序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
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41 | Coated cutting tool with anodized top layer and method of making the same | US11486228 | 2006-07-13 | US20080014421A1 | 2008-01-17 | Aharon Inspektor; Mark S. Greenfield; Kent P. Mizgalski; Joseph M. Tauber |
A coated cutting tool for chipforming machining of materials, as well as a method for making the same, wherein the coated cutting tool includes a substrate. The substrate has a rake surface and a flank surface wherein there is a cutting edge at the intersection of the rake surface and the flank surface. There is a coating scheme on at least a portion of one of the rake surface or the flank surface of the substrate. The coating scheme includes a top oxide interference film that visually appears to be colored when viewed under white lighting formed by full or partial anodization of an anodizable layer. | ||||||
42 | Smart accessories for power tools | US11313002 | 2005-12-19 | US20060159533A1 | 2006-07-20 | Jeffrey Zeiler; Thomas James |
Accessories for power tools and combinations are provided. An accessory for a power tool may include a body including a connecting portion for connecting the accessory to the power tool and a communication member positioned on the body for communicating with the power tool. The accessory may be capable of communicating with a power tool and an inventory system via the communication member. A combination may include a power tool including a housing and a motor supported by the housing, and a power tool accessory connectable to the power tool and driveable by the motor, the power tool accessory may communicate with the power tool for affecting operation of the power tool. A combination may include an indication device operable to indicate operation characteristics of the power tool to a user. The communication member may be operable to communicate with the indication device. | ||||||
43 | Coated cutting inserts | US11311628 | 2005-12-20 | US20060154051A1 | 2006-07-13 | Mats Ahlgren |
The present invention relates to a cutting insert comprising a body of sintered cemented carbide, cermet or ceramic or high speed steel or the superhard materials such as cubic boron nitride or diamond said body being provided with a hard and wear resistant coating including a thin outermost coloring non-oxide layer whereby said color is created by thin film interference. | ||||||
44 | Shaping machine | US215777 | 1998-12-18 | US6029722A | 2000-02-29 | Heinrich Englert |
A shaping machine has at least one rotatably driven spindle having a conical receiving opening. A tool is provided. A conical member is mounted in the receiving opening, wherein the tool is secured by the conical member to the spindle. A clamping device clamps the conical member in the receiving opening, wherein the tool is supported on an end face of the spindle. | ||||||
45 | Method, system, computer programme and a computer programme product for working of a work piece | US15301455 | 2015-01-29 | US10150166B2 | 2018-12-11 | Hans-Petter Andersson; Björn Pettersson |
The present invention relates to a method for working of a work piece, comprising the step of a) providing a template (1) with at least one opening (4, 6, 8, . . . 32) to the work piece (2), b) providing a work tool (70) at the opening (4, 6, 8, . . . 32), c) determining a distance (a) between a fixed reference (17, 116) for the tool (70) and a surface (118) of the work piece (2) facing the template (1), d) collecting the determined distance (a) into a memory (126), e) vibrating a rotary cutting tool (68) on the work tool (70) by means of a vibrating means (77); and f) working the work piece (2) based on said collected distance (a). The present invention also relates to a system for working and measuring objects comprising a computer (128) including a computer program (P) for carrying out the method. The present invention also relates to a computer program (P) and a computer program product for performing the method steps. | ||||||
46 | TOOLS WITH REMOVABLE INFORMATION DEVICE | US15572916 | 2016-06-02 | US20180126505A1 | 2018-05-10 | Roger L. Hackman |
A removable assembly (38) comprising an information holding unit (36). The removable assembly is positionable in a material object (2), such as a tool, tool component or part, machine, machine component or part, device, etc., and can be removed therefrom by fluid pressure whereby the material object can be subjected to processing that would otherwise cause damage to, or destroy, the information holding unit (36). | ||||||
