B, are respectively provided with sealing members 23 to prevent the coolant from leaking from the mounting portions of the bearings 12a, 12b. 2 The front end portion of the crotch portion 1B is formed in a cylindrical shape: a shank article iL 2 ' is formed by the center axis X of the mandrel main body as the center of the hole, and the end is at the other end (Fig. 2 The system and the lower end face are open and extend from the opening toward the proximal end side (on the upper side of FIG. 2). Further, a mounting shaft is formed at the base end portion of the crotch portion 1B which is formed in a reduced diameter. p 1W' is attached to a chuck of the perforating device (not shown). Further, a cylindrical coolant supply having a smaller diameter than the handle mounting hole 2 is provided at a central portion of the mounting shaft portion 1w below the mounting shaft portion 1w. The hole 3 is the same as the handle mounting hole 2. Round shape. Further, in Fig. 2', the coolant supply hole 3 is provided with a material (6) to be described later, and (4) a portion of the coolant supply hole 3 is hidden by the coil spring 6.
13 1339141 並且,於該冷卻劑供應孔3之前端部(圖2之上端側), 在本實施例,係於設有該段部1E部分之内周面,環設有 槽剖面係矩形狀且向内周方開口之凹狀環槽3 A。且於該環 槽3 Α内’將由彈性體(本實施例係橡膠製)構成之〇型環(密 封構件)4 ’配設成其内周部分從該冷卻劑供應孔3之内周 面朝内徑側突出之狀態。又,於配設有該〇型環4之該冷 部劑供應孔3内之基端方,配設由金屬製球體構成之閥體 5 ’能於該冷卻劑供應孔3内比該〇型環4更靠近基端之 部分移動自如,且從基端側(於圖2係上端側)受螺旋彈簧 6朝前端方(該Ο型環4方)彈壓。該閥體5,在本實施例, 雖以球體構成’但亦可以其他形態,例如,以前端形呈圓 錐體狀之圓筒體狀者構成亦可。或,閥體,亦可為如實施 例3所述之形態。又,密封構件,在本實施例,雖由〇型 環4構成’但亦可以〇型環以外之形態者構成。 於該冷卻劑供應孔3之基端部(於圖2係上端部),以 正交之形態連通有第1冷卻劑供應通路7(於該胴部ib内 朝徑方向延伸)之前端(内徑端:上游端)。並且,該第1冷 部劑供應通路7之基端(外徑端:下游端),露出於胴部^ b 之外周面1 b。 又,於該固定構件丨八之内周面,形成有由連通於該 第1冷卻劑供應通路7之基端(下游端)之環狀空間所構成 的第2冷卻劑供應通路8。該第2冷卻劑供應通路在 本實施例之情形,係形成於鍔構件9之内徑方,該鍔構件 9’係由安裝為一體且形成該固定構件丨八之一部分的環狀13 1339141 Further, at the end portion of the coolant supply hole 3 (the upper end side of FIG. 2), in the present embodiment, the inner peripheral surface of the portion of the segment portion 1E is provided, and the groove is provided with a rectangular cross section and A concave ring groove 3 A that opens to the inner circumference. And a ring-shaped ring (sealing member) 4' composed of an elastic body (made of the rubber of the present embodiment) is disposed in the ring groove 3, so that the inner peripheral portion thereof faces from the inner circumferential surface of the coolant supply hole 3 The state in which the inner diameter side protrudes. Further, a valve body 5' made of a metal ball is disposed in the coolant supply hole 3 at a base end of the cold portion supply hole 3 in which the 〇-shaped ring 4 is disposed, and is disposed in the coolant supply hole 3 The portion of the ring 4 closer to the base end is freely movable, and is biased from the proximal end side (on the upper end side in Fig. 2) by the coil spring 6 toward the distal end side (the side of the Ο-shaped ring 4). In the present embodiment, the valve body 5 may be formed of a spherical body, but may be formed in another form, for example, a cylindrical shape having a tapered shape at the distal end. Alternatively, the valve body may be in the form as described in Example 3. Further, in the present embodiment, the sealing member is constituted by the 〇-shaped ring 4, but may be constituted by a form other than the 〇-shaped ring. At the base end portion (the upper end portion in FIG. 2) of the coolant supply hole 3, the first coolant supply passage 7 (which extends in the radial direction in the weir portion ib) communicates with the front end (inside) Diameter end: upstream end). Further, the base end (outer diameter end: downstream end) of the first cold refrigerant supply passage 7 is exposed to the outer peripheral surface 1 b of the crotch portion b. Further, a second coolant supply passage 8 formed of an annular space that communicates with the base end (downstream end) of the first coolant supply passage 7 is formed on the inner circumferential surface of the fixing member. In the case of the present embodiment, the second coolant supply passage is formed on the inner diameter side of the dam member 9, and the dam member 9' is formed in a ring shape which is integrally formed and forms a part of the fixing member 丨8.
