| 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 | 凸轮曲线铣削加工用铣削工装 | CN201510757178.5 | 2015-11-10 | CN105290829A | 2016-02-03 | 戴伟; 范雷; 田仁福; 孙明宝; 常城 |
| 一种凸轮曲线铣削加工用铣削工装。主要解决现有铣削卡具加工精度和效率低,装卡不方便的问题。其特征在于:底座(1)连接在立式铣床的工作台上,底座(1)上滑动连接有滑板(2),滑板(2)与底座(1)之间连接有弹簧,滑板(2)上有螺栓、压板和螺母,滑板(2)上端连接有滚轮座(3),滚轮座(3)上连接有滚轮(5),滚轮(5)与靠模(4)曲面接触,靠模(4)连接在立式铣床的床身上。该凸轮曲线铣削加工用铣削工装具有加工精度和效率高,装卡方便的特点。 | ||||||
| 2 | 一种直线进给式靠模铣床夹具 | CN201510167900.X | 2015-04-10 | CN104841986A | 2015-08-19 | 张国红 |
| 本发明公开了一种直线进给式靠模铣床夹具,包括铣刀滑座和滚柱滑座,所述铣刀滑座和滚柱滑座之间通过连接轴相连且保持铣刀滑座和滚柱滑座之间的轴线间的距离不变,所述铣刀滑座与拉力装置相连,其特征在于,所述铣刀滑座底部连接有与铣刀接触的工件,所述滚柱滑座底部连接有与靠模板接触的滚柱,所述滚柱的工作部分呈12-14°的锥面。优选,所述拉力装置可以是重锤,或是强力弹簧。可以补偿因铣刀磨损或刀磨后因直径的变化所产生的工件轮廓误差,提高金属材料的加工效果。 | ||||||
| 3 | 端部加工装置 | CN201180049979.6 | 2011-12-27 | CN103153509B | 2015-06-17 | 山根茂巳; 中村干夫 |
| 端部加工装置具备:X方向驱动装置,沿X方向往返移动;刀具支撑部件,支撑于X方向驱动装置,能够沿Y方向移动,并支撑沿与XY平面垂直的Z方向延伸的刀具部件;导向部件,在从Z方向观察的情况下具有与加工预定形状对应的形状,并引导刀具支撑部件使得刀具部件沿着加工预定形状移动;及Y方向位置改变机构,在Y方向上改变上述刀具支撑部件相对于被加工件的位置。Y方向位置改变机构以“返”时比“往”时更靠内侧地移动的方式改变上述刀具支撑部件的位置。 | ||||||
| 4 | 一种钥匙加工设备 | CN201310753623.1 | 2013-12-30 | CN103722452A | 2014-04-16 | 慕偎叶 |
| 一种钥匙加工设备,它涉及配钥匙机械设备领域,电机设置在底座上,电机的一端设有轴,轴上设有数个铣刀槽,铣刀卡接在铣刀槽内,铣刀的一侧设有紧固件,底座的一端设有固定座,固定座上设有顶针,顶针与铣刀的前端设有钥匙固定座,钥匙固定座上设有一个母钥匙固定槽和数个子钥匙固定槽,钥匙固定座的底部套设在滑轨上,滑轨与驱动装置连接,驱动装置上设有开关。它结构简单,操作方便,可以同时复制数把钥匙,且准确度高,效率高。 | ||||||
| 5 | 端部加工装置 | CN201180049979.6 | 2011-12-27 | CN103153509A | 2013-06-12 | 山根茂巳; 中村干夫 |
| 端部加工装置具备:X方向驱动装置,沿X方向往返移动;刀具支撑部件,支撑于X方向驱动装置,能够沿Y方向移动,并支撑沿与XY平面垂直的Z方向延伸的刀具部件;导向部件,在从Z方向观察的情况下具有与加工预定形状对应的形状,并引导刀具支撑部件使得刀具部件沿着加工预定形状移动;及Y方向位置改变机构,在Y方向上改变上述刀具支撑部件相对于被加工件的位置。Y方向位置改变机构以“返”时比“往”时更靠内侧地移动的方式改变上述刀具支撑部件的位置。 | ||||||
| 6 | 一种圆周进给式靠模铣床夹具 | CN201510167981.3 | 2015-04-10 | CN104841987A | 2015-08-19 | 张国红 |
| 本发明公开了一种圆周进给式靠模铣床夹具,其特征在于,包括可做等速圆周进给运动的回转台,所述回转台上依次设置有共轴的靠模板和工件,所述靠模板端部设置有滚柱,所述工件端部设置有铣刀,所述滚柱与滚柱滑座相连,所述铣刀与铣刀滑座相连,且滚柱滑座与铣刀滑座之间的轴线间距离保持不变,所述回转台与拉力装置相连。优选,所述回转台底部设置有滑座,所述滑座与拉力装置相连。优选,所述拉力装置是重锤,或所述拉力装置是弹簧。结构简单且便于工件相对于刀具做各种仿形运动,提高金属材料的加工精度。 | ||||||
| 7 | 一种包括具有八个拉伸弹簧的双靠模系统的铣床 | CN201410523677.3 | 2014-10-08 | CN104440403A | 2015-03-25 | 尚庆光 |
| 一种包括具有八个拉伸弹簧的双靠模系统的铣床,包括箱体(1)、第一靠模块(2)和第二靠模块(3),箱体(1)的上下侧壁中分别设置有上槽缝(13)和下槽缝,第一靠模块(2)和第二靠模块(3)对称地设置于所述箱体(1)内,第一靠模块(2)和第二靠模块(3)分别具有第一靠模边(23)和第二靠模边(33),第一靠模边(23)用于驱动第一铣刀头(803)的横向进给量,从而在第一工件部分(801)上加工出曲面槽,第二靠模边(33)用于驱动第二铣刀头(804)的横向进给量。 | ||||||
| 8 | 一种具有两个旋转轴线相互垂直的铣刀头的铣床 | CN201410441012.8 | 2014-09-02 | CN104384580A | 2015-03-04 | 方小刚 |
| 一种具有两个旋转轴线相互垂直的铣刀头的铣床,所述铣床具有靠模系统,所述靠模系统包括箱体(1)、第一靠模块(2)和第二靠模块(3),箱体(1)的上下侧壁中分别设置有上槽缝(13)和下槽缝,第一靠模块(2)和第二靠模块(3)对称地设置于所述箱体(1)内,第一靠模块(2)和第二靠模块(3)分别具有第一靠模边(23)和第二靠模边(33),第一靠模边(23)用于驱动第一铣刀头(803)的横向进给量,从而在第一工件部分(801)上加工出槽底面为曲面的曲面槽,第二靠模边(33)用于驱动第二铣刀头(804)的横向进给量。 | ||||||
| 9 | 一种具有用于梯形滑块的止动部的铣床双靠模系统 | CN201410440804.3 | 2014-09-02 | CN104308665A | 2015-01-28 | 张康 |
| 一种具有用于梯形滑块的止动部的铣床双靠模系统,所述双靠模系统包括箱体(1)、第一靠模块(2)和第二靠模块(3),箱体(1)的上下侧壁中分别设置有上槽缝(13)和下槽缝,第一靠模块(2)和第二靠模块(3)对称地设置于所述箱体(1)内,第一靠模块(2)和第二靠模块(3)分别具有第一靠模边(23)和第二靠模边(33),第一靠模边(23)用于驱动第一铣刀头(803)的横向进给量,从而在第一工件部分(801)上加工出曲面槽,第二靠模边(33)用于驱动第二铣刀头(804)的横向进给量,所述第一铣刀头(803)和第二铣刀头(804)通过机架联接并且能够共同沿着所述第一和第二靠模边做纵向运动。 | ||||||
| 10 | METHOD FOR COMPENSATING MILLING CUTTER DEFLECTION | US15960240 | 2018-04-23 | US20180307200A1 | 2018-10-25 | Tim BOYE |
