| 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 | 切绘机 | CN201080040944.1 | 2010-05-25 | CN102497956A | 2012-06-13 | 冈部正文 |
| 本发明提供一种切绘机。该切绘机即使在以能够移动的方式支承滑架的导轨等中产生有弯曲,也能够防止由该弯曲导致切削加工的质量恶化。该切绘机包括:加工台,其用于支承片状的被加工介质;立铣刀,其设置于加工台支承的被加工介质的上方,其用于切削加工被加工介质;导轨(31)、Y杆(32)和切削驱动机构,其设置于加工台的上方,用于以能够向前后、左右或上下移动的方式支承立铣刀;控制单元(50),其用于进行使立铣刀向前后、左右或上下移动来切削加工被加工介质的控制;该切绘机还包括用于检测导轨(31)、Y杆(32)的弯曲的滑架形状测量机构(100),根据检测出的导轨(31)和Y杆(32)的弯曲进行校正加工工具的移动方向的控制。 | ||||||
| 2 | 切绘机 | CN201080040944.1 | 2010-05-25 | CN102497956B | 2014-07-23 | 冈部正文 |
| 本发明提供一种切绘机。该切绘机即使在以能够移动的方式支承滑架的导轨等中产生有弯曲,也能够防止由该弯曲导致切削加工的质量恶化。该切绘机包括:加工台,其用于支承片状的被加工介质;立铣刀,其设置于加工台支承的被加工介质的上方,其用于切削加工被加工介质;导轨(31)、Y杆(32)和切削驱动机构,其设置于加工台的上方,用于以能够向前后、左右或上下移动的方式支承立铣刀;控制单元(50),其用于进行使立铣刀向前后、左右或上下移动来切削加工被加工介质的控制;该切绘机还包括用于检测导轨(31)、Y杆(32)的弯曲的滑架形状测量机构(100),根据检测出的导轨(31)和Y杆(32)的弯曲进行校正加工工具的移动方向的控制。 | ||||||
| 3 | RAIL VEHICLE HAVING A DEVICE FOR FINISHING THE RUNNING SURFACE OF TRACK RAILS | US15500236 | 2015-07-28 | US20170314210A1 | 2017-11-02 | Helmut Rungger |
| A rail vehicle includes a milling device for finishing the running surface of track rails during the travel of the rail vehicle along the track rails. The rail vehicle has a chassis frame having wheel sets. The milling device is provided with a milling head, and includes a framework arranged on the chassis frame having a milling head receptacle, which is displaceable vertically and transversely in relation thereto. The milling head receptacle can be supported for the vertical guiding via a guide shoe on the running surface and for transverse guiding in parallel to the milling head shaft via a guide stop laterally on the railhead. The milling head receptacle forms a transverse carriage, which supports the guide shoe and the guide stop, and the guide path of which, which is vertically displaceable, is provided on the side of the milling head receptacle facing toward the guide shoe. | ||||||
| 4 | NUMERICALLY CONTROLLED MACHINE TOOL | US14888384 | 2014-04-23 | US20160082558A1 | 2016-03-24 | Byung Duk Min |
| A numerically controlled machine tool that can accurately control a position of a machining member for machining a workpiece. The numerically controlled machine tool comprises: a first post member installed on a main body slidingly in a left/right direction; and first, second and third horizontal rails installed on the main body lengthily in the left/right direction and respectively coupled to two points of the rear surface and one point of the front surface of the first post member for guiding sliding of the first post member. | ||||||
| 5 | Cutting plotter | JP2009166046 | 2009-07-14 | JP2011020202A | 2011-02-03 | OKABE MASABUMI |
| <P>PROBLEM TO BE SOLVED: To provide a cutting plotter that, even if warpage occurs in a guide rail or the like that movably supports a carriage, can prevent loss of cutting quality due to the warpage. <P>SOLUTION: The cutting plotter includes: a work table that supports a sheet-shaped medium that is being worked; an end mill that is provided above the medium supported by the work table and that cuts the medium; guide rails 31, a Y-bar 32, and a cutting drive mechanism that are provided above the work table and that support the end mill such that the end mill can move forward and backward, right and left, and up and down; and a control unit 50 that moves the end mill forward and backward, right and left, and up and down, and controls the end mill so as to cut the medium that is being worked. The cutting plotter also includes a carriage shape measurement mechanism 100 that detects warpage in the guide rails 31 and the Y-bar 32. Correction of the moving direction of a work tool is controlled on the basis of the detected warpage of the guide rails 31 and Y-bar 32. <P>COPYRIGHT: (C)2011,JPO&INPIT | ||||||
| 6 | EARTH WORKING MACHINE WHOSE ROTATABLE WORKING APPARATUS, FOR INSTALLATION ON THE MACHINE, IS CONVEYABLE INTO ITS OPERATING POSITION USING AN ONBOARD ACTUATOR | US15981015 | 2018-05-16 | US20180340299A1 | 2018-11-29 | Christian Berning; Karsten Buhr; Markus Frankemölle; Thomas Lehnert; Andreas Salz; Hardy Wilhelmi |
