| 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 | Profile-machining tool | US48893174 | 1974-07-16 | US3911544A | 1975-10-14 | MEISTERRING REINHOLD |
| The tool serves to machine a profile on a workpiece while the same is held stationary. Part-circular cutting teeth are readjustably mounted on a rotary disc in different positions along the axis of said disc and at such a radial distance from said axis that said teeth are adapted to machine said profile.
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| 2 | Rule miter and cut-off | US937325 | 1925-02-16 | US1613087A | 1927-01-04 | DETTNER GEORGE W |
| 3 | Device for Keyway Broaching | US14487610 | 2014-09-16 | US20150132077A1 | 2015-05-14 | Tobias Fautz; Thomas Kreutzer; Karlheinz Jansen |
| A device for keyway broaching is provided with a housing, a drive shaft, a broaching carriage received and supported in the housing, a tool support connected to the broaching carriage, and a crank drive that couples the drive shaft and the broaching carriage with each other. The broaching carriage, when driven by the drive shaft, performs an oscillating movement comprising a cutting movement and a return stroke. A sleeve is arranged between the housing and the broaching carriage. A first seal is provided between the housing and the sleeve and/or between the sleeve and the broaching carriage. The tool support is connected to the broaching carriage with a rocking lever interposed between the tool support and the broaching carriage. The drive shaft has a control section that controls a relative movement between the rocking lever and the broaching carriage. | ||||||
| 4 | Rotary cutting tool | US961741 | 1978-11-17 | US4191075A | 1980-03-04 | Evgeny I. Morgunsky; Valery A. Sidorenko; Vladimir A. Plotnikov |
| The disclosed cutting-tool comprises a stepped-diameter arbor with bearings supporting rotatably thereon a holder carrying the cup-shaped cutting bit. In accordance with the invention, the holder is made up of a hollow shaft and a sleeve encompassing this shaft. The sleeve is journalled adjacent to the cutting bit in one of the bearings located about the stepped-diameter arbor, said arbor having a central bore. The other bearing is accommodated within the central-bore and supports the hollow shaft likewise accommodated in the central bore of the arbor. Owing to the disclosed structure of the holder and its interconnection with the stepped-diameter arbor, sufficient rigidity of the cutting-tool, matched by its compact size is ensured. | ||||||
| 5 | Device for keyway broaching | US14487610 | 2014-09-16 | US09573233B2 | 2017-02-21 | Tobias Fautz; Thomas Kreutzer; Karlheinz Jansen |
| A device for keyway broaching is provided with a housing, a drive shaft, a broaching carriage received and supported in the housing, a tool support connected to the broaching carriage, and a crank drive that couples the drive shaft and the broaching carriage with each other. The broaching carriage, when driven by the drive shaft, performs an oscillating movement comprising a cutting movement and a return stroke. A sleeve is arranged between the housing and the broaching carriage. A first seal is provided between the housing and the sleeve and/or between the sleeve and the broaching carriage. The tool support is connected to the broaching carriage with a rocking lever interposed between the tool support and the broaching carriage. The drive shaft has a control section that controls a relative movement between the rocking lever and the broaching carriage. | ||||||
| 6 | MULTIAXIS MACHINING APPARATUS | US12675024 | 2008-08-12 | US20110123285A1 | 2011-05-26 | Hiroyuki Matsuda; Shigeru Hosoe |
| A tool retaining unit 20 includes a turntable 21c for retaining a cutting tool 2 so that the tip 2a of the cutting tool 2 is positioned on the extension of the rotation axis a of the tool retaining unit 20, and a turntable 22b for retaining the cutting tool 2 so that the tip 2a of the cutting tool 2 is positioned on the extension of a rotation axis b. As a result, the position of the tip 2a can be changed without the tip 2a of the cutting tool 2 being corrected in the direction of a cutting line. | ||||||