| A method for compensating for the deflection of a milling cutter during the machining of a workpiece by a numerically controlled machine tool having a plurality of axes includes: executing a learning cut on a test workpiece having a known geometry by the milling cutter mounted on a tool spindle in a climb milling mode, and in doing so, ascertaining a correlation between a quantity that is proportional to the torque of the drive of the tool spindle and the deflection of the milling cutter normal to a surface of the test workpiece, the deflection being determined by comparing the actual contour of the test workpiece to a setpoint contour. This is followed by storing of the correlation for the milling cutter and machining of the workpiece by the milling cutter in a climb milling mode, while utilizing the stored correlation for compensating for the deflection of the milling cutter by applying a positional correction that is proportional to the quantity to a setpoint position of the axes of the machine tool. | ||||||
| 11 | METHOD FOR MACHINING AN ATTACHMENT FLANGE OF AN AIRCRAFT TURBOMACHINE CASE | US15797041 | 2017-10-30 | US20180126468A1 | 2018-05-10 | Vincent Bernard Serge MOST; Hubert Jean Marie FABRE |
| A method of machining an attachment flange of an aircraft turbomachine case, the method also including a system to machine the two opposite surfaces of the flange, and including a shape follower machining module, this module being designed to follow the shape of the flange and including a first structure equipped with a first machining tool, and a second structure equipped with a second machining tool, the flange fitting between the structures such that its two opposite surfaces are machined by tools, the module also including shape follower elements carried by the structures; and a device to drive movement of the machining module along a circumferential direction of the flange. | ||||||
| 12 | End portion processing apparatus | US13823961 | 2011-12-27 | US09302333B2 | 2016-04-05 | Shigemi Yamane; Mikio Nakamura |
| The end portion processing apparatus includes an X-direction driving unit which allows a back-and-forth movement along an X-direction; a cutter supporting member which is supported by the X-direction driving unit, is able to run in a Y-direction, and supports a cutter member extending in a Z-direction which is perpendicular to the XY-plane; a guide member which has a shape matching to a processing planned shape when seeing from the Z-direction, and guides the cutter supporting member such that the cutter member moves to follow the processing planned shape; and a Y-direction position changing mechanism which changes the position in the Y-direction of the cutter supporting member to the work material. The Y-direction position changing mechanism changes the position of the cutter supporting member such that the cutter supporting member runs on further inner side in case of going back than in case of going forth. | ||||||
| 13 | Edge machining apparatus | JP2011000792 | 2011-01-05 | JP2012139802A | 2012-07-26 | YAMANE SHIGEMI; NAKAMURA MIKIO |
