基本信息:
- 专利标题: 작업 거리의 현장 측정을 이용한 재료 가공 장치
- 专利标题(英):Material-working device with in-situ measurement of the working distance
- 专利标题(中):材料加工设备,具有原位测量工作距离
- 申请号:KR1020127022903 申请日:2011-05-10
- 公开(公告)号:KR101483350B1 公开(公告)日:2015-01-16
- 发明人: 쉐렌베르마틴 , 코겔-홀라쉐르마르쿠스
- 申请人: 프레시텍 옵트로닉 게엠베하
- 申请人地址: Schleussnerstr. **, ***** Neu-Isenburg, Germany
- 专利权人: 프레시텍 옵트로닉 게엠베하
- 当前专利权人: 프레시텍 옵트로닉 게엠베하
- 当前专利权人地址: Schleussnerstr. **, ***** Neu-Isenburg, Germany
- 代理人: 김경희
- 优先权: DE10 2010 016 8629 2010-05-10
- 国际申请: PCT/IB2011/052048 2011-05-10
- 国际公布: WO2011141867 2011-11-17
- 主分类号: B23K26/046
- IPC分类号: B23K26/046 ; B23K26/082 ; B23K26/03 ; G01B11/14
The present invention relates to the processing beam (4) of the beam generator (5) in use and the beam generator 5 and the workpiece 6, the material processing device (1) using the field measurements of the working distance (a) between. The material processing apparatus 1 has a working laser (13) having a processing beam (4) for this purpose. A laser scanner (14) comprising a two-dimensional deflecting device (15) having a scanner mirror (31, 32) is arranged downstream of the working laser (13). The auto focus readjustment device for changing the working distance (a (t)) is provided. Spectrometer (17) and at least a second active area of the laser scanner 14 and the workpiece 6 by the lens system 19 and the sensor device (16) comprising a single sensor light source record workpiece distance (a) ( 20) the association, to generate a measuring beam (18) for sensing. A sensor light source laser scanner 14 in the material processing device (1) by an optical coupling element (21) beam (18) for measurement has a polarized and cross the linear polarization direction into collimated state of 11,12 It is coupled into the working beam path 25.
公开/授权文献:
- KR1020120112853A 작업 거리의 현장 측정을 이용한 재료 가공 장치 公开/授权日:2012-10-11
信息查询:
EspacenetIPC结构图谱:
B | 作业;运输 |
--B23 | 机床;不包含在其他类目中的金属加工 |
----B23K | 钎焊或脱焊;焊接;用钎焊或焊接方法包覆或镀敷;局部加热切割,如火焰切割;用激光束加工 |
------B23K26/00 | 用激光束加工,例如焊接,切割,打孔 |
--------B23K26/02 | .工件的定位和观测,如相对于冲击点,激光束的对正,瞄准或聚焦 |
----------B23K26/04 | ..激光束的自动对正,瞄准或聚焦,如应用反向散射光 |
------------B23K26/046 | ...激光束的自动聚焦 |