CN210553679U - Rotary laser marking machine - Google Patents

Abstract

The utility model discloses a rotary laser marking machine, which comprises a frame main body, wherein the front end of the upper part of the frame main body is connected with a bearing inclined plate, the top of the frame main body is provided with an electric rotating table, one side of the frame main body is also provided with an air source pressure regulating group, the top of the electric rotating table is connected with a rotary flat plate which can rotate around the vertical axis of the electric rotating table, the middle part of the top of the electric rotating table is provided with a fixed shaft which is fixed and extends out of an opening, and the top end of the fixed shaft is provided with; the top surface of the frame main body is provided with a positioning pressing mechanism at the center between the first guide rail and the second guide rail, the top surface of the frame main body is provided with a code scanning unit right behind the rotating flat plate, and the top surface of the frame main body is provided with a transfer unit at the left of the rotating flat plate. Thereby realize that the two sides laser marking of two square pipe shape work pieces spouts the sign indicating number to can inspect the mark, make the utility model discloses have the effect of high-efficient beating mark, have fine convenience.

Description

Rotary laser marking machine

Technical Field

The utility model belongs to the technical field of laser marking machine, concretely relates to rotatory laser marking machine.

Background

The laser marking machine is used for marking permanent marks on the surfaces of various different substances by using laser beams, and is widely applied to electronic components, integrated circuits, electrical appliances, hardware products, precision instruments and the like. Electronic apparatus, the plastic molding article, multiple type square pipe shape work piece has among the hardware, square pipe shape work piece need mark relevant production information or performance parameter on its wall usually, this just needs practical automatic laser marking equipment to mark, and current laser marking equipment can only once cross mark, beat at every turn and only can carry out laser marking to one of them one side of square pipe shape work piece, still need repeatedly place behind the ejection of compact and beat the mark to the another side, it is comparatively inconvenient, if the mark information of beating the mark is bar code sign, still need sweep the sign indicating number to it and detect, make follow-up process more numerous, based on this, it is necessary to develop a novel laser marking equipment.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a rotatory laser marking machine to solve the problem that proposes among the above-mentioned background art.

This utility model adopts for achieving the above purpose:

a rotary laser marking machine comprising:

a frame main body, wherein the front end of the upper part of the frame main body is connected with a bearing inclined plate, the top of the frame main body is provided with an electric rotating table, one side of the electric rotating platform is connected with a first servo motor, an industrial control cabinet, a first laser and a second laser are arranged in the frame main body, an air source pressure regulating group is arranged on one side of the frame main body, the top of the electric rotating platform is connected with a rotating flat plate which can rotate around the vertical axis of the electric rotating platform, four fixed jigs which are symmetrically distributed and have the same shape are arranged on the top edge of the rotating flat plate, the upper part of the fixed jig is provided with two symmetrical embedding square grooves with the same shape, the middle part of the rotating flat plate is provided with an opening, the middle part of the top of the electric rotating platform is provided with a fixed shaft which is fixed and extends out of the opening, and the top end of the fixed shaft is provided with a fixed object placing flat plate;

the laser marking mechanism comprises a first guide rail, a first sliding block, a first laser galvanometer, a second guide rail, a second sliding block and a second laser galvanometer, wherein the first guide rail is arranged on an object placing flat plate, the first sliding block capable of sliding on the first guide rail is nested on the first guide rail, the first sliding block is fixedly connected with the first laser galvanometer, the second guide rail is arranged at the opposite position of the emission optical axis of the first laser galvanometer on the top surface of the rack main body, the second sliding block capable of sliding on the second guide rail is nested on the second guide rail, the second sliding block is fixedly connected with the second laser galvanometer, and the emission optical axis of the first laser galvanometer and the emission optical axis of the second laser galvanometer are oppositely arranged;

the positioning and pressing mechanism is arranged on the top surface of the rack main body and is positioned in the center between the first guide rail and the second guide rail, and consists of a pair of positioning columns, a cross rod frame and two first air cylinders, wherein the upper parts of the two positioning columns are fixedly connected with the same cross rod frame, the middle part of the cross rod frame is connected with the vertically arranged pair of first air cylinders, and the lower end of the piston rod part of each first air cylinder is connected with a limiting block;