| PROBLEM TO BE SOLVED: To provide an edge machining apparatus that is cabable of machining the edge of the material to be machined so as to be a smooth shape without moving the material to be machined.SOLUTION: The edge machining apparatus is provided with: an X direction drive device, which reciprocates in the X direction; a cutter supporting member, which is supported by means of the X direction drive device and is capable of traveling in the Y direction, and which supports a cutter member that extends in the Z direction perpendicular to the XY plane; a guide member, which has a shape that corresponds to a planned machining shape when viewed from the Z direction, and which guides the cutter supporting member such that the cutter member moves along the planned machining shape; and a Y direction position changing mechanism that changes, in the Y direction, the position of the cutter supporting member with respect to the material to be machined. The Y direction position changing mechanism changes the position of the cutter supporting member such that the cutter member returns further inside compared with the time when the cutter member advances. | ||||||
| 14 | 端部加工装置 | JP2011000792 | 2011-01-05 | JP5725868B2 | 2015-05-27 | 山根 茂巳; 中村 幹夫 |
| 15 | EDGE WORKING APPARATUS | EP11855033.4 | 2011-12-27 | EP2662171B1 | 2017-09-13 | YAMANE Shigemi; NAKAMURA Mikio |
| 16 | CRAYON CARVING DEVICE | EP16737937.9 | 2016-01-15 | EP3245075A1 | 2017-11-22 | MOLL, Joseph Thomas; HENRY, Robert J.; HO, Y. K.; NUNGESTER, Gregory Ronald |
| Devices, kits, and methods for making a carved crayon are provided. In one aspect, a crayon carving device includes a base, a pantograph armature coupled to the base, a crayon positioner, and at least one guide template parallel to the crayon positioner. The pantograph armature includes a motorized drive shaft with a drill tip for carving an outside surface of a crayon body, as well as a guide tip for tracing along a guide template that directs where the drill tip carves. In some embodiments, the guide template includes a stationary bridge support and a plurality of removable carving bucks that insert into one of multiple openings on the bridge support. The surface features of each of the carving bucks may be traced by the guide tip to generate a corresponding carving on the surface of a crayon body. | ||||||
| 17 | Crayon carving device | US14996221 | 2016-01-14 | US09827618B2 | 2017-11-28 | Joseph Thomas Moll; Robert J. Henry; Y K Ho; Gregory Ronald Nungester |
| Devices, kits, and methods for making a carved crayon are provided. In one aspect, a crayon carving device includes a base, a pantograph armature coupled to the base, a crayon positioner, and at least one guide template parallel to the crayon positioner. The pantograph armature includes a motorized drive shaft with a drill tip for carving an outside surface of a crayon body, as well as a guide tip for tracing along a guide template that directs where the drill tip carves. In some embodiments, the guide template includes a stationary bridge support and a plurality of removable carving bucks that insert into one of multiple openings on the bridge support. The surface features of each of the carving bucks may be traced by the guide tip to generate a corresponding carving on the surface of a crayon body. | ||||||