14 1339141 高分子材料(例如,合成橡膠)構成。該鍔構件9之内周面, 以液密狀態覆蓋該心軸本體1之胴部1B。並且,於該鳄構 件9之一側(於圖2係左側)’形成有連通於該第2冷卻劑 供應通路8的管狀第3冷卻劑供應通路1〇。又,在本實施 例’該第3冷卻劑供應通路10之前端,係進入該鳄構件9 内部之狀態。 並且’於該第3冷卻劑供應通路 流量调整器16。該流量調整器1 6,如於圖9以部分剖面 之狀態放大表示,於錐形孔16B内,配置有具有相同錐形 角度之錐狀外形的蕊構件16A,藉由使該蕊構件i6a相對 該孔16B沿孔長邊方向(於圖2、圖9、圖1〇係左右方向) 移動,於該孔16B内周面與蕊構件16A外周面之間,形成 通路截面積能任意變化之間& 16a,而能調整通過該間隙 之冷卻劑流量。又,於該錐形孔16B之基端方(於圖2、圖 9圖10係左方)’連接形成有直線狀之孔16C,於該孔 之外周面,連通有於基端(下游端)連接有未圖示之冷卻劑 供應軟管的第4冷卻劑供應通路17。χ,於該孔16C之基 端部内周面,形成有雌螺絲16f ’且於該蕊構件16八之基 端部形成有與該雌螺絲16f螺人 I % σ之雄螺絲丨6ιη,藉由該螺 絲機構’該間隙1 6a能從「 , 立 此彳疋無J狀態(參照圖1 〇)變化至任 思大小。又,於蕊構件16A夕其Α Α之基翊,一體形成有用以操作 a玄螺絲機構之調替用祐 苒7整用方疋紐16D。又’在圖9、圖ι〇,符號 】6s係表不用以密封 了飞-構件16Λ與孔16B間的密封構件。 又’於該胴部1B之拟士破/ 之开^成擴徑狀之前端部1 d ’將貫通14 1339141 Composition of polymer materials (for example, synthetic rubber). The inner peripheral surface of the crucible member 9 covers the crotch portion 1B of the mandrel main body 1 in a liquid-tight state. Further, on one side of the crocodile member 9 (on the left side in Fig. 2), a tubular third coolant supply passage 1B communicating with the second coolant supply passage 8 is formed. Further, in the present embodiment, the front end of the third coolant supply passage 10 is in a state of entering the inside of the crocodile member 9. And in the third coolant supply passage flow rate adjuster 16. The flow rate adjuster 16 is enlarged in a partially sectioned state as shown in Fig. 9. In the tapered hole 16B, a core member 16A having a tapered shape having the same taper angle is disposed, by making the core member i6a relatively The hole 16B moves in the longitudinal direction of the hole (in the left-right direction of the 图 in FIG. 2, FIG. 9, FIG. 1), and the passage cross-sectional area can be arbitrarily changed between the inner circumferential surface of the hole 16B and the outer peripheral surface of the core member 16A. & 16a, and can adjust the coolant flow rate through the gap. Further, a linear hole 16C is formed in the base end of the tapered hole 16B (to the left in FIGS. 2 and 9 and 10), and a peripheral end of the hole is connected to the base end (the downstream end). The fourth coolant supply passage 17 to which a coolant supply hose (not shown) is connected. a female screw 16f' is formed on the inner peripheral surface of the base end portion of the hole 16C, and a male screw 丨6ιη is formed at the base end portion of the core member 16 with the female screw 16f. The screw mechanism 'the gap 16a can be changed from the "J" state (refer to Fig. 1 〇) to the size of Rensi. In addition, the core member 16A is formed to be used to operate a. The replacement of the mysterious screw mechanism is made up of the 苒 苒 7 疋 整 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 16 At the end of the section 1B, the end of the section 1 d 'will be penetrated
15 115 1
於與該柄安裝孔2之站古A * π 。正交之方向(徑方向)之孔剖面 為0形、且用以保持卡止 ; 向八Μ來占私…奴占 5的保持孔1 g,係沿周方 向分離形成於複數處(例如, 本實細*例為3處);於該伴持 孔lg,沿胴部1B之徑方 於Z保持 狀卡止構件丨5。 ㈣動自如地配置有金屬製之球 該保持孔1 g之孔長邊 _ ^ ^ ,f J Λ八 寸,換言之,形成該胴部1Β 之保持孔lg 刀之該胴部1Β 構件丨5之直彳㈣尺寸,目此成為小於該卡止 了因此’收容於該保持孔 構件1 5之一部分,係構成$ 丹取与從該胴部1Β之外用品1 l, 内周面li突出之狀態。 之外周面U或 並且,於形成有該保持孔1§之該胴部 周方,沿該胴部1B之外周s 1 ^ ± 圓疴狀外 … 外周面。在軸方向(長邊方向:在圖 2,係上下方向)滑動自如地配置有第2套筒"。並且,: ^㈣螺旋彈簧(第2彈性_ 朝心軸A之前端側(在圖2,係下端方)彈壓。 又,於配置有該第2套筒u之胴部1B之下 配設有用以限制該第2套筒U帛前端方移動之第 : 環14。該第2停止環14係卡止於形成在胴部⑺外周:之 卡止用凹部1k(參照圖7),於軸方向固定在其位置。° 於該第2套筒Η之基端部内周,形成有用以 旋彈菁(第2彈性構件)13之擴徑部lu,又,於前端^ 周’形成有用卩收容該卡止構件15之一部分的擴徑部川。 並且,形成於该前端部内周之擴徑部丨丨匕形成第2凸 並且,该擴控部11 a與擴徑部1 1 b間之中央 、° <非擴徑部 16 1339141 C形成第1凸輪面。