Title of Invention

"A LASER BEAM MACHINING DEVICE FOR MACHINING A WORKPIECE "

Abstract

A laser beam machining device for machining a workpiece, comprises: a laser oscillator (19) with optical fibers (20) connected to it ; a laser torch (13) which comprises a pipe (15) which has a tapered nozzle (16) at a front end, a going-out end (20a) of the fibers being provided in the pipe (16), a conducting clip (25) configured to clip a workpiece (24) ; a protective mask (1) having a face shield (5) and an eye shield (7) and at least three switches, the switches comprising : a prior switch (10) connected to the laser oscillator (19), and actuatable when the protective mask is placed on the worker's head and being closed when the worker wears the protective mask and face shield ; a first start switch (11) actuatable when the face shield is protecting the face of the worker ; and a second start switch (12) actuatable when the eye shield is moved to a closed position.

Full Text

BACKGROUND OF THE INVENTION The present invention relates to a laser beam machining device for machining a workpiece, in which a laser beam is guided by optical fibers to machine a, workpiece: In a laser beam machining device where a laser beam generated by a laser oscillator is introduced to a workroom via optical fibers to conduct machining such as cutting and welding, it is necessary to focus the laser beam exactly at any time to a workpiece. The laser beam provides large energy and needs much care to safety. Thus, a laser torch is generally moved by an automatic device, keeping a distance to the workpiece to be machined. Further, if the laser beam is emitted from a laser torch only when a worker wears a protective mask exactly, safety will be increased. In order to move the laser torch while a predetermined distance to the workpiece is kept by the automatic device, the device becomes larger and complicated and is expensive. Further, it is difficult to handle, and has very low efficiency to machine a small amount of workpieces. SUMMARY OF THE INVENTION An object of the present invention is to provide a laser beam machining device which machines a workpiece safely, easily and are cost-effective. Accordingly the present invention provides a laser beam machining device for machining a workpiece, comprising : a laser oscillator for generating a laser beam ; optical fibers connected to said laser oscillator to guide the laser beam ; a laser torch which -2- comprises a pipe which has a tapered nozzle at a front end, a going-out end of said optical fibers being provided in the pipe so that the laser beam from the going-out end is focused in the vicinity of an end of the tapered nozzle ; a conducting clip configured to clip a workpiece to enable passage of an electric current through the workpiece ; a protective mask which a worker wears which comprises a face shield and an eye shield, the mask incorporating at least three switches, said switches comprising : a prior switch which is connected to said laser oscillator, said prior switch being located so as to be actuated when the protective mask is placed on the worker's head and being closed when the worker wears said protective mask and face shield ; a first start switch located so as to be actuated when the face shield is moved to a location protecting the face of the worker ; and a second start switch actuated when the eye shield is moved to a closed position ; operation of the laser oscillator being enabled when the prior switch and the first and second start switches are actuated so that the face mask is being worn and the face shield is down over the worker's face and the eye shield is closed and when the end of the tapered nozzle and said conducting clip are brought into contact with the workpiece, to initiate an enabled state allowing the passage of electric current to said laser oscillator from a power source to oscillate said laser oscillator. When the worker wears the protective mask exactly and when the end of the laser torch is brought into contact with the workpiece, the laser beam is automatically generated, thereby facilitating operation and assuring safety without emitting the laser beam unexpectedly. -3- BRIEF DESCRIPTION OF THE ACCOMPANYING DRAWINGS The features and advantages of the invention will become more apparent from the following description with respect to embodiments as shown in the accompanying drawings wherein: Fig. 1 is a perspective view of a protective mask in a laser beam machining device according to the present invention ; Fig. 2 is a perspective view which shows the first embodiment of a laser beam machining device according to the present invention ; Fig. 3 is a circuit diagram of the first embodiment in Fig. 2 ; Fig. 4 is a circuit diagram of the second embodiment of the present invention; and Fig. 5 is a circuit diagram of the third embodiment of the present invention. DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS Fig. 1 is an embodiment of a welding protective mask 1 according to the present invention. The protective mask 1 comprises an engagement ring 2 which can be engaged over the head of a worker ; a suspension