| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 用于形成连杆的断裂狭槽的加工装置 | CN200410069639.1 | 2004-07-15 | CN1302892C | 2007-03-07 | 百濑保雄; 太田薰雄 |
| 当在本体(16)上的旋转驱动源(58)通电时,驱动皮带轮(62)旋转,且旋转驱动力通过驱动力传递皮带(68)而从驱动皮带轮(62)传递给从动皮带轮(64)。与从动皮带轮(64)连接成一体的开槽机构(26)旋转并插入确定于连杆(20)的较大端部孔(22)中。开槽机构(26)的切刀(40)在较大端部孔(22)的内周表面中形成具有基本V形截面的第一狭槽(90),然后在较大端部孔(22)的内周表面中在穿过连杆(20)的轴线(D)的、对着第一狭槽(90)的位置处形成具有基本V形截面的第二狭槽(92)。该第一和第二狭槽(90、92)具有对称形状。 | ||||||
| 2 | 一种连杆铣槽用夹具及其使用方法 | CN201610506822.6 | 2016-06-30 | CN105904254A | 2016-08-31 | 梁森; 杨先锋; 古恒; 袁丽华 |
| 本发明公开了一种连杆铣槽用夹具及其使用方法,该夹具包括夹具底板,夹具底板通过紧固件和导向键固定于铣床工作台,在夹具底板上表面开有至少两条滑槽,用于定位连杆小端中心孔或定位连杆大端中心孔的第一销在滑槽内可移动;用于定位连杆大端中心孔或定位连杆小端中心孔的第二销,该第二销固定在夹具底板上;根据两条(或多条)滑槽的位置,旋转连杆,来对连杆端面的多个端槽进行铣槽,通过滑槽及滑块的设置,使得第一销和第二销之间的距离可调,进而实现不同孔距的连杆的固定,而且实现连杆大端与小端调换的情况下,亦能铣槽,同时,配合多条滑槽的设置,只需移动连杆某一头的位置,既可以实现连杆另一头端槽的铣槽。 | ||||||
| 3 | 具有工件更换装置的机床 | CN201480043031.3 | 2014-07-02 | CN105579191A | 2016-05-11 | R.布克哈特; H.法伊费尔; M.格格勒; U.海尔曼; M.克里格; U.施特劳布 |
| 本发明涉及一种用于对工件(P)进行工件加工的机床(10),其中,该机床(10)具有至少一个带有至少一个工作主轴(24)的第一主轴总成,在所述工作主轴上能够布置用于工件加工的加工刀具(25),其中,所述机床(10)具有用于保持工件(P)的工件保持装置(50)用于利用所述加工刀具(25)进行工件加工,其中,所述机床(10)具有用于相对定位保持所述工件(P)的工件保持装置(50)和所述第一主轴总成(21)的引导装置(30)用于工件加工,其中,所述引导装置(30)包括工件架引导件(59、62)用于引导工件保持装置(50),该工件保持装置用于相对于所述第一主轴总成(21)定位保持所述工件(P)的工件架(51)。在所述机床(10)中提出,所述机床具有工件更换装置(90),尤其是工作机器人(91),用于在所述工件保持装置(50)上更换工件(P),所述工件更换装置在通过相应的加工刀具(25)进行工件加工期间一起进行所述工件架(51)的定位运动并且设计用于在通过所述第一主轴总成(21)对其它由所述工件架(51)保持的工件(P)进行工件加工期间在所述工件架(51)上更换至少一个没有处于工件加工中的工件(P)。 | ||||||
| 4 | 一种连杆凹凸槽铣床 | CN201410690072.3 | 2014-11-25 | CN104551142A | 2015-04-29 | 童恩义 |
| 本发明公开了一种连杆凹凸槽铣床,涉及机械加工领域,包括机架和连杆夹具,连杆夹具与机架活动连接,机架上端设有转轴,转轴上固定连接有凸槽铣刀和凹槽铣刀,连杆夹具包括夹具架和连杆定位块,夹具架内部设有连杆盖定位槽。本发明结构简单,操作方便,可以实现将连杆体和连杆盖同时铣凹凸槽,且能有效保证它们铣凹凸槽时可以准确定位,提高了凹凸槽洗出的效率同时保证了连杆体和连杆盖上的凹凸槽相适配。 | ||||||
| 5 | 具有工件更换装置的机床 | CN201480043031.3 | 2014-07-02 | CN105579191B | 2017-11-07 | R.布克哈特; H.法伊费尔; M.格格勒; U.海尔曼; M.克里格; U.施特劳布 |
| 本发明涉及一种用于对工件(P)进行工件加工的机床(10),其中,该机床(10)具有至少一个带有至少一个工作主轴(24)的第一主轴总成,在所述工作主轴上能够布置用于工件加工的加工刀具(25),其中,所述机床(10)具有用于保持工件(P)的工件保持装置(50)用于利用所述加工刀具(25)进行工件加工,其中,所述机床(10)具有用于相对定位保持所述工件(P)的工件保持装置(50)和所述第一主轴总成(21)的引导装置(30)用于工件加工,其中,所述引导装置(30)包括工件架引导件(59、62)用于引导工件保持装置(50),该工件保持装置用于相对于所述第一主轴总成(21)定位保持所述工件(P)的工件架(51)。在所述机床(10)中提出,所述机床具有工件更换装置(90),尤其是工作机器人(91),用于在所述工件保持装置(50)上更换工件(P),所述工件更换装置在通过相应的加工刀具(25)进行工件加工期间一起进行所述工件架(51)的定位运动并且设计用于在通过所述第一主轴总成(21)对其它由所述工件架(51)保持的工件(P)进行工件加工期间在所述工件架(51)上更换至少一个没有处于工件加工中的工件(P)。 | ||||||
| 6 | 一种高效加工曲轴连杆的组合数控铣床 | CN201510226209.4 | 2015-04-24 | CN104858483A | 2015-08-26 | 沈良永; 俞湘; 黄吉能; 伍爱民; 陈营国; 储善谦; 张伟平 |
| 本发明公开了一种高效加工曲轴连杆的组合数控铣床,包括床身(1)、A机组(2)、B机组(3)、C机组(4)。本发明采用床身上面设有工作台、AY轨面BY轨面和CY轨面;A机组位于AY轨面上,B机组位于BY轨面上,C机组位于CY轨面上;工作时,连杆坯件固定装夹在工作台上,围绕连杆坯件,A机组加工螺栓孔,B机组加工衬套孔,C机组加工轴瓦合符孔,通过一次性装夹联合切削加工获得连杆整件的技术方案,使曲轴连杆的加工达到了简化工艺、提高效率、降低成本的目的。 | ||||||
| 7 | 用于形成连杆的断裂狭槽的加工装置 | CN200410069639.1 | 2004-07-15 | CN1575896A | 2005-02-09 | 百濑保雄; 太田薰雄 |
| 当在本体(16)上的旋转驱动源(58)通电时,驱动皮带轮(62)旋转,且旋转驱动力通过驱动力传递皮带(68)而从驱动皮带轮(62)传递给从动皮带轮(64)。与从动皮带轮(64)连接成一体的开槽机构(26)旋转并插入确定于连杆(20)的较大端部孔(22)中。开槽机构(26)的切刀(40)在较大端部孔(22)的内周表面中形成具有基本V形截面的第一狭槽(90),然后在较大端部孔(22)的内周表面中在穿过连杆(20)的轴线(D)的、对着第一狭槽(90)的位置处形成具有基本V形截面的第二狭槽(92)。该第一和第二狭槽(90、92)具有对称形状。 | ||||||
| 8 | Machine Tool Having a Workpiece Changing Device | US14908199 | 2014-07-02 | US20160167184A1 | 2016-06-16 | Rainer Burkhardt; Hans Feifel; Markus Goggerle; Ulrich Heiermann; Manfred Krieger; Ulrich Straub |