| An earth working machine (10) encompasses a machine body (13) having a machine frame (12) and a drive configuration (46), rotationally drivable relative to the machine frame (12) around a drive axis (A), to which configuration a working apparatus (32) embodied for earth working is releasably connected in torque-transferring fashion, in an operating position operational for earth working, for rotation together around the drive axis (A), such that when the connection is released, the working apparatus (32) is removable from the operating position in an axial direction relative to the drive configuration (46) for deinstallation from the drive configuration (46) and, for installation on the drive configuration, is conveyable into the operating position in an axial direction relative to the drive configuration (46).According to the present invention, there is provided on the drive configuration (46) an actuator (65) that encompasses an actuator member (63), movable relative to the drive configuration (46), which, when the working apparatus (32) is located, in preparation for installation thereof on the drive configuration (46), in a preparation position located axially remotely from the operating position, is conveyable directly, or indirectly with interposition of a coupling structure (94a), into installation force-transferring engagement with a counterpart coupling structure (74g) of the working apparatus (32), the working apparatus (32) being capable of being brought by the actuator (65), upon establishment of an installation force-transferring engagement, from the preparation position closer to the operating position. | ||||||
| 7 | Numerically controlled machine tool | US14888384 | 2014-04-23 | US10118264B2 | 2018-11-06 | Byung Duk Min |
| A numerically controlled machine tool that can accurately control a position of a machining member for machining a workpiece. The numerically controlled machine tool comprises: a first post member installed on a main body slidingly in a left/right direction; and first, second and third horizontal rails installed on the main body lengthily in the left/right direction and respectively coupled to two points of the rear surface and one point of the front surface of the first post member for guiding sliding of the first post member. | ||||||
| 8 | Numerical control machine-tool | US14640820 | 2015-03-06 | US09545677B2 | 2017-01-17 | Franco Pasquetto |
| A numerical control machine-tool includes: a ground-resting base plate; a movable supporting column rising cantilevered from the base plate in a substantially vertical direction and movable horizontally on said base plate; a first electronic-controlled drive assembly for moving the supporting column along the base plate; a head-carrier slide fixed in vertically sliding manner in a straight longitudinal slit extending along the front face of the supporting column parallel to the longitudinal/vertical axis of the supporting column; a second electronic-controlled drive assembly for moving the head-carrier slide along the supporting column; a straight supporting beam inserted in an axially sliding manner into the head-carrier slide and cantilevered juts out from the front face of the supporting column while remaining substantially parallel to the ground; and a third electronic-controlled drive assembly for moving the supporting beam forwards and backwards with respect to the head-carrier slide parallel to the beam longitudinal axis. | ||||||
| 9 | MILLING MACHINE | US14385176 | 2013-03-05 | US20150043986A1 | 2015-02-12 | Jose Antonio Estancona Ercilla |
| The invention relates to a milling machine comprising a frame (2) including a work surface (2.1) disposed in a vertical plane and a C-shaped moving bridge (3). In addition, the machine comprises: at least three heads (7), each head including a machining spindle (15); and five movement axes (X, Y, Z, A, B), such that the moving bridge (3) is moved by the frame (2) along a horizontal axis (X), and each head (7) is moved independently on the moving bridge (3) along a vertical axis (Y) in order to be moved towards or away from the work surface (2.1) along a depth axis (Z) perpendicular to both the horizontal axis (X) and the vertical axis (Y), as well as rotating independently about a first axis of rotation (A). Each spindle (15) rotates independently about a second axis of rotation (B). | ||||||
| 10 | CUTTING PLOTTER | US13348982 | 2012-01-12 | US20120103154A1 | 2012-05-03 | Masafumi OKABE |
| A cutting plotter includes a medium supporter, a first guide rail, a second guide rail, a carriage, a work tool, a working controller, and a second direction displacement detector. The second direction displacement detector is configured to measure a second guide rail displacement amount. The second guide rail displacement amount indicates a magnitude of displacement of a moving path of the carriage from a predetermined moving path with respect to the second guide rail in a direction perpendicular to a second direction when the carriage is moved in the second direction along the second guide rail. The working controller is configured to execute a control in which a movement control of the second guide rail on the first guide rail is added so that the second guide rail displacement amount is corrected in a movement control of the carriage on the second guide rail. | ||||||