band 3 which is integrally connected with the engagement ring 2 ; and a face shield 5 which is pivoted about pivots 4 to the engagement ring 2 to cover the upper surface of the head of the worker. _4_ On the front surface of the face shield 5, an eye window frame 6 is provided, and the upper edge of an opening eye shield 7 is pivoted above the eye window frame 6 about pivots 8. A tension spring 9 is mounted between the side of the eye shield 7 and the front surface of the face shield 5 slightly lower than the pivot 8. If the eye shield 7 is fully opened or closed, such a fully opened or closed condition of the eye shield 7 is elastically maintained by stretching the tension spring 9. On the lower surface of the middle of the suspension band 3, a push-button prior switch 10 is mounted. When the worker wears the suspension band 3, the prior switch 10 is pressed and closed by the top of his head. Behind one of the pivots 4, a first start switch 11 which contains an inclined piece 11a is mounted. When the face shield 5 is turned upwards about the pivot 4, the inclined piece 11a of the first start switch 11 is pressed by the side end 5a of the face shield 5, and the first start switch 11 is opened. When the face shield 5 is turned downwards to cover a face of the worker, the inclined piece 11a is projected without being pressed and contacts of the first start switch 11 is closed. On the inside of the side wall of the eye window frame 6, a second start switch 12 which comprises a microswitch is mounted. When the eye shield 7 is opened upwards, it gets away from an operative projection 12a of the second 5 start switch 12 and the second start switch 12 is opened. When the eye shield 7 is closed, the operative projection 12a is pressed and the second start switch 12 is closed. The prior switch 10, the first start switch 11 and the second start switch 12 are connected in series and closed to prepare welding. The details thereof follow. Fig. 2 is a perspective view which illustrates the first embodiment of a laser beam machining device according to the present invention which contains the foregoing protective mask 1, and Fig. 3 is a circuit diagram of the first embodiment. The numeral 13 in Figs. 2 and 3 denotes a laser torch in which a tapered nozzle 16 is provided in the front portion of a pipe 15 in which a suitable condenser lens 14 is provided, a handle 17 extending perpendicular to an axis of the pipe 15. In the pipe 15, a flexible tube 18 is inserted from the rear end. In the flexible tube 18, optical fibers 20 from a laser oscillator 19 and a control line 22 from a laser control power source 21 are inserted. A going-out end 20a of the optical fibers 20 is positioned right behind the condenser lenses 14 in the pipe 15. The end 22a of the control line 22 is connected to the pipe 15. At the end of a lead 23 from an output contacting point 10a of the prior switch 10 of the protective mask 1, a conducting clip 25 which can hold a metal workpiece 24 is -6- secured. The prior switch 10, the first start switch 11 and the second start switch 12 are connected with a lead in series, and an input contacting point 12a of the second start switch 12 is connected to the laser control power source 21 via a lead 27. The operation thereof will be described as below. After the workpiece 24 is clipped by the conducting clip 25, the worker puts on the protective mask 1 and the prior switch 10 is closed by the top of his head. Then, the face shield 5 and the eye shield 7 are turned downwards, so that the switches 10, 11 and 12 are closed and connected to the laser control power source via a lead 27. The end of the tapered nozzle 16 of the pipe 16 of the laser torch 13 is brought into contact with a welding portion of the workpiece 24. A circuit for the laser control power source 21 is made, and an electric current is forwarded to the laser oscillator 19, which is thus actuated to generate a laser beam. The laser beam is emitted from the end 20a of the optical fibers 20, and focused at a portion to be welded on the workpiece 24. The laser torch 13 is moved on the workpiece 24, thereby assuring easy safety welding. Without mounting the prior switch 10 for making a circuit for the laser control power source on the suspension band 3 of the protective mask 1, the prior switch 10 may be mounted to the handle 17 of the laser torch 13 or at a position which is far from the protective mask 1, In the second embodiment as shown in Fig. 4, the protective mask 1 has no prior switch in the middle of the lower surface of the suspension band 3 as shown in Figs. 2 and 3, but a trigger-type prior switch 28 is mounted to a handle 17 of the laser torch 13. In Fig. 4, the same numerals are allotted to the same members in Figs. 2 and 3, and description thereof is omitted. The conducting clip 25 and the first start switch 11 are connected via the trigger-type prior switch 28 on the handle 17. The others are similar to those in Figs. 2 and 3. Compared with the prior switch 10 mounted to the suspension band 3 of the protective mask 1, the trigger-type prior switch 28 can be surely operated, and if operation does not begin, the