即,當該卡止構件15抵接於該擴徑 部 1 1 b fli » τ ’在該卡止構件15從該胴部1B外周面1a突出At the station with the handle mounting hole 2, the ancient A * π. The hole in the direction of the orthogonal direction (diameter direction) has a 0-shaped cross section and is used to maintain the locking; the holding hole 1 g of the slave to the occupant 5 is separated in the circumferential direction at a plurality of points (for example, In the case of the supporting hole lg, the retaining member 丨5 is held in the Z along the radial direction of the dam portion 1B. (4) movably arranged with a metal ball. The long side of the hole of the holding hole 1 g _ ^ ^ , f J Λ eight inches, in other words, the holding hole 1 Β of the 胴 形成 Β Β Β 丨 丨 丨 之The size of the straight cymbal (four) is smaller than the one, so that it is accommodated in a part of the holding hole member 15 and is formed in a state in which the occupant 1 and the inner peripheral surface li are protruded from the scorpion 1 . The outer circumferential surface U or the circumference of the crotch portion on which the holding hole 1' is formed is along the outer circumference of the crotch portion 1B s 1 ^ ± round outer surface ... outer circumferential surface. The second sleeve " is slidably disposed in the axial direction (longitudinal direction: in the vertical direction of Fig. 2). Further, the (fourth) coil spring (the second elastic member _ is biased toward the front end side of the mandrel axis A (the lower end side in Fig. 2). Further, it is disposed below the crotch portion 1B in which the second sleeve u is disposed. The second ring 14 is configured to restrict the movement of the distal end of the second sleeve U. The second stop ring 14 is locked to the locking recess 1k (see FIG. 7) formed on the outer circumference of the crotch portion (7) in the axial direction. It is fixed at its position. The inner diameter of the base end portion of the second sleeve 形成 is formed with a diameter-enlarged portion lu for the spin-on phthalocyanine (second elastic member) 13, and is formed at the front end The enlarged diameter portion of one of the locking members 15 is formed. Further, the enlarged diameter portion 内 formed on the inner circumference of the distal end portion forms a second convex portion, and the center between the expanded portion 11 a and the enlarged diameter portion 1 1 b ° <non-expanded portion 16 1339141 C forms a first cam surface. That is, when the locking member 15 abuts against the enlarged diameter portion 1 1 b fli » τ 'the outer periphery of the locking member 15 from the crotch portion 1B Face 1a prominent
狀態之兮Φ iL σ大出部分被收容,另一方面,當該卡止構件1 5 抵接於该非擴徑部11C時,該卡止構件15被朝内徑方推壓, 成為卡止構件丨5從胴部1Β之内周面突出之狀態。 並且’該螺旋彈簧13,係以内周沿心轴本體1之外周 面1 a、且外周大致沿第2套筒11之該擴徑部1 lb内周的 狀態配置。 並且,於該柄安裝孔2内’配設有能沿孔長邊方向(軸 方向)移動自如,且具有冷卻劑通過孔2〇p之第1套筒2〇。 又’於該柄安裝孔2之形成有該保持孔ig的下方位置, 配設有停止環構件之第丨停止環2 1,用以限制該第1套筒 20進一步朝下方移動。並且,該第i套筒2〇,藉由配設 於其基端方之螺旋彈簧(第1彈性構件)22,朝前端方彈壓。 然而’該第1停止環21 ’如圖8之放大圖所示,具備 最小径部分小於後述之柄3 0基端之外徑r 1的内徑r 1,且, 於沒有外力作用之狀態下,具備最大徑部分大於後述之卡 止用凹部之外徑R2的外徑r2,且於俯視時,具有相對假 想真圓形成一部分突出於外徑方且另一部分退縮之波形環 狀之形態。又,β亥第1停止環2 1,係由彈簧鋼等彈性構件 構成,藉由柄30之前端抵接,至少内周部能在厚度方向 變形使内徑尺寸擴大。 並且,該第1停止環21,藉由卡止於環設在該柄安裝 孔2之内周面的該卡止用凹部lk(參照圖7)内,固定於其 17 1339141 套筒π藉由該卡止構件15, 弊 成為不能朝下方移動之狀態。 且於此種狀態,該碟祐强菩 茨螺奴弹黃13成為被壓縮狀態。 插裝於5玄心Α夕*ΐ~» Μ+ —, 釉Α之柄女裝孔2之刀具C之柄30,構 成如下。