the code scanning unit is arranged on the top surface of the rack main body and is positioned right behind the rotating flat plate, and consists of a support column arranged on the top surface of the rack main body, an adapter plate fixed on the top of the support column, a mounting substrate arranged on the bottom surface of the adapter plate and a pair of code scanning guns connected and arranged on the bottom surface of the mounting substrate, wherein the code scanning guns are staggered and arranged in parallel in an opposite manner;

the transfer unit sets up at the top surface of frame main part and is in the left of rotatory flat board, by set up at the support grillage of frame main part top surface, set up at the slip table guide rail at support grillage antetheca top, nestification is at the slip table guide rail and can be on the slip table guide rail gliding link block and vertical setting constitute at the slip table cylinder of link block antetheca, the partial antetheca of slip table cylinder is connected with the right angle mounting panel, the bottom of right angle mounting panel is connected with the gyration cylinder that the level set up, the part diapire of revolving cylinder is connected with the finger connecting plate, the diapire of finger connecting plate is connected with.

It is further explained that the positions of the two limiting blocks on the positioning and pressing mechanism are matched with the positions of the embedded square grooves on the fixed jig.

It is further explained that the directions of the emission optical axes of the two code scanning guns on the code scanning unit are respectively matched with the positions of the two embedded square grooves on the fixed jig.

Further, the positions of the two finger cylinders on the transfer unit are matched with the positions of the two embedded square grooves on the fixing jig.

Further, a pair of optical fiber supports is fixedly connected to the edge of the object placing flat plate at the rear side and the side of the first laser galvanometer respectively.

It is further explained that the inner side edge of the bearing inclined plate is connected with the rotating flat plate.

Further, the first sliding block, the second sliding block and the connecting sliding block are all electric sliding blocks.

The first laser and the second laser are both fiber lasers, the first laser is electrically connected with the first laser galvanometer, the first laser galvanometer is driven by the first laser, the second laser is electrically connected with the second laser galvanometer, and the second laser galvanometer is driven by the second laser.

The industrial control cabinet is electrically connected with the first servo motor, the first laser, the second laser, the air source pressure regulating set, the first sliding block, the second sliding block, the code scanning gun and the connecting sliding block respectively, the industrial control cabinet controls the operation and execution stroke of each part, the first servo motor is electrically connected with the electric rotating platform, and the electric rotating platform is driven by the first servo motor in a connecting way.

The first cylinder, the second cylinder, the sliding table cylinder, the rotary cylinder and the finger cylinder are respectively matched with one air source pressure regulating filter.

Compared with the prior art, the beneficial effects of the utility model reside in that:

put into two assorted side's pipe shape work pieces in the gomphosis square groove of fixed tool, set for the stroke through electric rotary table and rotate, side's pipe shape work piece loops through the maintenance of pushing down of location pushing down the mechanism, first laser shakes the mirror and shakes the laser marking of mirror with the second laser, sweeps the centre gripping that a yard rifle sweep a yard inspection correction, transfer unit and shift the ejection of compact to realize that two sides laser marking of two side's pipe shape work pieces beats the sign indicating number, and can inspect the mark, make the utility model discloses have the effect of high-efficient mark of beating, have fine convenience.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention. In the drawings:

fig. 1 is a schematic structural diagram of the present invention;

FIG. 2 is a schematic structural view of part A of the present invention;

FIG. 3 is a schematic structural view of part B of the present invention;

