| 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 | 手机外观件的开孔方法 | CN201510925506.8 | 2015-12-11 | CN105458373A | 2016-04-06 | 凌金昌 |
| 本发明涉及一种手机外观件的开孔方法,包括步骤:调用探针对手机外观件上的圆孔进行分中,得到铣刀机台的圆孔加工的坐标原点;将圆孔加工的坐标原点与预设的矢量偏移值求和,得到铣刀机台的方孔加工的坐标原点;移动探针,测量手机外观件上的方孔的Z值高度;调用第一铣刀对圆孔进行开粗;移动第一铣刀对方孔进行开粗;调用第二铣刀对方孔的边角进行修整;调用第三铣刀对圆孔进行上倒角加工;调用第四铣刀对圆孔进行下倒角加工;调用第五铣刀对方孔进行倒角加工。上述手机外观件的开孔方法,只需调用一次探针,而且省去方孔分中的工序,从而减少手机外观件的开孔工序所占用的工时和设备,提高生产效率。 | ||||||
| 2 | 现场长条孔加工机 | CN201510603492.8 | 2015-09-21 | CN105058140A | 2015-11-18 | 王可策; 冯际军; 邹承承; 吕文健 |
| 本发明公开了现场长条孔加工机,包括用于固定安装于钢梁上的定位夹紧底座,定位夹紧底座上设置有平行于钢梁的水平支撑滑轨,水平支撑滑轨上滑动安装有滑座,滑座上安装有对所述钢梁进行长条孔加工的铣削装置,所述的铣削装置包括铣削刀具和驱动铣削刀具旋转的驱动装置A。使用时,装夹设备至构件上,采用铣削动力头带动铣刀沿着直线滑轨移动,使得长条孔一次加工成型。本发明的有益效果是:结构简洁、占用空间小,满足现场加工设备的要求,动力强劲,耐用性强,操作简单,效率高,安全可靠,保证项目施工进度。 | ||||||
| 3 | 往复活塞式内燃机曲轴箱的支承座中的通风孔的制造方法 | CN201180046681.X | 2011-08-26 | CN103124842B | 2016-04-06 | L·滕策; H-R·克勒宁格 |
| 一种用于通过铣削制造往复活塞式内燃机的曲轴箱(3)的支承座(2)中的通风孔(1)的方法,其中,铣刀(4)是弯头铣刀,将其沿气缸纵轴线(Z)的方法送入曲轴箱(3)中,并且将其沿曲轴箱纵轴线(K)的方法移动,直到打通支承座(2),并且将其沿垂直于曲轴箱纵轴线(K)的平面的方向移动,并且将其沿曲轴箱纵轴线(K)的方向退回,并且紧接着从曲轴箱(3)中通过沿气缸纵轴线(Z)的方向移动铣刀而移出弯头铣刀,通风孔具有非圆的横截面,其中,通风孔在活塞下死点的区域内具有扁平化的横截面,曲轴箱的气缸工作面具有金属丝电弧喷涂涂层。通过通风孔的按照本发明的制造,避免曲轴箱中的内应力,由此以有利方式提高曲轴箱的强度。 | ||||||
| 4 | 往复活塞式内燃机曲轴箱的支承座中的通风孔的制造方法 | CN201180046681.X | 2011-08-26 | CN103124842A | 2013-05-29 | L·滕策; H-R·克勒宁格 |
| 一种用于通过铣削制造往复活塞式内燃机的曲轴箱(3)的支承座(2)中的通风孔(1)的方法,其中,铣刀(4)是弯头铣刀,将其沿气缸纵轴线(Z)的方法送入曲轴箱(3)中并且沿曲轴箱纵轴线(K)的方法移动,直到打通支承座(2),并紧接着沿曲轴箱纵轴线(K)的方向退回弯头铣刀并且从曲轴箱(3)中通过沿气缸纵轴线(Z)的方向移动铣刀而移出弯头铣刀。通过通风孔的按照本发明的制造,避免曲轴箱中的内应力,由此以有利方式提高曲轴箱的强度。 | ||||||
| 5 | METHOD FOR PRODUCING DIFFERENTLY SHAPED POLARIZING PLATE | US15759231 | 2016-09-09 | US20180236569A1 | 2018-08-23 | Yasuhiko SUGIHARA; Saori KUROGANE; Takeyuki ASHIDA |
| The present invention provides a method for producing a differently shaped polarizing plate, the method being capable of preventing a decrease in durability. The method for producing a differently shaped polarizing plate of the present invention includes a step of forming a differently shaped portion by moving at least one of a rectangular polarizing plate and an end mill blade while the end mill blade is rotated and pressed against the rectangular polarizing plate to cut the rectangular polarizing plate. Preferably, the step is performed while a jig is pressed against the rectangular polarizing plate, at the periphery of a region to be cut. | ||||||
| 6 | Method of manufacturing circuit board | JP1643681 | 1981-02-06 | JPS57132909A | 1982-08-17 | MIURA MAMORU |
| PURPOSE:To shorten the time of working cycle and lengthen the lifetime of a cutting tool in the manufacturing of a flatly-finished circuit board, by effecting the flat finishing by two stages. CONSTITUTION:When a circuit board is to be flatly finished, the central part of the board is first flatly finished by a cutting tool whose diameter is smaller than the width of the flat finishing. After that, the flat finishing is resumed in accordance with the shape of an integrated circuit base. The flat finishing of the circuit board is thus completed. Since the flatly finished area is divided for the flat finishing, the movement distance of the cutting tool and the time of the working cycle are shortened and the lifetime of the tool is lengthened. | ||||||
| 7 | VERFAHREN ZUR HERSTELLUNG EINER VENTILATIONSBOHRUNG IN EINEM LAGERSTUHL EINES KURBELGEHÄUSES EINER HUBKOLBEN-BRENNKRAFTMASCHINE | EP11749742.0 | 2011-08-26 | EP2622197A1 | 2013-08-07 | TÄNZER, Lars; KRÖNINGER, Hans-Rainer |