47 | Method, System, Computer Programme And A Computer Programme Product For Working of a Work Piece | US15301455 | 2015-01-29 | US20170106452A1 | 2017-04-20 | Hans-Petter ANDERSSON; Björn PETTERSSON |
The present invention relates to a method for working of a work piece, comprising the step of a) providing a template (1) with at least one opening (4, 6, 8, . . . 32) to the work piece (2), b) providing a work tool (70) at the opening (4, 6, 8, . . . 32), c) determining a distance (a) between a fixed reference (17, 116) for the tool (70) and a surface (118) of the work piece (2) facing the template (1), d) collecting the determined distance (a) into a memory (126), e) vibrating a rotary cutting tool (68) on the work tool (70) by means of a vibrating means (77); and f) working the work piece (2) based on said collected distance (a). The present invention also relates to a system for working and measuring objects comprising a computer (128) including a computer program (P) for carrying out the method. The present invention also relates to a computer programme (P) and a computer programme product for performing the method steps. | ||||||
48 | Security device for a power tool accessory | US14330629 | 2014-07-14 | US09082280B2 | 2015-07-14 | Jeffrey Corbat; Thaddeus H. Feiler; Todd Taylor |
A security assembly for a hole saw having a body and cap includes a generally cylindrical body configured to fit within a cavity of the hole saw. The cylindrical body includes a side wall portion and a base portion coupled to the side wall portion. The security assembly also includes a security tag housing coupled to the base portion. Tthe security tag housing defines a receptacle for housing a security tag. | ||||||
49 | Method for coding a drilling device | US12745016 | 2007-11-29 | US08840343B2 | 2014-09-23 | Jürgen Stolte; Wolfgang Gaul; Axel Homann |
The present invention relates to a method for coding a drilling device for an aircraft. The method comprises: placing a drilling template with at least a drilling hole on a work piece; placing a drilling bushing in the drilling hole of the drilling template; placing the drilling device in the drilling hole of the drilling template; wherein the drilling bushing comprises a coding master device, in particular a bushing edge; wherein the drilling device comprises a coding sleeve device and wherein the coding sleeve device is adapted for engaging with the coding master device. | ||||||
50 | SECURITY DEVICE FOR A POWER TOOL ACCESSORY | US13945584 | 2013-07-18 | US20140020434A1 | 2014-01-23 | Jeffrey Corbat; Thaddeus H. Feiler; Todd Taylor |
A security assembly is configured for attachment to a hole saw having a cap defining a central mounting aperture. The security assembly includes a substantially cylindrical base portion having a central axis. A handle portion is coupled to the cylindrical base portion and defines a tag cavity for housing a security tag. An extension member extends opposite the handle portion from the base portion along the central axis. The extension member engages the central mounting aperture of the hole saw. | ||||||
51 | COATED HOLE CUTTER | US12687052 | 2010-01-13 | US20110170972A1 | 2011-07-14 | Robert Richard Zielonka; Joseph H. DeSantis; Christopher F. Fitzgerald; Peter Weremchuk |
A coated hole cutter including an ink-based colored coating applied only to the external surface of the cylindrical blade body of the hole cutter, but not to the surfaces of a circumferentially-extending cutting edge or to the interior surface of the blade body. The ink-based color coating is an ultraviolet activated ink that cures when the coating is exposed to a specific ultraviolet light intensity and wavelength. At least the surfaces of the cutting edge and the internal surface of the blade body, which do not include the coating, have a steam tempered oxide finish that imparts a color that contrasts with the color imparted by the coating. | ||||||
52 | Coated cutting inserts | US11311628 | 2005-12-20 | US07964295B2 | 2011-06-21 | Mats Ahlgren |