即,該柄3 0之外徑,形士、A丄L姑从#丄—姑 1 形成為大致等於該柄安裝 孔 30 2之内徑的尺寸(正確而 基端之外周緣,如圖4In the state 兮 Φ iL σ, the large portion is accommodated. On the other hand, when the locking member 15 abuts against the non-expanded portion 11C, the locking member 15 is pressed toward the inner diameter to be locked. The state in which the member 丨 5 protrudes from the inner peripheral surface of the cymbal 1 。. Further, the coil spring 13 is disposed such that the inner circumference is along the outer peripheral surface 1 a of the mandrel main body 1 and the outer circumference is substantially along the inner circumference of the enlarged diameter portion 1 lb of the second sleeve 11 . Further, a first sleeve 2'' which is movable in the longitudinal direction of the hole (axial direction) and has a coolant passage hole 2〇p is disposed in the shank attachment hole 2. Further, the first mounting hole 2 is formed at a position below the holding hole ig, and a second stop ring 2 1 for stopping the ring member is disposed to restrict the first sleeve 20 from moving further downward. Further, the i-th sleeve 2 is biased toward the distal end by a coil spring (first elastic member) 22 disposed at the proximal end thereof. However, the first stop ring 21' has an inner diameter r 1 whose outer diameter r 1 is smaller than the outer diameter r 1 of the base end of the shank 3 described later, as shown in an enlarged view of Fig. 8, and is in a state where no external force is applied. The outer diameter r2 having the largest diameter portion larger than the outer diameter R2 of the locking recessed portion to be described later is formed, and has a shape in which a portion of the outer diameter is protruded from the outer diameter and the other portion is retracted in a circular shape in a plan view. Further, the β-first stop ring 21 is composed of an elastic member such as spring steel, and at least the inner peripheral portion can be deformed in the thickness direction to enlarge the inner diameter by the front end of the shank 30 abutting. Further, the first stop ring 21 is fixed to the sleeve recess lk (see FIG. 7) provided on the inner circumferential surface of the shank attachment hole 2 by the ring, and is fixed to the sleeve π by the 17 1339141 This locking member 15 has a disadvantage that it cannot move downward. And in this state, the dish is a compressed state. Inserted in 5 玄心Α ΐ ΐ ΐ » » » » » » » » » » — — — — — — 女装 女装 女装 女装 女装 女装 女装 女装 女装 女装 女装 女装 女装 女装That is, the outer diameter of the shank 30, the shape of the 士, A 丄 姑 从 丄 丄 姑 姑 姑 姑 姑 姑 姑 姑 姑 姑 姑 姑 姑 姑 姑 姑 姑 姑 姑 姑 姑 姑 姑 姑 姑 姑 姑 姑 姑 姑 姑 姑 姑
工),使基端之外經尺寸小於該第玉 徑部分。經去角加工之部分,在圖 Tf; 〇 言係梢微小之尺寸),且於該栖 所不’有施以去角加工(錐形加 停止環21内周之最小 4係以參照符號33表 並且’於從該柄30之基端稍微前端方之位置,在周方 向彼此分離之複數處(本實施例係3處)形成有用以收容該 卡止構件I 5之—都公之i^n ar 1 口丨刀之凹。p 31 〇此周方向之配置節距, 構成為與該卡止構件15之固^m 僻1干ίο乏周方向之配置節距相等。但是, 亦可構成該複數處之配置節距為哕士 丨已钩忒卞止構件1 5之配置節 距之1 / 2或1 /4之節距。The outer diameter of the base end is smaller than the diameter of the first jade. The part subjected to the chamfering process is in the figure Tf; the rumor is the tiny size of the tip, and the corner is not applied in the habitat (the smallest 4 series of the inner circumference of the cone plus the stop ring 21 is referred to by reference numeral 33). And at a plurality of positions separated from each other in the circumferential direction from the base end of the shank 30 (the third embodiment of the present embodiment) is formed to accommodate the locking member I 5 - n ar 1 丨 之 。 。 。 p p p p p p p p p p p p p p p p p p p p p p p p p p p p p p p p p p p p p p p p p p p p p p p p The configuration pitch of the plurality of points is a pitch of 1 / 2 or 1 / 4 of the configuration pitch of the gentleman's hooked member 15.
