| 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 | 抗扭矩端铣刀 | CN200580020029.5 | 2005-06-15 | CN101426606B | 2012-03-14 | V·符洛科 |
| 本发明涉及用于铣削材料的工具。本发明提供一种提高端铣刀主体的扭转和弯曲强度,因而延长到距的寿命,同时使得高速金属移除速率的加工变得可能,并且提高了表面质量,且防止震动。设置以提高强度的外径D的端铣刀,包括主体部分,其被机床工具夹紧,以及切割部分,其具有多个加工的凹槽,以靠近所述凹槽形成切割齿,每一齿的底部包括一个始于切割边的小的外围间隙部分,以及一个精确延伸长的齿的背衬部分,其靠近外围间隙部分,且终止与形成在延伸长度的齿背衬部分和凹槽部分之间形成的尖部内,该尖部距离外径D距离为C,C值在0至0.20D的范围内。 | ||||||
| 2 | 抗扭矩端铣刀 | CN200580020029.5 | 2005-06-15 | CN101426606A | 2009-05-06 | V·符洛科 |
| 本发明涉及用于铣削材料的工具。本发明提供一种提高端铣刀主体的扭转和弯曲强度,因而延长到距的寿命,同时使得高速金属移除速率的加工变得可能,并且提高了表面质量,且防止震动。设置以提高强度的外径D的端铣刀,包括主体部分,其被机床工具夹紧,以及切割部分,其具有多个加工的凹槽,以靠近所述凹槽形成切割齿,每一齿的底部包括一个始于切割边的小的外围间隙部分,以及一个精确延伸长的齿的背衬部分,其靠近外围间隙部分,且终止与形成在延伸长度的齿背衬部分和凹槽部分之间形成的尖部内,该尖部距离外径D距离为C,C值在0至0.20D的范围内。 | ||||||
| 3 | 切削刀具组件及其制造方法 | CN201610034630.X | 2016-01-19 | CN106141325A | 2016-11-23 | 约翰·E·马赛斯 |
| 一种切削刀具组件及制造方法。该切削刀具组件可以包括由第一材料制成的背衬构件和由第二材料制成的切削构件。该第二材料可以不同于该第一材料。该切削构件可以固定地布置在该背衬构件上。 | ||||||
| 4 | 一种涂覆的切削工具和涂覆切削工具的方法 | CN201380079401.4 | 2013-09-05 | CN105593397A | 2016-05-18 | 里卡德·福森; 马茨·约翰松约埃萨尔; 芒努斯·奥登; 赛义德·穆罕默德·比拉尔; 诺琳·加富尔 |
| 本发明涉及一种涂覆的切削工具和一种用于刀体(1)的硬且耐磨的涂层,所述涂层包含至少一个具有改进的高温性能的金属基氮化物层(3),其中所述层是(ZrxCr1-x-y-zAlyMez)Na,其中0.55<x<0.85,0.05<y<0.45,0≤z<0.20,0.95<a<1.10,并且Me为以下元素中的一种或多种:Y,Ti,V,Nb,Ta,Mo,W,Mn或Si,包含单一的立方相或单一的六方相或其混合物,优选具有氯化钠结构的立方相,具有0.5μm和15μm之间的厚度。该层使用阴极电弧蒸发进行沉积,并对于产生高温的金属切削应用是有用的。 | ||||||
| 5 | 一种新型大直径T型铣刀 | CN201710285517.3 | 2017-04-27 | CN106891052A | 2017-06-27 | 王洪亮; 张秀云; 曹雷; 张琳 |
| 本发明提供了一种新型大直径T型铣刀,属于特殊槽型加工的机械制造技术领域。刀盘分为切削和刀体两部分,切削部分的切削参数根据需求调整,刀体部分采用内孔和键槽结构,与刀杆的心轴连接,同时通过平键传递动力;刀杆分为螺纹杆、心轴和尾柄三部分,螺纹杆与紧锁螺母通过螺纹旋合施加压紧力;心轴与刀盘、平键组合接触;尾柄根据机床具体情况进行结构选择;垫圈卡箍在刀杆的心轴上,起到缓冲防松作用;平键用于连接固定刀盘与刀杆;锁紧螺母旋入刀杆挤压垫圈,垫圈挤压刀盘,进而使刀盘与刀杆装配为一体。本发明的大直径T型铣刀比传统T铣刀结构灵活,刀盘刀杆可根据需求进行选择;T型铣刀产品制造方面比传统的方法节约成本,提高效率。 | ||||||
| 6 | 光学组件 | CN201380057519.7 | 2013-09-04 | CN104903791A | 2015-09-09 | 莱因霍尔德·德·弗雷斯 |
| 本发明涉及光学组件,其可以尤其在无法使用带有位于直接光路上的典型物镜的相机的场合下用作360度的光学系统。本发明提供一种光学组件,其包括至少一个带状透镜(1)和至少一个光学传感器(2),所述至少一个光学传感器(2)至少局部设置在所述至少一个带状透镜(1)的光路上,特别地,光信号在没有被反射的情况下穿过所述带状透镜。因此,提供一种与位于中央的图像传感器系统结合的且适于360度视角的带状透镜光学系统,其可用于优选地从全景的角度可靠探测和分析移动目标。带状透镜光学系统结合图像传感器系统构成了360度监视系统,其运行有效,且可以容易集成到技术过程中。优选的实施例的特征在于带状透镜设计,其具有快速透镜速度和中央图像传感器系统,具有移动分析功能,用于对周遭环境监视。 | ||||||
| 7 | Coated cutting tool and a method for coating the cutting tool | US14916145 | 2013-09-05 | US10023952B2 | 2018-07-17 | Magnus Oden; Rikard Forsen; Mats Johansson-Joesaar; Syed Muhammad Bilal; Naureen Ghafoor |
| A coated cutting tool and a hard and wear resistant coating for a body include at least one metal based nitride layer. The layer is (ZrxCrl-x-y-zAlyMez)Na with 0.55 | ||||||
| 8 | ROTARY CUTTER FOR MACHINING MATERIALS | US14964183 | 2015-12-09 | US20160082526A1 | 2016-03-24 | Steven M. SWIFT; Luke Tyler SWIFT |
| A rotary cutting tool. The tool has a body with outside diameter (OD), and outer surface, and a longitudinal axis, a plurality of flutes, helical in some embodiments. Flutes include a narrow leading edge land portion with circular segment profile and having flute cutting edge portions along a substantially uniform circumferential location, with an eccentric relief margin rotationally rearward of the narrow leading edge land portions. Face portions are provided with face cutting edge portions, and with a first dish portion adjacent each of the cutting edge portions sloping inwardly and downwardly generally toward a central longitudinal axis at a first dish angle alpha (α) Corner blend portions extend from flute cutting edge portions to the face cutting edge portions. Corner blend portions are provided in a variety of profiles, including an embodiment wherein the profile of the corner blend portions are truncated before the segment of curvature becomes tangential to the face cutting edge portions. Large core diameters of cutting tools are provided, which gives high strength at when working with axial depths of cut of about three times outside tool diameter or less. | ||||||
