Laser welding head with dual movable mirrors providing beam movement and laser welding systems and methods using same

What is claimed is: 1 . A laser welding head comprising: a collimator configured to be coupled to an output fiber of a fiber laser; at least first and second movable mirrors configured to receive a collimated laser beam from the collimator and to move the beam in first and second axes within only a limited field of view defined by a scan angle of about 1-2°; and a focus lens configured to focus the laser beam relative to a workpiece while the beam is moved. 2 . The laser welding head of claim 1 wherein the movable mirrors are approximately the same size. 3 . The laser welding head of claim 1 wherein the movable mirrors are galvanometer mirrors. 4 . The laser welding head of claim 1 wherein the focus lens is not a scanning lens. 5 . The laser welding head of claim 1 wherein the movable mirrors are configured to move the collimated laser beam within only a limited field of view having a dimension less than 30×30 mm. 6 . The laser welding head of claim 1 further comprising a gas assist accessory proximate the focus lens for delivering gas to a weld site during welding. 7 . The laser welding head of claim 1 further comprising a protective window after the focus lens. 8 . The laser welding head of claim 7 further comprising an air knife proximate the protective window. 9 . The laser welding head of claim 1 further comprising at least first and second thermal sensors proximate the first and second mirrors, respectively. 10 . The laser welding head of claim 1 further comprising a detector for detecting a seam to be welded. 11 . The laser welding head of claim 1 further comprising a safety interlock path extending from the collimator to proximate the mirrors. 12 . A laser welding head comprising: a collimator configured to be coupled to an output fiber of a fiber laser; at least first and second movable mirrors configured to receive a collimated laser beam from the collimator and to move the beam in first and second axes; at least first and second thermal sensors proximate the first and second movable mirrors, respectively, and configured to detect a thermal condition; and a focus lens configured to focus the laser beam. 13 . The laser welding head of claim 12 further comprising a safety interlock path extending from the collimator to the mirrors. 14 . A laser welding head comprising: a collimator module including a collimator configured to be coupled to an output fiber of a fiber laser; a wobbler module coupled to the collimator module, the wobbler module including at least first and second movable mirrors configured to receive a collimated laser beam from the collimator and to move the beam in first and second axes; and a core block module coupled to the wobbler module, the core block module including at least a focus lens configured to focus the laser beam. 15 . The laser welding head of claim 14 further including a beam shaper module coupled to the collimator module, the beam shaper module including diffractive optics configured to receive and shape a collimated beam. 16 . The laser welding head of claim 14 wherein the wobbler module includes at least first and second thermal sensors proximate the first and second mirrors, respectively. 17 . The laser welding head of claim 14 wherein the wobbler module includes first and second galvo modules including galvanometer mirrors, wherein the galvo modules are configured to be connected to a galvo controller. 18 . The laser welding head of claim 14 further comprising a camera module coupled to the core block module, wherein the camera module includes at least a camera or detector for detecting a seam to be welded. 19 . The laser welding head of claim 14 wherein the core block module includes a fixed mirror configured to reflect the laser beam from the movable mirrors to the focus lens. 20 . The laser welding head of claim 14 wherein the collimator module includes a fiber interlock connector for connecting to a mating interlock connector on an output fiber connector such that a safety interlock condition is provided when the output fiber connector is not connected to the collimator module, and wherein the collimator module and the wobbler module include fiber interlock connections configured to provide the safety interlock condition in response sensors within the wobbler module. 21 . The laser welding head of claim 20 wherein the wobbler module includes at least first and second thermal sensors proximate the first and second mirrors, respectively, and wherein the safety interlock condition is provided in response to the thermal sensors. 22 . The laser welding head of claim 20 wherein the wobbler module includes first and second galvo modules including galvanometer mirrors, wherein the galvo modules are configured to be connected to a galvo controller, and wherein the wobbler module includes a fiber interlock connector configured to be connected to the galvo controller. 23 . The laser welding head of claim 14 wherein the wobbler module is configured to move the mirrors within only a limited field of view defined by a scan angle of about 1-2°. 24 . A laser welding system comprising: a fiber laser including an output fiber; a welding head coupled to the output fiber of the fiber laser, the welding head comprising: a collimator configured to be coupled to an output fiber of a fiber laser; at least first and second movable mirrors configured to receive a collimated laser beam from the collimator and to move the beam in first and second axes; and a focus lens configured to focus the laser beam; and a control system for controlling at least the fiber laser and positions of the mirrors. 25 . The laser welding system of claim 24 wherein the fiber laser includes an Ytterbium fiber laser. 26 . The laser welding system of claim 24 wherein the fiber laser includes multiple output fibers for delivering multiple laser beams. 27 . The laser welding system of claim 24 wherein the control system is configured to control at least one of the mirrors to provide a wobble pattern. 28 . The laser welding system of claim 24 further comprising a detector for detecting a seam to be welded, and wherein the control system is configured to control at least one of the mirrors to move the beam to find and/or follow the seam. 29 . The laser welding system of claim 24 wherein the welding head includes sensors, and wherein the control system is configured to cause the fiber laser to shut off in response to the sensors. 30 . The laser welding system of claim 29 wherein the sensors include thermal sensors proximate the respective movable mirrors. 31 . The laser welding system of claim 30 wherein the collimator includes a fiber interlock connector coupled to an output fiber connector of the output fiber such that disconnection of the output fiber connector results in a safety interlock condition that shuts down the fiber laser, and wherein the control system triggers the safety interlock condition in response to a predefined thermal condition sensed by the thermal sensors. 32 . The laser welding system of claim 24 wherein the control system is configured to control the fiber laser to adjust laser power in response to movement and/or a position of the beam.