Abstract: A low cost method and apparatus for simultaneous block melting of a material by laser enabling completion of work in a short time. A laser beam from a YAG laser source etc. strikes a diffraction type optical element like a diffraction lens and is split into a large number of beams by diffraction and transmission. The beams are focused by a condensing lens etc. on a plastic surface as a large number of points or a line. The plastic is simultaneously heated to melt at these focused points for welding with another object or for removal. Therefore, no deformation occurs in the worked material like in the prior art where a surface was scanned by a focused point. The worked material may be a metal etc. in addition to a plastic.

Abstract: In a laser beam machining method in which laser beams L are irradiated with a movement of the robot 3 and the three-dimensional workpiece 10 is machined, a locus speed of the robot 3 at a position where the workpiece 10 is machined is measured previously or in real time, and an intensity of the laser beams is controlled according to this locus speed. In the case of a workpiece made of resin, in addition to the locus speed, a change in the transmission of the workpiece with respect to the laser beams is fed back to an output of the laser beams.

Abstract: A method for manufacturing a resin mold includes the steps of: laminating a second resin member, a filling member and a first resin member in this order; and irradiating with the laser beam from a first resin member side so that the first resin member and the second resin member are welded. The first resin member is capable of transmitting a laser beam. The laser beam works as a heat source. The second resin member is capable of absorbing the laser beam. The filling member fills a clearance between the first and second resin members when the first and second resin members are attached. Thus, the method provides the resin mold without a defect such as a void.

Abstract: A low cost method and apparatus for simultaneous block melting of a material by laser enabling completion of work in a short time. A laser beam from a YAG laser source etc. strikes a diffraction type optical element like a diffraction lens and is split into a large number of beams by diffraction and transmission. The beams are focused by a condensing lens etc. on a plastic surface as a large number of points or a line. The plastic is simultaneously heated to melt at these focused points for welding with another object or for removal. Therefore, no deformation occurs in the worked material like in the prior art where a surface was scanned by a focused point. The worked material may be a metal etc. in addition to a plastic.

Abstract: A low cost method and apparatus for simultaneous block melting of a material by laser enabling completion of work in a short time. A laser beam from a YAG laser source etc. strikes a diffraction type optical element like a diffraction lens and is split into a large number of beams by diffraction and transmission. The beams are focused by a condensing lens etc. on a plastic surface as a large number of points or a line. The plastic is simultaneously heated to melt at these focused points for welding with another object or for removal. Therefore, no deformation occurs in the worked material like in the prior art where a surface was scanned by a focused point. The worked material may be a metal etc. in addition to a plastic.