| 9 | Increased process damping via mass reduction for high performance milling | US13628518 | 2012-09-27 | US08875367B2 | 2014-11-04 | Keith A. Young; Eric J. Stern; Thomas L. Talley; Randolph B. Hancock |
| A cutting tool incorporates a body terminating in cutting edges distal from a chuck mount and having an axial bore for reduced mass to raise the natural frequency of the tool. In certain of the embodiments, the body is preformed from a steel or carbide blank into a cylindrical pipe forming the hollow bore prior to grinding of the cutting edges. Filling of the bore with a light weight polymer to further absorb vibration can also be employed. | ||||||
| 10 | HIGH-FREQUENCY TOOTH PASS CUTTING DEVICE AND METHOD | US11951553 | 2007-12-06 | US20080175680A1 | 2008-07-24 | Troy D. Marusich; Kerry J. Marusich |
| A cutting tool for cutting a material is provided with a cylindrical body having a cross-sectional diameter and a longitudinal rotating axis, and a plurality of teeth disposed on a circumference of the body, each tooth having a cutting edge and separated by a flute. The number of teeth is selected such that a ratio of the number of teeth to the diameter in millimeter (mm) is at least 0.75:1, that the cylindrical body is rotated with a tooth pass frequency of at least 400 teeth-per-second, and that the tool is used for machining in a way that all the material is removed at a rate of rough machining and in a manner to eliminate finishing pass. | ||||||
| 11 | High frequency tooth pass cutting method | US11319006 | 2005-12-27 | US20060198709A1 | 2006-09-07 | Troy Marusich; Kerry Marusich |
| A method for cutting metal includes providing a rotating cutting tool and making a first cut in the material using a first tooth of the cutting tool, such that an amount of heat is conducted into the material. A second cut is made in the material using a second tooth of the cutting tool, before the heat dissipates from the material. The time between the first cut and the second cut is such that the heat softens the material and allows the second tooth to more easily cut the material. | ||||||
| 12 | 切削工具アセンブリおよび製造方法 | JP2016095273 | 2016-05-11 | JP2016215365A | 2016-12-22 | ジョン・イー・マセス |
| 【課題】切削工具アセンブリおよび製造方法を提供する。 【解決手段】切削工具アセンブリおよび製造方法。切削工具アセンブリは第1材料でできている裏当て部材と第2材料でできている切削部材とを含み得る。第2材料は第1材料と異なってもよい。切削部材は裏当て部材上に固定して配置されてもよい。 【選択図】図2 |
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| 13 | フライス切削と後続のブラッシングとによって原材料を加工する方法 | JP2015523490 | 2013-07-15 | JP6022686B2 | 2016-11-09 | ヴァルター・ダーヴィト; ヴォルフラム・クノッヘ |
| 14 | Cutting tool | JP2005226742 | 2005-08-04 | JP2007038362A | 2007-02-15 | OSAWA JIRO; WATANABE KATSUTOSHI; NAGAI TAMOTSU |
| <P>PROBLEM TO BE SOLVED: To provide a cutting tool, which firmly fixes a cutting head to a body part when a body part and a cutting head are removably formed, and is reduced in the manufacturing cost. <P>SOLUTION: In this cutting tool 1, a body part 3 includes a pin 34 pressed in first and second pin holes 35, 36, a cutting head 2 includes a pin engagement surface 22c engaged with the pin 34, the first and second pin holes 35, 36 are disposed relatively so that the pin 34 is inclined to the axis O of the body part 3, and the inclining direction is set so that the cutting heat 2 is drawn in the body part 3 side by cutting resistance in cutting, whereby the engagement force of the pin 34 and the pin engagement surface 22c is ensured by cutting resistance to firmly fix the cutting head 2 to the body part 3. <P>COPYRIGHT: (C)2007,JPO&INPIT | ||||||