laser oscillator 19 is not operated, thereby increasing safety. In the foregoing embodiments, the first start switch 11 operated by closing the face shield 5 and the second start switch 12 operated by closing the eye shield 7 are connected in series to generate a laser beam, but only a single start switch may be provided. The switches 10, 11 and 12 in the protective mask 1 may be connected to the laser control power source 21 wirelessly without the lead 27 in the third embodiment as shown in Fig. 5. There are a radio transmitter 29 in the 8 lead 26 for connecting the switches 10, 11 and 12 o'f the protective mask 1, and a radio receiver 30 for receiving an electric wave from radio transmitter 29. The radio receiver 30 is provided in a lead 231 for connecting the conducting clip 25 to the laser control source 21. The others are the same as those in Fig. 3. Thus, working efficiency is increased without wiring. The foregoing merely relate to embodiments of the invention. Various modifications and changes may be made by persons skilled in the art without departing from the scope of claims. -9- WE CLAIM : 1. A laser beam machining device for machining a workpiece, comprising : a laser oscillator for generating a laser beam ; optical fibers connected to said laser oscillator to guide the laser beam ; a laser torch which comprises a pipe which has a tapered nozzle at a front end, a going-out end of said optical fibers being provided in the pipe so that the laser beam from the going-out end is focused in the vicinity of an end of the tapered nozzle ; a conducting clip configured to clip a workpiece to enable passage of an electric current through the workpiece ; a protective mask which a worker wears which comprises a face shield and an eye shield, the mask incorporating at least three switches, said switches comprising : a prior switch which is connected to said laser oscillator, said prior switch located so as to be actuated when the protective mask is placed on the worker's head and being closed when the worker wears said protective mask and face shield ; a first start switch located so as to be actuated when the face shield is moved to a location protecting the face of the worker; and a second start switch actuated when the eye shield is moved to a closed position ; operation of the laser oscillator being enabled when the prior switch and the first and second start switches are actuated so that the face mask is being worn and the face shield is down over the worker's face and the eye shield is closed and when the end of the tapered nozzle and said conducting clip are brought into contact with the workpiece, to initiate an enabled state allowing the passage of electric current to said laser oscillator from a power source to oscillate said laser oscillator. -10- 2. The laser beam machining device as claimed in claim 1, wherein a condenser lens is provided in the pipe in front of the going-out end of the optical fibers so that the faser beam from the going-out end may be focused in the vicinity of the end of the tapered nozzle. 3. The laser beam machining device as claimed in claim 1, wherein the start switch is openable by pivoting the face shield upwards and closable by pivoting the face shield downwards to cover a face of the worker. 4. The laser beam machining device as claimed in claim 1, wherein the prior switch, the first start switch and the second start switch are connected in series. 5. The laser beam machining device as claimed in claim 1, wherein a trigger-type switch is connected so that the laser oscillator is enabled only when the trigger-type switch is also actuated, said trigger-type switch being mounted on a handle of the laser torch. 6. The laser beam machining device as claimed in claim 1, wherein a radio transmitter is provided in a circuit for connecting the switches of the protective mask, and a radio receiver for receiving an electric wave from the radio transmitter is provided in a circuit for connecting the conducting clip and the laser oscillator. -11 - 7. The laser beam machining device as claimed in claim 1, comprising a radio transmitter provided in the circuit for the laser control power source connected to the first and second start switches of the protective mask ; and a radio receiver for receiving an electric wave from the radio transmitter provided configured such that a condition where both the first and second start switches are closed will be indicated without need for a wiring connection to the protective mask. 8. The laser beam machining device as claimed in claim 7, wherein the pipe, trigger-type switch and conducting clip are connected in series with the laser control power source when the pipe is electrically connected with the conducting clip via the workpiece, and the circuit for the laser control power source comprises a switch openable and closable in response to the electric wave received by the receiver and connected in series with said pipe trigger-type switch, conducting clip and laser control power source. 