又0亥凹0P 31,在刀具C之長邊方向(軸方向)形成J 長孔狀,使即使於收容有該卡止構件15之一部分之狀庚 下仍能在軸方向移動。在本實施例,大致將該凹部Η ^ 長徑構成為短徑之2〜3倍左右。但並不限定於該數值,屯 可視必要,配合使該閥體5移動之移動量,例 1.5-4倍,或1.3〜6倍。 ” 在本實施例,刀具C’如圖4等所示,雖由刀具本楚 4〇,與-體安裝於其上端方且用以安裝於心轴α之安 件4]構成,但當然亦可將上述構件物理地—體化來構成 19 之刀具C。 又,刀具C之種類,可如本實施例為取心刀具之形態 者,亦可為取心刀具以外之形態者。 如此,利用如上述構成之本柄安裝料,能如下述將 刀具c之柄30裝卸於心軸A之柄安裝孔2,且,能於將 遠柄30安裝於柄安裝2之狀態下,穿孔時,將冷卻劑 通過心軸A之内部供應至刀具 舟i之刚端。即,在欲將刀具 C安裝(插裝)於心轴A時,如圓4 a 一 ^ 町如圖4所圖示,該刀具C之柄 〇係在一致於心抽A之;te史壯7丨、 柄女裝孔2之狀態下,將該刀具c 逐漸插入柄安裝孔2内。# β 並且’於上述插入之過程,當該 刀具c之基端抵接於該停止環21時該刀具〔之去角加 工之部分33能使停止環21變形(擴徑),因此,能使柄3〇 進一步插入柄安裝孔2内。 # 並且,右如此繼續插入,該柄 30之基端抵接使該第1套芮 蒼同20朝基端方移動,於該移動 時,該卡止構件15,從該坌!太姑 L 第1套绮20之外周面轉移至柄 30之外周面。並且,該卡 止構件15進入柄30之該凹部31 後’該卡止構件15朝内禋 方移動’從該胴部1B之外周面 1 a突出之卡止構件1 $便知允 n 朝内徑方退縮。其結果,受該螺 方疋择黃13朝前端方彈壓 ^ „ 评登之第2套筒11便朝前端方移動。 在此狀態,第2套筒1 1之兮每, 仪拄估丰L °Λ第1凸輪面的該非擴徑部1 1 c, 保持使卡止構件1 5朝内 , 巧仏方移動之狀態。因此,如圖5 所圖不,透過該卡止構件15, « , rj m η ^ 刀具C卡止於心軸Α,其結 果刀c成為一體保持於 τ % %軸a側之狀態。 '、’且於此狀態下,在估锋η B广 吏該刀具C之前端抵接於被切Further, 0 hole 31 is formed in the longitudinal direction (axial direction) of the tool C to form a J-hole shape, so that it can move in the axial direction even if a part of the locking member 15 is accommodated. In the present embodiment, the concave portion 长 ^ long diameter is formed to be approximately 2 to 3 times the short diameter. However, it is not limited to this value, and the amount of movement of the valve body 5 may be adjusted as necessary, for example, 1.5 to 4 times, or 1.3 to 6 times. In the present embodiment, as shown in FIG. 4 and the like, the tool C' is composed of a tool and a body 4 attached to the upper end thereof and mounted on the spindle α. The above-described members can be physically formed to form the tool C of 19. The type of the tool C can be the form of the coring tool as in the present embodiment, or can be a form other than the coring tool. According to the handle mounting material configured as described above, the handle 30 of the tool c can be attached and detached to the shank mounting hole 2 of the spindle A as described below, and when the distal shank 30 is attached to the shank mounting 2, the shank can be punctured. The coolant is supplied to the rigid end of the tool boat i through the inside of the mandrel A. That is, when the tool C is to be mounted (inserted) to the mandrel A, as shown in FIG. 4, the circle 4 a The shank of the tool C is in the same manner as the heart pumping A; the state of the stalk is 7 丨, and the shank hole 2 is inserted, the tool c is gradually inserted into the shank mounting hole 2. #β and 'in the above insertion process When the base end of the cutter c abuts against the stop ring 21, the portion 33 of the chamfering process can deform (expand the diameter) of the stop ring 21, therefore, The handle 3〇 is further inserted into the handle mounting hole 2. # Also, the right side continues to be inserted, and the base end of the handle 30 abuts to move the first set of the same pair of 20 to the base end, and during the movement, the lock The member 15 is transferred from the outer peripheral surface of the first set of cymbals 20 to the outer peripheral surface of the shank 30. Further, after the locking member 15 enters the concave portion 31 of the shank 30, the locking member 15 faces inwardly. The movement member's locking member 1 that protrudes from the outer peripheral surface 1a of the crotch portion 1B is allowed to retract toward the inner diameter. As a result, the yellow square 13 is pressed toward the front end by the screw. The second sleeve 11 moves toward the front end. In this state, the non-expanded diameter portion 1 1 c of the first cam surface of the second sleeve 1 1 is maintained, and the locking member 15 is held inward, and the state of the movement is moved. . Therefore, as shown in Fig. 5, through the locking member 15, « , rj m η ^ the tool C is locked to the spindle Α, and the result of the knife c is integrally held on the τ % % axis a side. ',' and in this state, the front end of the tool C is abutted at the front end of the tool θ B