| 15 | フライス切削と後続のブラッシングとによって原材料を加工する方法 | JP2015523490 | 2013-07-15 | JP2015528751A | 2015-10-01 | ヴァルター・ダーヴィト; ヴォルフラム・クノッヘ |
| 本発明は、原材料、特に鋼を加工する方法であって、当該方法では、設定値を超える表面近くの引張固有応力を発生し得る速い切削速度でフライス切削が実施され、後続のブラッシングによって、前記設定値を超える引張固有応力が、前記設定値より低くなるように低減される方法に関する。さらに、この方法を実行するための装置が必要とされる。 | ||||||
| 16 | Tool for chipforming machining | JP16669993 | 1993-07-06 | JPH06198517A | 1994-07-19 | RORUFU GEE OSUKARUSON; MAATSU UU RUNDOSUTOROOMU |
| PURPOSE: To improve a cutting tool of a core cover structure formed by connecting a high speed steel core to a cover with higher wear resistance than thereof. CONSTITUTION: A core 1 has a nominal alloyed element composition in a nominal high speed steel grade composition and a carbon content 0.05-0.25% lower than a nominal carbon content. Thus, toughness strength is noticeably improved without reducing cutting performance. | ||||||
| 17 | Cutting tool | JP902680 | 1980-01-29 | JPS56107816A | 1981-08-27 | KISHIMOTO KIYOSHI |
| PURPOSE: To improve working properties, by fitting a single twisted plate tip on a body so that one or both sides of the tip are protruded from the side of the body and by coupling the tip with the body and using the edge of the protruded portion of the tip for cutting. CONSTITUTION: A twisted slit 4 is provided so that it extends on the center of cutting side of the cylindrical shank 1 of a body made of steel. The slit 4 contains the axis of the body and extends through the body in the diametral direction and is open at the front end of the body. A tip 5 made of high-speed steel and having a prescribed twist angle is fitted in the slit 4 and coupled with the body so that the tip 5 is secured. The edge of the protruded portion of the tip 5 performs cutting. Since the tip is a monolithic, it has no seams. Therefore, no trouble occurs due to seams. COPYRIGHT: (C)1981,JPO&Japio | ||||||
| 18 | Method for machining materials by milling and subsequent brushing | US14415589 | 2013-07-15 | US09919404B2 | 2018-03-20 | Walter David; Wolfram Knoche |
| A method for machining a material, in particular steel, is provided. The material is milled at such a high cutting speed that residual tensile stresses close the surface that exceed a specified value can occur and the residual tensile stresses can be lowered below the specified value by subsequent brushing. A device for performing the method is also provided. | ||||||
| 19 | CUTTING TOOL ASSEMBLY AND METHOD OF MANUFACTURE | US14713268 | 2015-05-15 | US20160332240A1 | 2016-11-17 | JOHN E. MASSETH |
| A cutting tool assembly and a method of manufacture. The cutting tool assembly may include a backing member made of a first material and a cutting member made of a second material. The second material may differ from the first material. The cutting member may be fixedly disposed on the backing member. | ||||||
| 20 | COATED CUTTING TOOL AND A METHOD FOR COATING THE CUTTING TOOL | US14916145 | 2013-09-05 | US20160194748A1 | 2016-07-07 | Magnus ODEN; Rikard FORSEN; Mats JOHANSSON-JOESAAR; Syed Muhammad BILAL; Naureen GHAFOOR |
| A coated cutting tool and a hard and wear resistant coating for a body include at least one metal based nitride layer. The layer is (ZrxCrl-x-y-zAlyMez)Na with 0.55 | ||||||
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