| The invention relates to a method for producing a ventilation bore (1) in a thrust bearing (2) of a crankcase (3) of a reciprocating internal combustion engine by milling, wherein the milling cutter (4) is an angled head milling cutter, which is introduced into the crankcase (3) in the direction of a cylinder longitudinal axis (Z) and is moved in the direction of a crankcase longitudinal axis (K) until the thrust bearing (2) is perforated and subsequently the angled head milling cutter is moved back in the direction of the crankcase longitudinal axis (K) and removed from the crankcase (3) by moving the angled head milling cutter in the direction of the cylinder longitudinal axis (Z). Internal stresses in the crankcase are avoided by the production according to the invention of the ventilation bore, as a result of which the strength of the crankcase is advantageously increased. | ||||||
| 8 | Method for Producing a Ventilation Bore in a Thrust Bearing of a Crankcase of a Reciprocating Internal Combustion Engine | US13837484 | 2013-03-15 | US20130199507A1 | 2013-08-08 | Lars TAENZER; Hans-Rainer KROENINGER |
| A method is provided for producing a ventilation bore in a thrust bearing of a crankcase of a reciprocating internal combustion engine by milling. The milling cutter is an angled-head milling cutter, which is introduced into the crankcase in the direction of a cylinder longitudinal axis and is moved in the direction of a crankcase longitudinal axis until the thrust bearing is perforated. Subsequently, the angled-head milling cutter is moved back in the direction of the crankcase longitudinal axis and removed from the crankcase by moving the angled-head milling cutter in the direction of the cylinder longitudinal axis. Internal stresses in the crankcase are avoided by the production of the ventilation bore, as a result of which the strength of the crankcase is increased. | ||||||
| 9 | Rotary cutting tool and cutting method using the same | US10570327 | 2004-08-19 | US20070014644A1 | 2007-01-18 | Keizo Masuyama |
| An end mill 10 is a tool for milling a metal block such as a metal mold and is placed in a machine tool such as a milling machine when in use. The end mill 10 is used to provide a rotary milling cutter and a milling method using the same, in which it is possible to perform orthogonal milling and pocket milling to efficiently form four corners with small radius, without repeatedly milling using a small-diameter end mill. The end mill 10 has two cutting edges 11a and 11b at its distal portion, and an edge angle D1 formed by the two cutting edges 11a and 11b is 70.53 degrees. | ||||||
| 10 | Corner cutting method and NC controller | US10004882 | 2001-12-07 | US20020071732A1 | 2002-06-13 | Takahiro Funaki; Tomoo Hayashi |
| An NC controller determines a subsequent point sequence position in each sampling by interpolation calculation with a section between a corner cutting starting point and a corner cutting end point as a machined section. The NC controller then internally calculates a spindle rotating angle in a coordinate position where an outer end of a cutting edge is positioned at the subsequent point sequence position. Based on the spindle rotating angle and the substantial diameter of the rotary tool, the NC controller internally calculates coordinate values of the spindle at the subsequent point sequence position. Based on the coordinate values of the spindle, the rotary tool and a workpiece are relatively shifted on a plane parallel to the bottom surface of the tool while the spindle rotation is controlled in synchronization with the shifting, thereby cutting the corner. | ||||||