| 11 | Portable milling tool | US508693 | 1974-09-23 | US3935788A | 1976-02-03 | Guy T. Gilmore |
| A unit for milling rectangular work members, where a machined fit is required, such as the door facings of a filter unit having a series of doors into an exchange unit, or equipment bases where a pump or turbine is being installed which requires a machined surface and it is necessary to accomplish the cut in place. | ||||||
| 12 | CUTTING PLOTTER | EP10799554.0 | 2010-05-25 | EP2455184B1 | 2017-03-15 | OKABE, Masafumi |
| 13 | CUTTING PLOTTER | EP10799554 | 2010-05-25 | EP2455184A4 | 2013-09-04 | OKABE MASAFUMI |
| 14 | EARTH WORKING MACHINE WHOSE WORKING APPARATUS IS DISPLACEABLE OUT OF ITS OPERATING POSITION USING AN ONBOARD ACTUATOR | US15981027 | 2018-05-16 | US20180340300A1 | 2018-11-29 | Christian Berning; Karsten Buhr; Markus Frankemölle; Thomas Lehnert; Andreas Salz; Hardy Wilhelmi |
| An earth working machine (10) encompasses a machine body (13) having a machine frame (12) and a drive configuration (46), rotationally drivable relative to the machine frame (12) around a drive axis (A) that defines an axial direction, that extends along the drive rotation axis (A) from an introduction longitudinal end (46a) at which the drive configuration (46) is embodied for introduction of a drive torque to a functional longitudinal end (46b) located axially oppositely from the introduction longitudinal end (46a), and to which configuration a working apparatus (32) embodied for earth working is releasably connected in torque-transferring fashion, in an operating position, for rotation together around the drive axis (A), such that when the connection is released, the working apparatus (32) is removable from the operating position in an axial direction relative to the drive configuration (46) for deinstallation from the drive configuration (46) and, for installation on the drive configuration (46), is conveyable into the operating position in an axial direction relative to the drive configuration (46), an actuator (65) being provided which is embodied to move the working apparatus (32) out of the operating position when the connection is released.According to the present invention, provision is made that an actuator housing (62) of the actuator (65) is provided on the drive configuration (46) for movement together therewith, at a position that is located closer to the functional longitudinal end (46b) than to the introduction longitudinal end (46a), an actuator member (63) of the actuator (65) being movable relative to the actuator housing (63). | ||||||
| 15 | Milling machine | US14385176 | 2013-03-05 | US09616504B2 | 2017-04-11 | Jose Antonio Estancona Ercilla |
| A milling machine including a frame (2) having a work surface (2.1) disposed in a vertical plane and a C-shaped moving bridge (3). In addition, the machine includes: at least three heads (7), each head including a machining spindle (15); and five movement axes (X, Y, Z, A, B), such that the moving bridge (3) is moved by the frame (2) along a horizontal axis (X). Each head (7) is moved independently on the moving bridge (3) along a vertical axis (Y) in order to be moved towards or away from the work surface (2.1) along a depth axis (Z) perpendicular to both the horizontal axis (X) and the vertical axis (Y), as well as rotating independently about a first axis of rotation (A). Each spindle (15) rotates independently about a second axis of rotation (B). | ||||||
| 16 | NUMERICAL CONTROL MACHINE-TOOL | US14640820 | 2015-03-06 | US20150251287A1 | 2015-09-10 | Franco Pasquetto |
| A numerical control machine-tool includes: a ground-resting base plate; a movable supporting column rising cantilevered from the base plate in a substantially vertical direction and movable horizontally on said base plate; a first electronic-controlled drive assembly for moving the supporting column along the base plate; a head-carrier slide fixed in vertically sliding manner in a straight longitudinal slit extending along the front face of the supporting column parallel to the longitudinal/vertical axis of the supporting column; a second electronic-controlled drive assembly for moving the head-carrier slide along the supporting column; a straight supporting beam inserted in an axially sliding manner into the head-carrier slide and cantilevered juts out from the front face of the supporting column while remaining substantially parallel to the ground; and a third electronic-controlled drive assembly for moving the supporting beam forwards and backwards with respect to the head-carrier slide parallel to the beam longitudinal axis. | ||||||