FIG. 4 is a schematic structural view of part C of the present invention;

fig. 5 is a schematic structural view of the positioning and pressing mechanism of the present invention;

fig. 6 is a schematic structural diagram of the transfer unit of the present invention;

wherein: 1. a rack main body; 11. a receiving inclined plate; 12. an electric rotating table; 13. a first servo motor; 14. an industrial control cabinet; 15. a first laser; 16. a second laser; 17. a gas source pressure regulating group; 18. rotating the flat plate; 181. fixing the jig; 182. embedding the square groove; 19. placing a flat plate; 2. a laser marking mechanism; 21. a first guide rail; 22. a first slider; 23. a first laser galvanometer; 24. a second guide rail; 25. a second slider; 26. a second laser galvanometer; 3. positioning a pressing mechanism; 31. a positioning column; 32. a cross-bar frame; 33. a first cylinder; 34. a limiting block; 4. a code scanning unit; 41. a support pillar; 42. an adapter plate; 43. a mounting substrate; 44. a code scanning gun; 5. transferring the unit; 51. a support plate frame; 52. a sliding table guide rail; 53. connecting the sliding block; 54. a sliding table cylinder; 55. a right-angle mounting plate; 56. a rotary cylinder; 57. a finger connecting plate; 58. a finger cylinder; 6. an optical fiber holder; 7. square tube-shaped workpieces.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1 to 6, the present invention provides the following technical solutions:

the utility model provides a rotatory laser marking machine, includes frame main part 1, wherein the central minor axis of the top surface of frame main part 1 is the Y axle, and its central major axis is the X axle, the upper portion front end of frame main part 1 is connected with accepts swash plate 11, and its top is provided with electric rotary table 12, one side of electric rotary table 12 is connected with first servo motor 13, the inside of frame main part 1 is provided with industrial control machine case 14, first laser instrument 15, second laser instrument 16, one side of frame main part 1 still is provided with air supply pressure regulating group 17, the top of electric rotary table 12 is connected with can wind the rotatory dull and stereotyped 18 of the vertical axle center pivoted of self, the inboard border of accepting swash plate 11 links up with rotatory dull and stereotyped 18 mutually, the top border of rotatory dull and stereotyped 18 is provided with four symmetrical distribution and the same fixed tool 181 of shape, the upper portion of fixed tool 181 has two symmetrical and the same gomphosis square groove, the embedded square groove 182 is used for placing the matched square pipe-shaped workpiece 7, the middle part of the rotating flat plate 18 is provided with an opening, the middle part of the top of the electric rotating platform 12 is provided with a fixed shaft which is fixed and extends out of the opening, and the top end of the fixed shaft is provided with a fixed object placing flat plate 19; a first guide rail 21 is arranged on the object placing flat plate 19, a first slide block 22 which can slide on the first guide rail 21 is nested on the first guide rail 21, a first laser galvanometer 23 is fixedly connected to the first slide block 22, a second guide rail 24 is arranged on the top surface of the rack main body 1 at the opposite position of the emission optical axis of the first laser galvanometer 23, a second slide block 25 which can slide on the second guide rail 24 is nested on the second guide rail 24, a second laser galvanometer 26 is fixedly connected to the second slide block 25, and the emission optical axis of the first laser galvanometer 23 and the emission optical axis of the second laser galvanometer 26 are arranged oppositely; the first laser galvanometer 23 can translate on the first guide rail 21 along the X-axis direction through a first slide block 22, and the second laser galvanometer 26 can translate on the second guide rail 24 along the X-axis direction through a second slide block 25; the top surface of the frame main body 1 is provided with a positioning and pressing mechanism 3 at the center between the first guide rail 21 and the second guide rail 24, the top surface of the frame main body 1 is provided with a code scanning unit 4 right behind the rotating flat plate 18, and the top surface of the frame main body 1 is provided with a transfer unit 5 at the left side of the rotating flat plate 18.

The positioning and pressing mechanism 3 is composed of a pair of positioning columns 31, a cross rod frame 32 and two first cylinders 33, the upper parts of the two positioning columns 31 are fixedly connected with the same cross rod frame 32, the middle part of the cross rod frame 32 is connected with a pair of vertically arranged first cylinders 33, the lower ends of the piston rod parts of the first cylinders 33 are connected with limiting blocks 34, the positions of the two limiting blocks 34 on the positioning and pressing mechanism 3 are matched with the position of an embedded square groove 182 on a fixing jig 181, the piston rod parts of the first cylinders 33 are vertically translated downwards perpendicular to the top surface of the rack main body 1, and the limiting blocks 34 are vertically translated downwards along with the piston rod parts of the first cylinders 33, so that the square tubular workpiece 7 on the fixing jig 181 is stably pressed into the embedded square groove 182.