The present invention relates to a cutting insert comprising a body of sintered cemented carbide, cermet or ceramic or high speed steel or the superhard materials such as cubic boron nitride or diamond said body being provided with a hard and wear resistant coating including a thin outermost coloring non-oxide layer whereby said color is created by thin film interference. | ||||||
53 | FIXATION DEVICE FOR A PORTABLE DRILLING UNIT | US12530659 | 2008-04-22 | US20100040426A1 | 2010-02-18 | Bjorn Pettersson |
A fixation device for positioning and fixating a portable drilling machine onto a guide bushing on a template, wherein a single locating pin is associated with the guide bushing and extends axially through a separate hole in the drill template adjacent to the guide bushing. A clamping mechanism of the device is configured to concentrically circumscribe a portion of the guide bushing and has a recess for simultaneous engagement with the single locating pin in order to positively lock the housing and a drilling machine attached thereto circumferentially in a predetermined position. | ||||||
54 | CUTTING TOOL WITH INTEGRATED CIRCUIT CHIP | US12331966 | 2008-12-10 | US20090175694A1 | 2009-07-09 | Karen Anne Craig; Thomas O. Muller; Timothy E. Fara; Bernard North |
A system manages a machine tool operation. The system includes a cutting tool, which includes a tool body; an integrated circuit chip securely mounted within the tool body and capable of being read and written upon; and a read/write device for communicating with the integrated circuit chip. The integrated circuit chip is an RFID chip. The tool body may be a mounting chuck, adapter, twist drill, thread tap, indexable drill, milling cutter or a square shank lathe tool. | ||||||
55 | Toolholder | US941356 | 1978-09-11 | US4226562A | 1980-10-07 | Herbert Schmid; Ernst Schmid |
A toolholder has a shank with a tapered body which is adapted to fit into a complementary socket in an end face of a machine tool spindle. A blind bore in the body is engageable by holding means for holding the shank in the socket. A first axial section of this bore is threaded for engagement with a threaded member of one kind of holding means such as a pulling rod or a set bolt coacting with pulling means. A second axial section of the bore is enlarged to form an annular groove for engagement by an expansible head of a pulling member of an alternative kind of holding means. An encoder ring is removably fixed at the toolholder. Each time the tool is exchanged the encoder ring is replaced by an encoder ring corresponding to the new tool. | ||||||
56 | 工作機械における動作制御方法 | JP2017033858 | 2017-02-24 | JP2018139074A | 2018-09-06 | 田中 貴暁; 佐々木 亮輔 |
【課題】加工中に異常が検出された際、加工状況に応じて適切な応答動作をとることができる工作機械における動作制御方法を提供する。 【解決手段】一方の刃物台で異常の発生を検出したものの、他方の刃物台との同時加工中でないと、一方の刃物台のみ退避させ、他方の刃物台については加工を継続する。また、同時加工中であったとしても、加工への影響が小さいと判定すると、一方の刃物台のみを退避させ、他方の刃物台については加工を継続する。したがって、どのような状況であっても全ての刃物台について退避動作させる従来の動作制御方法と比べると、リカバリーにかかる手間や時間を短縮して加工効率の向上を図ることができるし、加工不良となるワークを削減することもできる。 【選択図】図2 |
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57 | 取り外し可能な情報保持具を持つ工具 | JP2017563156 | 2016-06-02 | JP2018517578A | 2018-07-05 | ロジャー エル.ハックマン |
情報保持ユニット(36)を具えた取り外し可能なアセンブリー(38)。この取り外し可能なアセンブリーは、工具か、工具の構成部品または一部か、機械装置か、機械装置の構成部品または一部か、器具などの如き有形物(2)に配置可能であって、流体圧によってそこから取り外し可能であり、それによって有形物は加工に当てられることができ、さもなければ情報保持ユニット(36)に損傷を与えるか、またはこれを破壊しよう。 | ||||||
58 | ダミーチップを含む工具 | JP2017539226 | 2016-01-29 | JP2018504287A | 2018-02-15 | ケルナー, ウルリッヒ |
回転工具用の工具は、回転軸(A)と、第1の質量と第1の外部形状とを有するIDチップを受け取るための第1の凹部(27)とを有する工具本体(21)を含む。工具は、第1の凹部(27)で受け取ることができるダミーチップ(31)を含み、第1の凹部(27)内のダミーチップ(31)により、回転バランスがとられる。 | ||||||
59 | ワークピースを加工するための方法、システム、コンピュータプログラム、およびコンピュータプログラム製品 | JP2016568923 | 2015-01-29 | JP2017520414A | 2017-07-27 | アンデション ハンス−ペッター; ペッターション ビヨン |
本発明は、ワークピースの加工方法も関し、a)一以上の開口部(4,6,8,…32)を有するテンプレート(1)をワークピース(2)に配し、b)開口部(4,6,8,…32)に加工工具(70)を配し、c)加工工具(70)のための固定基準(17,116)とテンプレート(1)に対向するワークピース(2)の表面(118)との間の間隔(a)を判定し、d)判定された間隔(a)をメモリ(126)に格納し、e)振動手段(77)により加工工具(70)上で回転切断具(68)を振動させ、f)格納された間隔(a)に基づきワークピース(2)を加工する。本発明はまた、同方法を実行するコンピュータプログラム(P)を含むコンピュータ(128)を備える物体を加工および測定するシステムに関する。本発明はまた、同方法のステップを実行するコンピュータプログラム(P)およびコンピュータプログラム製品に関する。 | ||||||
60 | Cutting tool equipped with an integrated circuit chip | JP2010538145 | 2008-12-11 | JP2011518045A | 2011-06-23 | アン クレイグ、カレン; ノース、バーナード; イー. ファラ、ティモシー; オー. ミュラー、トーマス |
システムにより、工作機械の動作を管理する。 システムは、シャンク(16)を有する工具本体(15)を含む切削工具(10)と、工具本体(15)のシャンク(16)内にしっかりと実装され、読み書き可能な集積回路チップ(20)と、集積回路チップ(20)と通信するための読み書き装置(700)と、を含む。 集積回路チップ(20)は、RFIDチップ(20)である。 |