20 1339141 削面之狀態進一步從基端側推壓刀具c,該刀具c之柄3〇 會成為進一步插入心軸A之柄安裝孔2内之狀態,而如圖 6所圓示’該第1套筒2〇於柄安裝孔2内進一步朝基端方 移動,該第1套筒20之推壓部20t使該閥體5朝基端方移 動。於此狀態下,該柄安裝孔2與該第i冷卻劑供應通路 7連通。因此,冷卻劑經過第1冷卻劑供應通路7、柄安 裝孔2及冷卻劑通過孔2〇p供應至刀具c之前端方。 a並且,本柄安裝構造之情形,若該冷卻劑之供應量不 適當時,藉由調節該流量調整器16,即,藉由將該調整用 灰紅16D朝順時針方向或反時針方向旋轉能使該孔1⑼ 之内周面與蕊構件16A之外周面之間的間隱:…變化,以 :應合適於該切削狀況之適量冷卻劑。具體而t,能從如 所圖不,形成使該孔16B之内周面與蕊構件“A之 二周面緊貼造成無該間隙16a之狀態’形成如圖 &適於該調節量之間隙16a之狀態。 將心要從心軸八卸下刀具c時,藉由對該胴部I 〜第套靖11朝基端方滑動操作,成為 朝夕卜仰古ί* 4 下止構件1 5能 朝外k方移動之狀態’在此狀態下 彈簧22之伸详六",甘 ^精由該螺旋 狎張力,從基端方推壓之結果 被朝外徑方推屮甘从田 便》亥卡止構件15 推出。其結果’使刀具C與心軸 態解除,能蔣77目神A間之卡止狀 字刀具C簡单地從心軸A卸下。 (實施例2) 在6玄實施例1,雖為限制該第1套 動,而設置第丨P 更朝前端方移 第1知止%21於該第1套筒20之前端方,但20 1339141 The state of the noodles further pushes the cutter c from the base end side, and the shank 3 of the cutter c becomes a state of being further inserted into the shank mounting hole 2 of the spindle A, and as shown in Fig. 6, the first set The cylinder 2 is further moved toward the base end in the shank attachment hole 2, and the pressing portion 20t of the first sleeve 20 moves the valve body 5 toward the base end. In this state, the shank mounting hole 2 communicates with the i-th coolant supply passage 7. Therefore, the coolant is supplied to the front end of the cutter c through the first coolant supply passage 7, the shank mounting hole 2, and the coolant passage hole 2?p. a. In the case of the handle mounting structure, if the supply amount of the coolant is not appropriate, the flow regulator 16 can be adjusted, that is, by rotating the adjustment grayish 16D clockwise or counterclockwise. The gap between the inner circumferential surface of the hole 1 (9) and the outer circumferential surface of the core member 16A is changed so that an appropriate amount of the coolant should be appropriate for the cutting condition. Specifically, t can be formed such that the inner circumferential surface of the hole 16B is in close contact with the two circumferential surfaces of the core member "A without the gap 16a" as shown in the figure, and is suitable for the adjustment amount. In the state of the gap 16a, when the cutter c is to be removed from the mandrel 8, the sliding operation is performed on the base portion I to the first sleeve 11 toward the base end, thereby becoming an illuminating member. In the state of the k-direction moving outwards, the spring 22 is extended in this state. The hi-lock member 15 is pushed out. As a result, the tool C and the mandrel state are released, and the card-shaped tool C between the two can be easily removed from the mandrel A. (Embodiment 2) At 6 In the first embodiment, although the first movement is restricted, the first 丨P is moved further toward the front end, and the first known %21 is at the front end of the first sleeve 20, but
21 工339l4i 亦能構成如圖11所圖示之實施例2來取代。即, 在本實施例2 ’將㈣徑方隸之突起部咖環設於 ;!第1套冑120之基端部,且將第3套筒U0裝卸自如地 女裝於洞部101Β内,該第3衣钱1 Λ么 門。茨弟3套疴140係將冷卻劑供應孔1〇3 形成於内徑方且於前端之内周方環設有向内徑方突設之突 起部103r。並且,於贫笛】太松 於該第1套筒120之突起部12〇r之前21 339l4i can also be replaced by embodiment 2 as illustrated in FIG. In other words, in the second embodiment, the fourth ring U0 is detachably attached to the base end portion of the first sleeve 0120, and the third sleeve U0 is detachably attached to the hole portion 101Β. The third money is 1 Λ Λ. The Zhí's three sets of 疴140 are formed with the coolant supply hole 1〇3 formed on the inner diameter side, and the inner peripheral ring of the front end is provided with a projecting portion 103r protruding toward the inner diameter. And, before the toe flute is too loose before the protrusion 12〇r of the first sleeve 120
端方配設停止環140,使該第1套筒12〇不會從胴部101BThe end ring is provided with a stop ring 140 so that the first sleeve 12 does not pass from the jaw portion 101B.