| A machine tool for machining workpieces, wherein the machine tool has at least one first spindle assembly with at least one working spindle on which a machining tool for workpiece machining is arrangeable, wherein the machine tool has a workpiece holding device for holding workpieces for the purpose of workpiece machining by way of the machining tool, wherein the machine tool has a guide arrangement for the relative positioning of the workpiece holding device holding the workpieces and the first spindle assembly for workpiece machining, wherein the guide arrangement comprises a workpiece-holder guide for guiding the workpiece holding device so as to position a workpiece holder holding the workpieces relative to the first spindle assembly. | ||||||
| 9 | Machine Tool | US14343654 | 2012-09-17 | US20140223711A1 | 2014-08-14 | Roland Feichtl; Gerold Schwarzwaelder |
| The invention discloses a machine tool for machining workpieces comprising a frame by means of which a working space is delimited and by which accommodating compartments are formed in which a first machining module and a workpiece carrier are retained, wherein predominantly the workpiece carrier is movable along at least one guide, especially an X and/or Y and/or Z guide, for machining the workpieces. The first machining module of the machine tool includes at least five tool spindles which, or rather the tools of which, simultaneously can be engaged in a respective one of the workpieces. | ||||||
| 10 | MACHINE TOOL | US15302144 | 2015-04-01 | US20170113311A1 | 2017-04-27 | Jorge IBARRA; Ibon IRIBARREN; Robert Joseph HEALY |
| The machine tool includes a workpiece carrier assembly arranged for horizontal movement in parallel to a horizontal axis and a tool carrier configured for carrying at least one tool for machining at least one workpiece by rotating the tool. The workpiece carrier assembly or the tool carrier is displaceable between an operative position in which a workpiece carrier is facing the tool carrier, and at least one inoperative position. The workpiece carrier is arranged to be rotatable to allow for a modification of the angular position of the workpiece in relation to the tool carrier. | ||||||
| 11 | Machine Tool Having a Number of Multispindle Spindle Assemblies | US14908183 | 2014-07-01 | US20160167187A1 | 2016-06-16 | Rainer Burkhardt; Hans Feifel; Markus Goggerle; Ulrich Heiermann; Manfred Krieger; Ulrich Straub |
| A machine tool for machining workpieces, wherein the machine tool has a first spindle assembly and at least one second spindle assembly each having at least two working spindles which are arranged in a common spindle housing and on which in each case a machining tool for workpiece machining is arrangeable, wherein the machine tool has a workpiece holding device for holding workpieces for the purpose of workpiece machining by way of the machining tools, wherein the machine tool has a guide arrangement for the relative positioning of the workpiece holding device holding the workpieces and the first and the at least one second spindle assembly for workpiece machining. | ||||||
| 12 | Workpiece finder and balance mechanism | US3529510D | 1968-06-27 | US3529510A | 1970-09-22 | ALBRIGHT FRANK E; BUCEY WILLIAM W |