Sweep ink recorder group 4 by set up at the support column 41 of frame main part 1 top surface, fix adapter plate 42 at support column 41 top, set up at the mounting substrate 43 of adapter plate 42 bottom surface and a pair of connection sets up sweeping a yard rifle 44 in mounting substrate 43 bottom surface and constitute, sweep a yard rifle 44 and stagger parallel subtend setting mutually for two, sweep two on the ink recorder group 4 and sweep a yard rifle 44's emission optical axis direction respectively with two gomphosis square groove 182 position phase-matchs on the fixed tool 181, sweep a yard rifle 44 respectively and sweep a yard on two square tubular workpiece 7 in the gomphosis square groove 182 and detect for two.

The transfer unit 5 is composed of a support plate frame 51 arranged on the top surface of the frame main body 1, a sliding table guide rail 52 arranged on the top of the front wall of the support plate frame 51, a connecting slide block 53 which is nested in the sliding table guide rail 52 and can slide on the sliding table guide rail 52, and a sliding table air cylinder 54 vertically arranged on the front wall of the connecting slide block 53, a right-angle mounting plate 55 is connected with the front wall of the sliding table part of the sliding table air cylinder 54, a horizontally arranged rotary air cylinder 56 is connected with the bottom of the right-angle mounting plate 55, the bottom wall of the rotating platform part of the rotary cylinder 56 is connected with a finger connecting plate 57, the bottom wall of the finger connecting plate 57 is connected with a pair of finger cylinders 58, the positions of the two finger cylinders 58 on the transfer unit 5 are matched with the positions of the two embedding square grooves 182 on the fixing jig 181, and the finger cylinders 58 adopt finger parallel cylinders HFK16 of Yadecke (China) Limited; the sliding table guide rail 52 is arranged parallel to the X axis of the rack main body 1, the connecting slide block 53 horizontally translates on the sliding table guide rail 52 along the X axis direction, the sliding table air cylinder 54 horizontally translates on the sliding table guide rail 52 along the X axis direction through the connecting slide block 53 to drive the finger air cylinder 58 to horizontally translate along the X axis direction, the finger air cylinder 58 clamps the square tubular workpiece 7, and the square tubular workpiece 7 is loosened after horizontally translating outwards along the X axis direction to the outside of the rack main body 1.

Wherein, a pair of optical fiber supports 6 are respectively connected and fixed at the edge of the flat plate 19 at the rear side and the side of the first laser galvanometer 23, and are used for bearing the light beam bundle of the first laser galvanometer 23; the first slide block 22, the second slide block 25 and the connecting slide block 53 are all electric slide blocks; the first laser 15 and the second laser 16 are both fiber lasers, the first laser 15 is electrically connected with a first laser galvanometer 23, the first laser galvanometer 23 is driven by the first laser 15, the second laser 16 is electrically connected with a second laser galvanometer 26, and the second laser galvanometer 26 is driven by the second laser 16; the industrial control cabinet 14 is respectively electrically connected with a first servo motor 13, a first laser 15, a second laser 16, an air source pressure regulating set 17, a first slide block 22, a second slide block 25, a code scanning gun 44 and a connecting slide block 53, the industrial control cabinet 14 controls the operation and execution stroke of each part, the first servo motor 13 is electrically connected with the electric rotating platform 12, and the electric rotating platform 12 is driven by the first servo motor 13; the air source pressure regulating group 17 is composed of a plurality of air source pressure regulating filters, and the first air cylinder 33, the second air cylinder, the sliding table air cylinder 54, the rotary air cylinder 56 and the finger air cylinder 58 are respectively matched with one air source pressure regulating filter correspondingly.