| 18 | CRAYON CARVING DEVICE | US14996221 | 2016-01-14 | US20160207123A1 | 2016-07-21 | JOSEPH THOMAS MOLL; ROBERT J. HENRY; Y K. HO; GREGORY RONALD NUNGESTER |
| Devices, kits, and methods for making a carved crayon are provided. In one aspect, a crayon carving device includes a base, a pantograph armature coupled to the base, a crayon positioner, and at least one guide template parallel to the crayon positioner. The pantograph armature includes a motorized drive shaft with a drill tip for carving an outside surface of a crayon body, as well as a guide tip for tracing along a guide template that directs where the drill tip carves. In some embodiments, the guide template includes a stationary bridge support and a plurality of removable carving bucks that insert into one of multiple openings on the bridge support. The surface features of each of the carving bucks may be traced by the guide tip to generate a corresponding carving on the surface of a crayon body. | ||||||
| 19 | END PORTION PROCESSING APPARATUS | US13823961 | 2011-12-27 | US20130202378A1 | 2013-08-08 | Shigemi Yamane; Mikio Nakamura |
| The end portion processing apparatus includes an X-direction driving unit which allows a back-and-forth movement along an X-direction; a cutter supporting member which is supported by the X-direction driving unit, is able to run in a Y-direction, and supports a cutter member extending in a Z-direction which is perpendicular to the XY-plane; a guide member which has a shape matching to a processing planned shape when seeing from the Z-direction, and guides the cutter supporting member such that the cutter member moves to follow the processing planned shape; and a Y-direction position changing mechanism which changes the position in the Y-direction of the cutter supporting member to the work material. The Y-direction position changing mechanism changes the position of the cutter supporting member such that the cutter supporting member runs on further inner side in case of going back than in case of going forth. | ||||||
| 20 | Reversible pattern-tracing control for a duplicating milling machine | US44714774 | 1974-03-01 | US3922950A | 1975-12-02 | WALTER JAMES E |
| An hydraulic pattern-tracing control for a duplicating milling machine operable selectively to cause the milling machine to either reproduce a workpiece identical in shape to that of a master pattern, or a workpiece which is a mirror image, or a right-to-left reverse image, of the master pattern. The patterntracing control disclosed herein features a stationarily supported master pattern and a closed circuit hydraulic pump and motor system operable in response to the movement of the workpiece-supporting table of the milling machine to cause the tracer stylus of the milling machine to move in either the same direction as the table, or in the opposite direction, to thus cause the cutter of the milling machine to either reverse or duplicate the image of the master pattern in a workpiece supported on the table of the milling machine.
|
||||||
QQ群二维码
意见反馈
意见反馈