Laser processing machine with monitoring of gas atmosphere and operating gases
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
B23K-026/00
B23K-026/34
B23K-026/38
출원번호
UP-0632096
(2003-08-01)
등록번호
US-7595463
(2009-10-12)
우선권정보
EP-02017281(2002-08-01)
발명자
/ 주소
Weick, Jürgen Micheal
Dimiter, Marc
출원인 / 주소
TRUMPF Werkzeugmaschinen GmbH + Co. KG
대리인 / 주소
Fish & Richardson P.C.
인용정보
피인용 횟수 :
6인용 특허 :
42
초록▼
A laser processing machine includes a measuring cell into which gas to be analyzed can flow, a means for decoupling diagnostic radiation from the laser radiation provided for material processing of a workpiece, and a sound detector for detecting the photo-acoustical effect produced in the measuring
A laser processing machine includes a measuring cell into which gas to be analyzed can flow, a means for decoupling diagnostic radiation from the laser radiation provided for material processing of a workpiece, and a sound detector for detecting the photo-acoustical effect produced in the measuring cell due to absorption of the diagnostic radiation by gas in the cell.
대표청구항▼
What is claimed is: 1. A laser-processing machine comprising: a laser that produces laser radiation at a wavelength λ and that is associated with one or more operating gases, wherein the one or more operating gases include one or more gases of the gas atmosphere through which the laser is guid
What is claimed is: 1. A laser-processing machine comprising: a laser that produces laser radiation at a wavelength λ and that is associated with one or more operating gases, wherein the one or more operating gases include one or more gases of the gas atmosphere through which the laser is guided, one or more laser-processing machine gases that are used on the workpiece, and one or more supply gases for the laser; a means for decoupling diagnostic radiation from the laser radiation that is produced by the laser, the means for decoupling diagnostic radiation being positioned in the path of the laser radiation that is produced by the laser thus providing diagnostic radiation that is used for analysis of one or more operating gases and providing laser radiation that is directed to the workpiece; a measuring cell that contains a portion of the one or more operating gases to be analyzed, the measuring cell being positioned downstream of the means for decoupling diagnostic radiation and in the path of the decoupled diagnostic radiation such that the measuring cell receives the decoupled diagnostic radiation; and a sound detector for detecting a photo-acoustical effect due to absorption of the diagnostic radiation at the wavelength λ by the portion of one or more operating gases in the measuring cell to thereby analyze the one or more operating gases. 2. The laser-processing machine of claim 1, wherein the laser radiation is CO2 laser radiation. 3. The laser-processing machine of claim 1, wherein the means for decoupling the diagnostic radiation from the laser radiation produced by the laser includes a means for diffracting laser radiation used for power measurement. 4. The laser-processing machine of claim 1, wherein the means for decoupling the diagnostic radiation from the laser radiation produced by the laser includes a means for reflecting laser radiation used for power measurement. 5. The laser-processing machine of claim 1, wherein the means for decoupling the diagnostic radiation from the laser radiation produced by the laser includes a partially-transparent mirror for reflecting laser radiation used for power measurement. 6. The laser-processing machine of claim 5, wherein the partially-transparent mirror is a rear mirror of the radiation source. 7. The laser-processing machine of claim 1, further comprising a mechanical means for generating a pulsed diagnostic radiation. 8. The laser-processing machine of claim 1, further comprising an electronic means for generating a pulsed diagnostic radiation. 9. The laser-processing machine of claim 1, further comprising a control unit for using a rinsing gas in response to the photo-acoustical effect measured. 10. The laser-processing machine of claim 9, wherein the control unit is formed for controlling the flow rate of one or more operating gases of the laser processing machine in response to the analysis of a gas atmosphere in feed lines or in a laser beam path. 11. The laser-processing machine of claim 1, wherein the one or more laser-processing machine gases are supply gases. 12. The laser-processing machine of claim 1, wherein the one or more laser-processing machine gases are cuffing gases. 13. The laser-processing machine of claim 1, wherein the one or more laser-processing machine gases are working gases. 14. The laser-processing machine of claim 1, further comprising a filter, wherein the configuration of the measuring cell and the sound detector are adapted for use to monitor the effect of the filter. 15. The laser-processing machine of claim 1, further comprising a means for directing the portion of the laser-processing machine gas in the measuring cell to flow back to the laser after it has been analyzed. 16. The laser-processing machine of claim 11, wherein the supply gases are supply gases of the laser. 17. The laser-processing machine of claim 1, wherein the one or more laser-processing machine gases are laser operating gases. 18. The laser-processing machine of claim 17, wherein the laser operating gases comprise CO2. 19. The laser-processing machine of claim 1, wherein the one or more laser-processing machine gases are welding gases or protective gases. 20. A diagnostic machine comprising: a radiation decoupler positioned downstream of a laser and in the path of laser radiation of wavelength λ that is produced by the laser to provide diagnostic radiation and to provide laser radiation that is directed to a workpiece; a measuring cell that contains operating gas to be analyzed, the measuring cell being positioned downstream of the radiation decoupler and in the path of the decoupled diagnostic radiation such that the measuring cell receives the decoupled diagnostic radiation, wherein the measuring cell includes an inlet that receives the operating gas to be analyzed from one or more of gases of the gas atmosphere through which the laser is guided, laser-processing machine gases that are used on the workpiece, and supply gases for the laser; and a sound detector positioned relative to the measuring cell, and configured to detect a photo-acoustical effect due to absorption of the decoupled radiation at wavelength λ by the operating gas in the measuring cell to thereby analyze the operating gas. 21. The diagnostic machine of claim 20, wherein the radiation decoupler includes a diffractor that diffracts the laser radiation produced by the laser. 22. The diagnostic machine of claim 20, wherein the radiation decoupler includes a reflector that reflects at least part of the laser radiation produced by the laser. 23. The diagnostic machine of claim 20, wherein the radiation decoupler includes a partially-transparent mirror that reflects the laser radiation produced by the laser. 24. The diagnostic machine of claim 20, further comprising a pulse generator at an output of the laser and in the path of the laser radiation produced by the laser. 25. The diagnostic machine of claim 20, further comprising a control unit for using a rinsing gas in response to the photo-acoustical effect measured. 26. The diagnostic machine of claim 20, further comprising a filter, wherein the configuration of the measuring cell and the sound detector are adapted for use to monitor the effect of the filter. 27. The diagnostic machine of claim 20, wherein the operating gas to be analyzed is a laser operating gas. 28. The diagnostic machine of claim 27, wherein the laser operating gas is CO2. 29. The diagnostic machine of claim 20, wherein the operating gas to be analyzed comprises gas from a gas atmosphere within the laser. 30. The diagnostic machine of claim 20, wherein the operating gas to be analyzed is a supply gas of the laser. 31. The diagnostic machine of claim 20, wherein the operating gas to be analyzed is a cutting gas or a working gas.
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