之柄安裝孔H)2朝前端方突出。又,於該第3套冑i4〇之 基端方之内周面形成擴徑之段部14〇a,藉由配設。型環刚 於該段部140a,使與閥體1〇5之間封閉冷卻劑。 若構成如上述,與實施例1之構成之柄安裝構造比較, 雖構造上稍微複雜,但於耐久性觀點為優良構成。又,在 表示本實施例2之圖U,對與實施例i之構成中的主要構 成相同構成或對應之構成’使用在該實施W i之構成所用 之參照符號加± 100的參照符號,賓略重複之說明。 (實施例3) 在上述實施例1、2,從冷卻劑供應孔3,1〇3進行冷卻 劑之供應或停止,所用之閥冑5,1〇5雖採用球體,但:可 ^圖12,圖13所圖示,間體2〇5採用直徑在基端部與前端 部不同且具有在中間部位向前端方縮徑之錐形包覆面Μ。 、外周面的圓柱體狀來取代。即使在此種構成之情形,於 冷部劑之供應時,亦可發揮與實施例1及實施例2基本上 相同作用。即,於連接在該圓柱體狀之閥體2〇5之前端方 的粗輕部2G5B前端,藉由刀具2〇()C之柄23〇基端抵接並 22 1339141 進一步推壓,使該閥體205從配設於該冷卻劑供應孔2〇3 之前端部之〇型環204離開,而能從形成於其間之間隙s(參 照圖13)’供應冷卻劑至心軸200A之柄安裝孔202内。又, 在本實施例3,於閥體205之下方部位與該閥體2〇5 一體 形成有發揮閥體操作構件功能之該粗徑部2〇5B ^因此,在 本實施例3,與該實施例1及實施例2不相同,後述之第 1套筒220,沒有推壓閥體205使其從〇型環2〇4離開之 ^ 功能。又,亦可取代本實施例3之構成,而採用將與該閥 體205 —體形成之閥體操作構件作成獨立個體的構成。 又’本貫施例3之柄安裝構造之情形,係使用螺旋彈 簧作為第1套筒220,來取代實施例1,2之第1套筒20,120 ; - 藉由έ亥螺旋彈簧,能將卡止構件2 15朝外徑方推出。又, 構成該第丨套筒22〇之螺旋彈簧,亦兼備實施例丨之螺旋 單ir 2 2貫施例2之螺旋彈簧12 2的功能。即’却下刀具 200C時’可發揮以彈性力將該刀具2〇〇c從柄安裝孔2〇2 φ 朝外方推出的功能。若如此構成,因能減低構件數目,故 成為較佳構成。 又’在表示本實施例3之圖12,圖13,對與實施例1 之構成中的主要構成相同構成或對應之構成使用在該實 知*例1之構成所用之參照符號加上200的參照符號,省略 重複或實質上重複之說明。 本發明不限於該實施例1〜3所述者,於相同技術思想 之圍内’能以各種變更之形態實施則不必多言。 本發明之柄安裝構造,能利用於對搪床、手提式動力The handle mounting hole H) 2 protrudes toward the front end. Further, the inner peripheral surface of the base of the third set of 胄i4 is formed with a step portion 14〇a having an enlarged diameter, and is disposed. The ring is just adjacent to the section 140a to seal the coolant from the valve body 1〇5. As described above, the structure is slightly complicated in comparison with the shank mounting structure of the first embodiment, but is excellent in terms of durability. In addition, in the diagram U of the second embodiment, the configuration of the main configuration of the embodiment i is the same as or the corresponding configuration. The reference symbol used in the configuration of the implementation of Wi is added with a reference symbol of ±100. Slightly repeated instructions. (Embodiment 3) In the above-described Embodiments 1 and 2, the supply or the stop of the coolant is performed from the coolant supply holes 3, 1〇3, and the valve 胄5, 1〇5 used is a sphere, but: As shown in Fig. 13, the inter-body 2〇5 has a tapered covering surface having a diameter different from that of the distal end portion and having a diameter reduced toward the distal end at the intermediate portion. The outer peripheral surface is replaced by a cylindrical shape. Even in the case of such a configuration, substantially the same effects as those of the first embodiment and the second embodiment can be exerted when the cold component is supplied. That is, the front end of the thick and light portion 2G5B connected to the end of the cylindrical valve body 2〇5 is further pressed by the base end of the shank 23〇 of the cutter 2〇C, and 22 1339141 is further pressed. The valve body 205 is separated from the 〇-shaped ring 204 disposed at the end of the coolant supply hole 2〇3, and can be supplied from the gap s (refer to FIG. 13) formed therebetween to the shank of the mandrel 200A. Inside the hole 202. Further, in the third embodiment, the large diameter portion 2〇5B which functions as the valve body operating member is integrally formed with the valve body 2〇5 at a lower portion of the valve body 205. Therefore, in the third embodiment, The first embodiment and the second embodiment are different. The first sleeve 220, which will be described later, does not have the function of pressing the valve body 205 away from the 〇-shaped ring 2〇4. Further, instead of the configuration of the third embodiment, a valve body operating member formed integrally with the valve body 205 may be formed as a separate individual. In the case of the handle mounting structure of the present embodiment 3, a coil spring is used as the first sleeve 220 instead of the first sleeve 20, 120 of the first embodiment, the second sleeve 20, 120; The stopper member 2 15 is pushed out toward the outer diameter. Further, the coil spring constituting the second sleeve 22 is also provided with the function of the coil spring 12 2 of the embodiment 2 of the spiral single ir 2 2 embodiment. In other words, when the lower cutter 200C is used, the tool 2〇〇c can be pushed out from the shank attachment hole 2〇2 φ toward the outside by elastic force. According to this configuration, since the number of components can be reduced, it is preferable. In addition, FIG. 12 and FIG. 13 showing the third embodiment of the present embodiment have the same configuration or corresponding configuration as the main configuration of the first embodiment, and the reference numerals used in the configuration of the known example 1 are added to 200. The reference numerals are omitted, and the description of the repetition or the repetition is omitted. The present invention is not limited to the above-described embodiments 1 to 3, and it is needless to say that it can be implemented in various modifications within the scope of the same technical idea. The handle mounting structure of the present invention can be utilized for a trampoline and portable power