| 17 | Cutting plotter | US13348982 | 2012-01-12 | US08757941B2 | 2014-06-24 | Masafumi Okabe |
| A cutting plotter includes a medium supporter, a first guide rail, a second guide rail, a carriage, a work tool, a working controller, and a second direction displacement detector. The second direction displacement detector is configured to measure a second guide rail displacement amount. The second guide rail displacement amount indicates a magnitude of displacement of a moving path of the carriage from a predetermined moving path with respect to the second guide rail in a direction perpendicular to a second direction when the carriage is moved in the second direction along the second guide rail. The working controller is configured to execute a control in which a movement control of the second guide rail on the first guide rail is added so that the second guide rail displacement amount is corrected in a movement control of the carriage on the second guide rail. | ||||||
| 18 | Method and apparatus for machining dragline assemblies | US951452 | 1978-10-16 | US4263706A | 1981-04-28 | Michael W. Smith, Sr. |
| A dragline is constructed in the manufacturing plant with a segmented guide rail shimmed and secured to the plates of a tub concentric with the pintle for the deck. The guide rail is then machined so that a rolling surface is created on the rail that is within .+-.0.002 inches of a planar surface. Tub gear segments have mounting portions accurately machined and accurately drilled as are tub rail segments and deck rail segments accurately machined. The dragline is then disassembled, shipped to the site and re-erected with the guide rail shimmed and installed on the plates of the tub so that the rolling surface is within .+-.0.002 inches of a plane. The deck is mounted on the pintle and supported on columns to space the deck rail girder from the tub rail girder. A tram or boom is mounted on the deck pintle and has a machine tool carriage riding on the guide rail so that a milling head on the carriage can mill the upper and lower rail girders to within .+-.0.0025 inches of planar. The tub gear segments are positioned on the lower rail girder wherein the drilled holes in the segments act as a templet for a drilling head on the carriage for drilling the upper and lower rail girders. The boom and carriage are then removed. A tub rail is shimmed and secured to the tub gear segments and to the tub flanged girder to create a tub rail surface within .+-.0.0025 inches of planar. A deck rail is shimmed and secured to the deck rail girder to provide a surface within .+-.0.0025 inches of planar. An interconnected set of flanged dolly wheels are positioned between the deck rail and the tub rail as the deck is lowered into operative position on the tub. | ||||||
| 19 | Strand milling machine | US3791258D | 1973-01-16 | US3791258A | 1974-02-12 | KRALL H; MAAG H |
| A milling machine receives a strand or billet from a continuous casting machine. The machine has a frame and rollers that mount it for back and forth movement on rails in the line of the feed of the strand from the casting machine. A pair of pressure rollers, one above the other, feed the strand therebetween, one of the rollers being rotated by a motor. The milling machine has support tables adjustable vertically, over which the strand moves, rotating milling cutters above and below the strand for milling the same and pressure tables opposite the cutters so that the top and bottom of the strand are both milled. The two sets of electrical circuit limit switches along the rails. On the bottom portion frame of the movable milling machine is adjustable mounted a rail which contacts an actuating arm of the switches as it moves there over. These limit switches are in a control circuit to an electric motor that drives one of the feed rollers. The feed rolls draw the strand through the milling machine. If the circumferential speed of the feed rolls is faster than the medium strand speed from the drawing mechanism of the casting machine, the milling machine is moved towards the continuous casting plant. If it is lower, it moves away from it. The speed is graduated from switch to switch of each set.
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| 20 | Fettling machines | US66697257 | 1957-06-20 | US2859567A | 1958-11-11 | WEAR BERRY HARRY |
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