| 11 | Inside corner cutting method and a numerical control device | JP2000374673 | 2000-12-08 | JP4443026B2 | 2010-03-31 | 智夫 林; 崇宏 船木 |
| 12 | 回転切削工具およびこれを用いた切削方法 | JP2005513617 | 2004-08-19 | JPWO2005023473A1 | 2007-11-01 | 慶三 益山 |
| 径の小さいエンドミルを用いて繰り返し切削することなく、効率よく四隅の径が小さいポケット加工、直角加工を行うことが可能な回転切削工具およびこれを用いた切削方法を提供するために、エンドミル10は、金型等の金属ブロックに対して切削加工を行う工具であって、フライス盤等の工作機械にセットされて使用される。エンドミル10は、先端部分に2枚の切刃11a,11bを有し、その2枚の切刃11a,11bによって形成される先端角度D1は、70.53度である。 | ||||||
| 13 | Method for Producing a Ventilation Bore in a Thrust Bearing of a Crankcase of a Reciprocating Internal Combustion Engine | US15047096 | 2016-02-18 | US20160177869A1 | 2016-06-23 | Lars TAENZER; Hans-Rainer KROENINGER |
| A method is provided for producing a ventilation bore in a thrust bearing of a crankcase of a reciprocating internal combustion engine by milling. The milling cutter is an angled-head milling cutter, which is introduced into the crankcase in the direction of a cylinder longitudinal axis and is moved in the direction of a crankcase longitudinal axis until the thrust bearing is perforated. Subsequently, the angled-head milling cutter is moved back in the direction of the crankcase longitudinal axis and removed from the crankcase by moving the angled-head milling cutter in the direction of the cylinder longitudinal axis. Internal stresses in the crankcase are avoided by the production of the ventilation bore, as a result of which the strength of the crankcase is increased. | ||||||
| 14 | Rotary milling cutter and milling method using the same technical field | US10570327 | 2004-08-19 | US07306412B2 | 2007-12-11 | Keizo Masuyama |
| An end mill 10 is a tool for milling a metal block such as a metal mold and is placed in a machine tool such as a milling machine when in use. The end mill 10 is used to provide a rotary milling cutter and a milling method using the same, in which it is possible to perform orthogonal milling and pocket milling to efficiently form four corners with small radius, without repeatedly milling using a small-diameter end mill. The end mill 10 has two cutting edges 11a and 11b at its distal portion, and an edge angle D1 formed by the two cutting edges 11a and 11b is 70.53 degrees. | ||||||
| 15 | Eccentric boring tool and method | US57587 | 1979-07-16 | US4260306A | 1981-04-07 | Siegfried K. Weis |
| An eccentric boring tool and method of forming a bore off center from the central axis of a workpiece are disclosed. The tool includes a tool holder nonrotatably supported relative to a workpiece and an outer housing supported for rotation with the workpiece and rotation relative to the tool holder. An eccentric supported within the housing mounts a bearing which in turn supports the tool holder. The eccentric rotates with the housing causing the longitudinal axis of the tool holder to orbit about the longitudinal axis of the workpiece. An end mill cutting tool is supported in the tool holder. A plurality of discs are supported in the forward end of the housing. The discs engage the workpiece, lock the housing to the workpiece and cause the housing to rotate at the same speed as the workpiece. | ||||||
| 16 | Internal and external cutting tool | US593687 | 1975-07-07 | US3978765A | 1976-09-07 | John R. Scaduto |