| 13 | チタン合金製コンロッドの製造方法 | JP2014219579 | 2014-10-28 | JP5970524B2 | 2016-08-17 | 三浦 徹; 小島 勇輝 |
| 14 | Machine tool having a workpiece changing device | US14908199 | 2014-07-02 | US09914189B2 | 2018-03-13 | Rainer Burkhardt; Hans Feifel; Markus Goggerle; Ulrich Heiermann; Manfred Krieger; Ulrich Straub |
| A machine tool for machining workpieces, wherein the machine tool has at least one first spindle assembly with at least one working spindle on which a machining tool for workpiece machining is arrangeable, wherein the machine tool has a workpiece holding device for holding workpieces for the purpose of workpiece machining by way of the machining tool, wherein the machine tool has a guide arrangement for the relative positioning of the workpiece holding device holding the workpieces and the first spindle assembly for workpiece machining, wherein the guide arrangement comprises a workpiece-holder guide for guiding the workpiece holding device so as to position a workpiece holder holding the workpieces relative to the first spindle assembly. | ||||||
| 15 | Method and Device for Machining Cracking Groove for Connecting Rod | US11662609 | 2005-11-22 | US20070256300A1 | 2007-11-08 | Hideki Okumura; Tsuguo Koguchi |
| A method and a device for machining a cracking groove for a connecting rod, wherein a drive pulley is rotated under the driving action of a rotatingly driving source installed in a body to transmit the rotatingly driving force of the drive pulley to a driven pulley through a drive force transmission belt so as to rotate a groove machining part integrally connected to the driven pulley. In the groove machining part, a spindle integrally connected to the driven pulley is rotatably supported on a support part, and a saw having a plurality of blade parts on the outer peripheral surface thereof is installed on the holding part of the spindle. A first groove of roughly V-shape in cross section is formed in the large end hole of a connecting rod by inserting the metal saw into the large end hole of the connecting rod, and a second groove of roughly V-shape in cross section which is symmetrical with the first groove is formed in the connecting rod at a position opposed to the first groove with respect to the axis of the connecting rod. | ||||||
| 16 | Machining apparatus for forming cracking slot for connecting rod | US10890130 | 2004-07-14 | US20050011924A1 | 2005-01-20 | Yasuo Momose; Sigeo Ota |
| When a rotary drive source on a body is energized, a drive pulley is rotated, and the rotary drive power from the drive pulley is transmitted to a driven pulley by a drive power transmitting belt. A slotting mechanism integrally coupled to the driven pulley is rotated and inserted into a larger end hole defined in a connecting rod. A cutter of the slotting mechanism forms a first slot having a substantially V-shaped cross section in the inner circumferential surface of the larger end hole and then a second slot having a substantially V-shaped cross section in the inner circumferential surface of the larger end hole at a position facing the first slot across the axis of the connecting rod. The first and second slots have a symmetrical shape. | ||||||
| 17 | チタン合金製コンロッドの製造方法 | JP2014219579 | 2014-10-28 | JP2016084907A | 2016-05-19 | 三浦 徹; 小島 勇輝 |