23 1339141 裝卸 鑽、健打鑽等之刀具等之 【圖式簡單說明】 圖1係從本發明實施例1之柄安裝構造之心轴之穿孔 裝置安裝側所見的俯視圖。 之^轴之穿孔 圖2為從圖1之n — 針頭方向所見的圖,表示邱八 剖面之内部構造的側視圖。 表丁口P刀23 1339141 Loading and unloading tools such as drills, drills, etc. [Brief Description of the Drawings] Fig. 1 is a plan view seen from the mounting side of the perforating device of the mandrel of the shank mounting structure according to the first embodiment of the present invention. The perforation of the shaft is shown in Fig. 1 as a view from the direction of the needle of Fig. 1, showing a side view of the internal structure of the Qiu Ba section. Table D mouth knife
圖3係從圖2之瓜m薪十A 皿箭頭方向所見之柄安裝構造之 心軸的仰視圖。 苒之 圖4係表示在尚未將該刀 你八固1所不之心軸 狀態下’該心軸與刀具部分剖面之内 的側視圖。 …構成之柄安褒構造 圖5係表示從圖4所示之狀態完成將刀具之柄插入心 軸之柄安裝孔的狀態,部分剖面之内邱 構成之柄安裝構 造的側視圖。 所示之狀態完成進—步將刀具插入 部分剖面之内部之構成之柄安裝構 圖6係表示從圖 基端側而穿設的狀態 造的側視圖。 圖7係從底面方透視柄安裂孔的圖,# ^ 表不將第1停止 環插裝於柄安裝孔内之卡止用凹部,該第〗严 1停止環有部分 從柄安裝孔内周面朝内徑方突出的狀態。 圖8係表示圖7所示之第1停止環之捲Λ、 構成的俯視圖。 圖9係將圖2所示之柄安裝構造之流晋 里碉整器之構成 以部分剖面表示的圖。 24 1339141 圖1 〇係表示圖9所示之流量調整器被調整為未供應冷 卻劑之狀態的圖。 圖1 1係將與圖1〜圖1〇所示之實施例不同之實施例(實 把例2)的柄安襞構造之構成部分剖面表示的側視圖。 圖12係將與該實施例1及該實施例2不同之實施例(實 她例3)的柄安裝構造部分剖面表示的側視圖,係表示尚未 將刀具安裝於心軸之狀態的圖。 圖13係將從圖12所示之狀態將刀具之柄插裝於柄安 裝孔後進一步插入於基端側而穿設的狀態,以部分剖面表 示之柄文襄構造的側視圖。 【主要元件符號說明】 A :心軸 C :刀具 2 :柄安裝孔Figure 3 is a bottom plan view of the mandrel of the shank mounting structure seen from the direction of the arrow in Figure 2.图 Figure 4 shows a side view of the mandrel and the section of the tool section in the state of the mandrel that has not yet been used. Fig. 5 is a side view showing the state in which the shank of the tool is inserted into the shank mounting hole of the mandrel from the state shown in Fig. 4, and the shank mounting structure is formed in a partial cross section. The state shown in Fig. 6 is a side view of the state in which the cutter is inserted into the inside of the partial section. Fig. 7 is a view showing the cleavage hole of the shank from the bottom surface, #^ shows the locking recessed portion in which the first stop ring is inserted into the shank mounting hole, and the first stern 1 stop ring has a part from the inner circumference of the shank mounting hole The state of protruding toward the inner diameter. Fig. 8 is a plan view showing a configuration of a first stop ring of Fig. 7; Fig. 9 is a partial cross-sectional view showing the configuration of the flow trimmer of the shank mounting structure shown in Fig. 2. 24 1339141 Fig. 1 shows a diagram in which the flow regulator shown in Fig. 9 is adjusted to a state in which no coolant is supplied. Fig. 1 is a side elevational view, partly in section, of the shackle structure of the embodiment (actual example 2) different from the embodiment shown in Figs. 1 to 1B. Fig. 12 is a side elevational view, partly in section, of the shank mounting structure of the embodiment (actual example 3) different from the first embodiment and the second embodiment, showing a state in which the cutter has not been attached to the mandrel. Fig. 13 is a side view showing a state in which the shank of the tool is inserted into the shank mounting hole and inserted into the shank side from the state shown in Fig. 12, and the shank structure is partially cut away. [Main component symbol description] A : Mandrel C : Tool 2 : Handle mounting hole
3 :冷卻劑供應孔 4 :密封構件 5 :閥體 1 5 :卡止構件 2():第1套筒 1B :胴部 30 :柄 3 1 :凹部 253: coolant supply hole 4: sealing member 5: valve body 1 5 : locking member 2 (): first sleeve 1B: crotch portion 30: shank 3 1 : recess 25
Claims (1)
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Application Number | Priority Date | Filing Date | Title |
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PCT/JP2007/060233 WO2007138890A1 (en) | 2006-05-31 | 2007-05-18 | Shank attaching structure |
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TW200846107A TW200846107A (en) | 2008-12-01 |
TWI339141B true TWI339141B (en) | 2011-03-21 |
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TW096132712A TW200846107A (en) | 2007-05-18 | 2007-09-03 | Shank attaching structure |
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CN111376060A (en) * | 2018-12-27 | 2020-07-07 | 宁波江丰电子材料股份有限公司 | Fixed base and sputtering target lathe comprising same |
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