| The cutting tool may be employed to shape an internal hole, provide a form to the outer periphery of a workpiece, or shape a hole to a predetermined form while cutting an exterior profile to a desired shape. The tool has a shank with an oval shape flange with a tool-supporting portion having a similar oval shape flange with mating apertures in the flanges. The apertures in the first flange contain a thread while the holes in the second flange are somewhat enlarged. Three set screws are provided in the second flange at each end thereof in engagement with the screws which retain the flanges together. The set screws shift the second flange in any direction relative to the first flange which slopes relative to the axis of the shank so that the tool is offset at an angle to the axis of the shank. | ||||||
| 17 | Adjustable depth router | US48477074 | 1974-07-01 | US3908510A | 1975-09-30 | KOSKOLOS NICK J; LEFARTH RALPH R |
| An adjustable depth router is particularly suited for routing openings in ducts beneath register openings in a floor, without use of router bit extensions. A small diameter pneumatic motor, whose casing is mounted at the lower end of an elongated air supply casing of the same diameter, holds the router bit at its lower end; this assembly is vertically adjustable in a router frame. When routing through a floor opening, the base is rested on the floor, the cylindrical assembly projects through the floor opening so the router bit will operate at the desired depth therebeneath; and the bearing of the cylindrical assembly against the edge of its floor opening guides the router. An opening is thus routed parallel to the floor opening and spaced inwardly by the difference between the radius of the casing and the radius of the router bit.
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| 18 | A method of making a vent hole in the thrust bearing of the crankcase of a reciprocating internal combustion engine | JP2013530596 | 2011-08-26 | JP2013538973A | 2013-10-17 | ラルス テンツァー; ハンス・ライナー クレニンガー |
| 往復動内燃機関のクランクケース(3)のスラストベアリング(2)にフライス加工によりベントホール(1)を作製する方法において、ミリングカッタ(4)がアングルヘッドタイプのミリングカッタであり、前記アングルヘッドタイプのミリングカッタが、シリンダ縦軸(Z)の向きに前記クランクケース(3)の内部に送り込まれ、さらにクランクケース前後軸(K)の向きに、前記スラストベアリング(2)が打ち抜かれるまで繰り出され、引き続いて前記アングルヘッドタイプのミリングカッタは前記クランクケース前後軸(K)の向きに繰り戻されて、さらに前記アングルタイプのミリングカッタは、前記シリンダ縦軸(Z)の向きに繰り出されることによって、前記アングルタイプのミリングカッタは前記クランクケース(3)から取り出される。 本発明にしたがってベントホールを作製することにより、クランクケースの残留応力が回避され、それにより有利なことにもクランクケースの強度が高められることになる。 | ||||||
| 19 | Rotary cutting tool and a cutting method using the same | JP2005513617 | 2004-08-19 | JP4608433B2 | 2011-01-12 | 慶三 益山 |
| 20 | Incorner cutting method and numerical controller | JP2000374673 | 2000-12-08 | JP2002182716A | 2002-06-26 | FUNAKI TAKAHIRO; HAYASHI TOMOO |
| PROBLEM TO BE SOLVED: To efficiently work a deep pocket where the radius of curvature of an interior angle part is small and the interior angle part of a sharp angle such as 90 degree called as a pin angle by cutting. SOLUTION: A principle axis rotary angle in a coordinate position where the outer end point of a cutting edge is positioned in a next point string position at every sampling, which is obtained by an interpolation operation where an incorner work start point and an incorner work end point are set to be a work period, is obtained by the inner operation processing of the numerical controller, and the coordinate value of a principle axis in the next point string position is obtained by an inner operation processing from the substantial tool diameter of the principle rotary angle and the rotary tool. The rotary tool and a workpiece are relatively moved on a face parallel to a tool base. Principle axis rotation is controlled in synchronizing with movement and an incorner is cut. | ||||||
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