9. The laser beam machining device as claimed in claim 1, comprising a circuit for the laser control power source having the prior switch, the first and second start switches, the conducting clip, and the pipe in the laser torch, all connected in series with the laser control power source, and the circuit being completed when the pipe is electrically connected to the conducting clip via the workpiece, the prior switch is closed, and the first and second start switches are closed, thereby enabling electric current to be forwarded to the laser oscillator from the laser control power source. -12- 10. The laser beam machining device as claimed in claim 9, comprising a control line connecting the pipe and the laser control power source and a flexible tube, the control line being inserted with the optical fibers in the flexible tube. 11. A laser beam machining device for machining a workpiece, comprising : a laser oscillator for generating a laser beam ; optical fibers connected to said laser oscillator to guide the laser beam ; a laser control power source; a laser torch which comprises a pipe which has a tapered nozzle at a front end, a going-out end of said optical fibers being provided in the pipe so that the laser beam from the going-out end is focused in the vicinity of an end of the tapered nozzle and a handle, said pipe being electrically connected to the laser control power source; a conducting clip which can clip a workpiece to pass an electric current to the workpiece; a protective mask which a worker wears which has a face shield and an eye shield; a first start switch which is openable by pivoting the face shield upwards and closeabie by pivoting the face shield downwards to cover the face of the worker; a second start switch which is provided near the eye shield in the face shield, said second start switch being opened by pivoting the eye shield upwards and closed by pivoting the eye shield downwards, said first and second start switches being closed when the worker wears said face shield, when the eye shield is closed; -13- a trigger-type prior switch incorporated in the handle of the laser torch ; and a circuit for the laser control power source comprising the pipe of the laser torch, the conducting clip, the trigger-type prior switch, and the first and second start switches ; the circuit for the laser control power source being configured so that when the end of the tapered nozzle and said conducting clip are brought into contact with the workpiece, and the trigger-type prior switch and the first and second start switches are closed the laser control power source allows passage of electric current to said laser oscillator to oscillate said laser oscillator. 12. The laser beam machining device as claimed in claim 11, wherein a condenser lens is provided in the pipe in front of the going-out end of the optical fibers so that the laser beam from the going-out end may be focused in the vicinity of the end of the tapered nozzle. 13. The laser beam machining device as claimed in claim 11, wherein the circuit for the laser control power source is connected in series with the laser control power source and the circuit is completed when the pipe is electrically connected to the conducting clip via the workpiece, the trigger-type prior switch is closed, and the first and second start switches are closed, thereby enabling electric current to be forwarded to the laser oscillator from the laser control power source. -14- -15- 14. A laser beam machining device for machining a workpiece, substantially as herein described particularly with reference to and as illustrated in the accompanying drawings. A laser beam machining device for machining a workpiece, comprises: a laser oscillator (19) with optical fibers (20) connected to it ; a laser torch (13) which comprises a pipe (15) which has a tapered nozzle (16) at a front end, a going-out end (20a) of the fibers being provided in the pipe (16), a conducting clip (25) configured to clip a workpiece (24) ; a protective mask (1) having a face shield (5) and an eye shield (7) and at least three switches, the switches comprising : a prior switch (10) connected to the laser oscillator (19), and actuatable when the protective mask is placed on the worker's head and being closed when the worker wears the protective mask and face shield ; a first start switch (11) actuatable when the face shield is protecting the face of the worker ; and a second start switch (12) actuatable when the eye shield is moved to a closed position.

Documents:

01434-cal-1998-abstract.pdf

01434-cal-1998-claims.pdf

01434-cal-1998-correspondence.pdf

01434-cal-1998-description(complete).pdf

01434-cal-1998-drawings.pdf

01434-cal-1998-form-1.pdf

01434-cal-1998-form-2.pdf

01434-cal-1998-form-3.pdf

01434-cal-1998-form-5.pdf

01434-cal-1998-g.p.a.pdf

01434-cal-1998-letters patent.pdf

01434-cal-1998-priority document others.pdf

01434-cal-1998-priority document.pdf

1434-cal-1998-granted-abstract.pdf

1434-cal-1998-granted-claims.pdf

1434-cal-1998-granted-description (complete).pdf

1434-cal-1998-granted-drawings.pdf

1434-cal-1998-granted-form 2.pdf

1434-cal-1998-granted-specification.pdf

1434-cal-1998-priority document.pdf

1434-cal-1998-translated copy of priority document.pdf