| 7 | Metal cutting tools | US38310064 | 1964-07-16 | US3283394A | 1966-11-08 | JAMES HARGREAVES |
| 8 | Multi-axis machine | JP2009530040 | 2008-08-12 | JP5359875B2 | 2013-12-04 | 裕之 松田; 秀 細江 |
| A tool retaining unit 20 includes a turntable 21c for retaining a cutting tool 2 so that the tip 2a of the cutting tool 2 is positioned on the extension of the rotation axis a of the tool retaining unit 20, and a turntable 22b for retaining the cutting tool 2 so that the tip 2a of the cutting tool 2 is positioned on the extension of a rotation axis b. As a result, the position of the tip 2a can be changed without the tip 2a of the cutting tool 2 being corrected in the direction of a cutting line. | ||||||
| 9 | A pipe clamp and a method of making a pipe clamp | EP81302525.1 | 1981-06-08 | EP0041855A1 | 1981-12-16 | Gillett, David Alexander |
A pipe clamp suitable for use in connecting together two pipes, for instance in the erection of display stands and shop- fittings. The clamp has two mating parts 18 and 19 defining a generally cylindrical body, a bolt passing through a hole 24 in one part and threadingly engaged with a corresponding hole in the other part, to allow the two parts to be clamped together. Each part defines two jaws 20 and 21, each pair of opposed jaws 20 and 21 defining pipe-receiving openings 22 and 23. Both pairs of jaws are configured to allow a pipe to be gripped therebetween when extending in a direction perpendicular to or coincident with the axis of the generally cylindrical body (A2, B2 and A1, B1 respectively). |
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| 10 | 多軸加工機 | JP2009530040 | 2008-08-12 | JPWO2009028329A1 | 2010-11-25 | 裕之 松田; 細江 秀; 秀 細江 |
| 工具保持部20に、その回転軸aの延長線上に切削工具2の刃先2aが位置するように切削工具2を保持させるターンテーブル21cと、回転軸bの延長線上に切削工具2の刃先2aが位置するように切削工具2を保持させるターンテーブル22bを備えている。これにより、切削工具の刃先を加工線の方向に補正する必要がなく刃先の姿勢を変更することができる。 | ||||||
| 11 | Pipe clamping tool and its manufacture | JP8939481 | 1981-06-10 | JPS5757910A | 1982-04-07 | DABITSUDO AREKUSANDAA JIRETSUT |
| 12 | Rotary cutting tool | JP14611878 | 1978-11-28 | JPS54106983A | 1979-08-22 | EBUGENI IBUANOBUICHI MORUGUNSU; BUARERI AREKUSEEBUICHI SHIDORE; BURAJIMIRU AREKUSANDOROBUICHI |
| 13 | 슬로팅 머신의 바이트 홀딩장치 | KR1020160049165 | 2016-04-22 | KR1020170120817A | 2017-11-01 | 윤상진 |
| 본발명은바이트홀딩장치에관한것으로, 보다상세하게는공작물의키홈을가공하는슬로팅머신에서공작물에키홈가공후 바이트및 바이트홀더가상승할때 바이트와공작물의접촉또는부딪힘을방지하여바이트와바이트홀더의휨 및마모를방지할수 있는슬로팅머신의바이트홀딩장치에관한것이다. 본발명의목적은상기한문제점을해결하기위한것으로서, 바이트가키홈가공후 상승할때 공작물(키홈)에서분리된상태로상승할수 있도록함으로써바이트홀더의휘어짐또는바이트의접촉으로인한불필요한마모를방지할수 있도록한 슬로팅머신의바이트홀딩장치를제공함에있다. 상기목적을실현하기위하여본 발명은, 바이트홀더에바이트가설치되어키홈을가공하도록구성된슬로팅머신의바이트홀딩장치에있어서, 상기한바이트홀더는원통형의홀더본체(2)와, 상기한홀더본체(2)의상단에고정설치되어있는실린더(3)와, 상기한홀더본체(2)의하단에위치되어있고홀더본체(2)의중심에서편향되어설치된회전핀(4)에의해일정각도회전할수 있도록설치됨과아울러바이트(BT)가고정설치되어있는바이트회전구(5)와, 상기한실린더(3)의작동에의해바이트회전구(5)가회전핀(4)을중심으로회전하도록설치된연결수단을포함함을특징으로한다. | ||||||
| 14 | METHOD FOR THE PRODUCTION OF RECESSES IN WORKPIECES IN A CHIP-REMOVING MANNER AND DEVICE THEREFOR | PCT/EP2015001531 | 2015-07-24 | WO2016015851A9 | 2016-04-21 | DEITERT HEINZ |
| The invention relates to a device (1) for processing preferably metal workpieces in a chip-removing manner, comprising a tool (2) and a workpiece holder (3), wherein the tool (2) can be moved in relation to a workpiece (4) accommodated in the workpiece holder (3) along a specifiable motion path in order to process the workpiece (4) in a chip-removing manner, wherein the tool (2) can be pivoted in relation to a workpiece (4) accommodated in the workpiece holder (3) about a tool pivot axis (W), wherein the tool pivot axis (W) is oriented at least substantially perpendicularly to the motion path, wherein the device is designed to correct the orientation of the blade (9) of the tool (2) in accordance with the course of the motion path by means of a pivoting of the tool (2) in relation to the workpiece (4) about the tool pivot axis (W). In order to present a method and a device that enable faster and thus more efficient production, the tool holder (8) is accommodated on an linear drive (10), which in turn is itself accommodated on a tool carrier (5) in such a way that the linear drive can be pivoted about a linear drive pivot axis (L). | ||||||
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