Laser beam shaping device and apparatus for material machining
First Claim
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1. A laser beam homogenizer and material machining apparatus for machining a surface of a work piece, said device comprising:
- a laser beam source said beam having a given energy distribution across said beam;
a controllable reflecting means for controlling said energy distribution of said laser beam, said means including multiple individual reflecting surfaces for reflecting a portion of said laser beam, each of which is capable of responding to a separate control signal, a mounting surface upon which said multiple individual reflecting surfaces are mounted and a flexible reflecting surface actuator means for connecting said multiple individual reflecting surfaces to said mounting surface said reflecting surface actuator means being changeable in position in response to varying control signal;
energy distribution monitoring means for monitoring said energy distribution of said beam, said energy distribution monitoring means being operable on a pulse by pulse basis; and
, reflecting surface control means for controlling said position of said reflecting surface actuator means based on said output signal from said energy distribution monitoring means, whereby said given energy distribution of said beam may be changed according to a pre-selected program.
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Abstract
A programmable apparatus for laser beam shaping including a preprogrammable mircomirror array produces a spatial energy distribution suitable for accurately and rapidly marking, machining and processing materials. The preprogrammed micromirror array redistributes the laser output beam energy to produce a desired two-dimensional machining pattern on a work piece. The energy pattern created by the preprogrammed micromirror array is changeable between successive pulses of the laser to create accurate, complex three-dimensional machined shapes in a work piece not easily achieved by conventional machining systems. A special application of this invention is laser beam shaping to produce a uniform spatial energy distribution, i.e. homogenizing the beam from a laser with non-uniform energy distribution. Continuous adjustment of beam shaping is provided to maintain beam homogenization in accordance with changes in laser beam output energy profile.
57 Citations
20 Claims
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1. A laser beam homogenizer and material machining apparatus for machining a surface of a work piece, said device comprising:
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a laser beam source said beam having a given energy distribution across said beam;
a controllable reflecting means for controlling said energy distribution of said laser beam, said means including multiple individual reflecting surfaces for reflecting a portion of said laser beam, each of which is capable of responding to a separate control signal, a mounting surface upon which said multiple individual reflecting surfaces are mounted and a flexible reflecting surface actuator means for connecting said multiple individual reflecting surfaces to said mounting surface said reflecting surface actuator means being changeable in position in response to varying control signal;
energy distribution monitoring means for monitoring said energy distribution of said beam, said energy distribution monitoring means being operable on a pulse by pulse basis; and
,reflecting surface control means for controlling said position of said reflecting surface actuator means based on said output signal from said energy distribution monitoring means, whereby said given energy distribution of said beam may be changed according to a pre-selected program.
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2. A laser beam homogenizer and material machining apparatus for machining a surface of a work piece, said device comprising:
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a laser beam source said beam having a given energy distribution across said beam;
a controllable reflecting means for controlling said energy distribution of said laser beam, said means including multiple individual reflecting surfaces for reflecting a portion of said laser beam, each of which is capable of responding to a separate control signal, a mounting surface upon which said multiple individual reflecting surfaces are mounted and a flexible reflecting surface actuator means for connecting said multiple individual reflecting surfaces to said mounting surface said reflecting surface actuator means being changeable in position in response to varying control signal;
energy distribution monitoring means for monitoring said energy distribution of said beam;
reflecting surface control means for controlling said position of said reflecting surface actuator means based on said output signal from said energy distribution monitoring means; and
,imaging optics positioned between said controllable reflecting device and said energy distribution monitoring means, said imaging optics including a focusing lens for focusing said beam, an optical projection stop comprising, an aperture for controlling the energy intensity of said beam and a projection lens for projecting said beam on to said work piece, whereby said given energy distribution of said beam may be changed according to a pre-selected program and portions of said beam may be directed through said aperture by said controllable reflecting surfaces and portions of said beam may be directed away from said aperture by said controllable reflecting surfaces so as to control the energy intensity of said beam. - View Dependent Claims (3, 4, 5, 6, 7, 8, 9, 10)
work piece position monitoring means for monitoring the position of said work piece; and
,beam position control means for controlling said position of said beam based on said output signal from said work piece position monitoring means, whereby the position of said beam may be adjusted so as to maintain precise tracking of said work piece.
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4. The apparatus of claim 3 further including a beam splitter whereby a portion of said beam is directed to said energy distribution monitoring means, a portion of said beam is directed to said work piece position monitoring means, and the remainder of said beam passes through to said work piece.
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5. The apparatus of claim 4 whereby said energy distribution monitoring means comprises a beam spatial profile measuring device.
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6. The apparatus of claim 5 whereby said work piece position monitoring means comprises a feature location detector and illuminator comprising:
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detecting means for detecting the location of any point on said work piece;
illuminating means for illuminating the location of any point on said work piece.
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7. The apparatus of claim 6 whereby said reflecting surface control means comprises a computer.