| 【課題】切削工具の高い剛性を確保できるチタン合金製コンロッドの製造方法を提供する。 【解決手段】本発明のある実施形態によれば、ボルト40を用いて大端部30のロッド部33とキャップ部34を固定するチタン合金製コンロッド1の製造方法が提供される。チタン合金製コンロッド1の製造方法は、ボルト40を挿通させるためのボルト孔32を形成する工程を含む。ボルト孔32を形成する工程は、キャップ部34からロッド部33に向かう方向に沿って、キャップ部34およびロッド部33に第1の穴61を形成する工程と、ロッド部33からキャップ部34に向かう方向に沿って、ロッド部33に第2の穴62を形成する工程とを含み、第1および第2の穴の形成後は、第1の穴61と第2の穴62とは貫通する。第2の穴62を形成するときに用いる切削工具52の長手方向LD2は、チタン合金製コンロッド1のロッド本体部10の長手方向yに対して傾いている。 【選択図】図5 |
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| 18 | Machining device of cracking groove for connecting rod | JP2003274822 | 2003-07-15 | JP2005034952A | 2005-02-10 | MOMOSE YASUO; OTA SHIGEO |
| <P>PROBLEM TO BE SOLVED: To surely and inexpensively form a pair of acute-angled cracking grooves on the inner peripheral surface of a large-ended hole of an integrally molded connecting rod to improve breakableness of the connecting rod. <P>SOLUTION: A driving pulley 62 rotates with a rotary driving source 58 provided on a body 16 driven, rotary driving force of the pulley 62 is transmitted via a driving force transmission belt 68 to a driven pulley 64, and a groove machining part 26 integrally coupled with the pulley 64 is rotated. By inserting the groove machining part 26 into the large-ended hole 22 of the connecting rod 20, a first groove with an approximately V-shaped cross section is formed by a cutter member 40 of the machining part 26, and in addition a second groove with an approximately V-shaped cross section having a symmetric shape of the first groove is formed at a position opposite to the first groove with respect to the axial line of the connecting rod 20. <P>COPYRIGHT: (C)2005,JPO&NCIPI | ||||||
| 19 | MACHINE TOOL AND METHOD THEREWITH | EP15777194.0 | 2015-04-01 | EP3129187B1 | 2018-05-02 | IBARRA, Jorge; IRIBARREN, Ibon; HEALY, Robert Joseph |
| The machine tool comprises: a workpiece carrier assembly (1) arranged for horizontal movement in parallel with a horizontal axis; a tool carrier (2) configured for carrying at least one tool (201, 202, 203, 204, 208, 212) for machining at least one workpiece by rotating said tool; said workpiece carrier assembly (1) or said tool carrier (2) being displaceable between an operative position in which a workpiece carrier (11) is facing said tool carrier (2), and at least one inoperative position; the workpiece carrier (11) being arranged to be rotatable, to allow for a modification of the angular position of the workpiece (1000) in relation to the tool carrier (2). | ||||||
| 20 | MACHINE TOOL | EP15777194.0 | 2015-04-01 | EP3129187A2 | 2017-02-15 | IBARRA, Jorge; IRIBARREN, Ibon; HEALY, Robert Joseph |
| The machine tool comprises: a workpiece carrier assembly (1) arranged for horizontal movement in parallel with a horizontal axis; a tool carrier (2) configured for carrying at least one tool (201, 202, 203, 204, 208, 212) for machining at least one workpiece by rotating said tool; said workpiece carrier assembly (1) or said tool carrier (2) being displaceable between an operative position in which a workpiece carrier (11) is facing said tool carrier (2), and at least one inoperative position; the workpiece carrier (11) being arranged to be rotatable, to allow for a modification of the angular position of the workpiece (1000) in relation to the tool carrier (2). | ||||||
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