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8. The apparatus of claim 7 whereby said beam position control means comprises a computer.
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9. The apparatus of claim 8 whereby the output of said computer passes through an interface board prior to being sent to said controllable reflecting device for transforming the output signal from said computer into an acceptable input control signal for said controllable reflecting device.
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10. The apparatus of claim 9 whereby said reflecting surfaces of said controllable reflecting device are coated with a coating which reflects light of a wavelength corresponding to the wavelength of the light in said laser beam.
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11. A method for laser beam homogenization and material machining for machining a surface of a work piece, said method consisting of the steps of:
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a. generating a laser beam said beam having a given energy distribution across said beam;
b. directing said laser beam at a controllable reflecting means for controlling said energy distribution of said laser beam, said controllable reflecting means including multiple individual surfaces for reflecting a portion of said laser beam, each of which is capable of responding to a separate control signal;
a mounting surface upon which said multiple individual reflecting surfaces are mounted; and
, a flexible reflecting surface actuator means for connecting said multiple individual reflecting surfaces to said mounting surface said reflecting actuator means being changeable in position in response to varying control signal;
c. monitoring said energy distribution of said beam on a pulse by pulse basis; and
,d. controlling said position of said reflecting surface actuator means based on the result of monitoring said energy distribution, whereby said energy distribution of said beam may be changed according to a pre-selected program.
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12. A method for laser beam homogenization and material machining for machining a surface of a work piece, said method consisting of the steps of:
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a. generating a laser beam said beam having a given energy distribution across said beam;
b. directing said laser beam at a controllable reflecting means for controlling said energy distribution of said laser beam, said controllable reflecting means including multiple individual surfaces for reflecting a portion of said laser beam, each of which is capable of responding to a separate control signal;
a mounting surface upon which said multiple individual reflecting surfaces are mounted; and
, a flexible reflecting surface actuator means for connecting said multiple individual reflecting surfaces to said mounting surface said reflecting actuator means being changeable in position in response to varying control signal;
c. monitoring said energy distribution of said beam; and
,d. controlling said position of said reflecting surface actuator means based on the result of monitoring said energy distribution;
e. focusing said beam on the plane of said an optical projection stop;
f. directing said beam toward or way from said optical projection stop to control the energy intensity of said beam;
g. projecting said beam on said work lens, whereby portions of said beam may be directed through said aperture by said controllable reflecting surfaces and portions of said beam may be directed away from said aperture by said controllable reflecting surfaces so as to control the energy intensity of said beam. - View Dependent Claims (13, 14, 15, 16, 17, 18, 19, 20)
h. monitoring the position of said work piece; and
,i. controlling the position of said on said output signal from said work piece position monitoring step, whereby the position of said beam may be adjusted so as to maintain precise tracking of said work piece.
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14. The method of claim 13 further including using a beam splitter to perform the step of:
j. splitting said beam into at least 3 separate beams whereby a portion of said beam is made available for energy distribution monitoring, a portion of said beam is made available for work piece position monitoring, and the remainder of said beam passes through to said work piece.
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15. The method of claim 14 whereby said energy distribution monitoring step consists of:
k. measuring said beam spatial profile.
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16. The method of claim 15 whereby the step of monitoring the position of said work piece consists of using a feature location detector and illuminator to perform the steps of:
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l. detecting the location of any point on said work piece; and
,m. illuminating the location of any point on said work piece.
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17. The method of claim 16 whereby the step of controlling said reflecting surface is performed by a computer.
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18. The method of claim 17 whereby step of controlling said beam position is performed by a computer.
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19. The method of claim 18 further including the step:
n. sending the signal from said computer through an interface board prior to being sent to said controllable reflecting device for transforming the output signal from said computer into an acceptable input control signal for said controllable reflecting device.
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20. The method of claim 19 further including the step of:
o. directing said laser beam at said reflecting surfaces of said controllable reflecting device which are coated with a coating which reflects light of a wavelength corresponding to the wavelength of the light in said laser beam.
Specification
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Current AssigneeWestar Photonics Incorporated
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Original AssigneeWestar Photonics Incorporated
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InventorsHoffman, Brian D., Brandinger, Jay J., Polkowski, Edward T.
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Primary Examiner(s)Heinrich, Samuel M.
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Application NumberUS09/866,058Publication NumberTime in Patent Office809 DaysField of Search219/121.67, 219/121.68, 219/121.69, 219/121.7, 219/121.71, 219/121.72, 219/121.73, 219/121.74US Class Current219/121.67CPC Class CodesB23K 26/04 Automatically aligning, aim...B23K 26/043 along the beam path, i.e. a...B23K 26/0608 in the same heat affected z...B23K 26/067 Dividing the beam into mult...B23K 26/0734 into an annular shapeB23K 26/702 Auxiliary equipmentG02B 26/0841 the reflecting element bein...