The industrial control cabinet 14 is used for setting the operation execution of the first servo motor 13, the first laser 15, the second laser 16, the air source pressure regulating group 17, the first slide block 22, the second slide block 25, the code scanning gun 44 and the connecting slide block 53, the electric rotating table 12 is driven by the first servo motor 13 to rotate according to the execution stroke, and each fixed jig 181 on the top surface of the electric rotating table 12 respectively passes through the opposite positions of the bearing inclined plates 11, the positioning pressing mechanism 3, the code scanning unit 4 and the transfer unit 5.

When each square tubular workpiece 7 only needs to be marked by laser, the electric rotating table 12 is set to rotate directionally and stop for four times, so that each fixed jig 181 passes through the positioning and pressing mechanism 3, the code scanning unit 4 and the transfer unit 5 in sequence, an operator operates at the position of the inclined receiving plate 11, the square tubular workpiece 7 is placed in the embedding square groove 182 of the first fixing jig 181, then under the first directional rotation of the electric rotating table 12, the first fixing jig 181 is stopped at the positioning pressing mechanism 3 and the second fixing jig 181 rotates to the carrying inclined plate 11, the limiting block 34 vertically translates downwards under the operation of the first air cylinder 33, so that the square tubular workpiece 7 on the fixing jig 181 is stably pressed into the embedding square groove 182, the first laser galvanometer 23 and the second laser galvanometer 26 respectively mark one square tubular workpiece 7 at the same time, and meanwhile, the other square tubular workpiece 7 is placed on the second fixing jig 181; after marking of the square tubular workpiece 7 on the first fixing jig 181 is completed, the electric rotating table 12 rotates directionally for the second time, the first fixing jig 181 is stopped at the code scanning unit 4 and is scanned and detected by the two code scanning guns 44, the second fixing jig 181 is stopped at the positioning pressing mechanism 3 and is pressed down and fixed by the limiting block 34 and marked by the laser marking mechanism 2, and the third fixing jig 181 is stopped at the position of the bearing inclined plate 11 and is placed into the square tubular workpiece 7; after the steps are completed, the electric rotating table 12 rotates directionally for the third time, the first fixing jig 181 is stopped at the transfer unit 5 and clamped and transferred outside the rack main body 1 by the finger cylinder 58, the second fixing jig 181 is stopped at the code scanning unit 4 and is scanned and detected by the code scanning unit 4, the third fixing jig 181 is stopped at the positioning pressing mechanism 3 and is pressed and fixed by the limiting block 34 and marked by the laser marking mechanism 2, and the fourth fixing jig 181 is stopped at the bearing inclined plate 11 and is placed into the square tubular workpiece 7; after the steps are completed, the electric rotating table 12 rotates directionally for the fourth time, the first fixing jig 181 pauses at the adapting inclined plate 11, the square tubular workpiece 7 is continuously placed in the first fixing jig 181, the second fixing jig 181 pauses at the transfer unit 5 to transfer the square tubular workpiece 7 carried by the first fixing jig 181, the third fixing jig 181 pauses at the code scanning unit 4 to scan and detect the square tubular workpiece 7 carried by the third fixing jig, and the fourth fixing jig 181 pauses at the positioning pressing mechanism 3 to press and mark the square tubular workpiece 7 carried by the fourth fixing jig 181; and then is operated in a reciprocating cycle.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A rotary laser marking machine, comprising:

the automatic welding machine comprises a machine frame main body (1), wherein the front end of the upper part of the machine frame main body (1) is connected with a bearing inclined plate (11), the top of the machine frame main body is provided with an electric rotating table (12), one side of the electric rotating table (12) is connected with a first servo motor (13), the inside of the machine frame main body (1) is provided with an industrial control cabinet (14), a first laser (15) and a second laser (16), one side of the machine frame main body (1) is also provided with an air source pressure regulating group (17), the top of the electric rotating table (12) is connected with a rotating flat plate (18) which can rotate around the vertical axis of the machine frame main body, the top edge of the rotating flat plate (18) is provided with four fixed jigs (181) which are symmetrically distributed and have the same shape, the upper part of each fixed jig (181) is provided with two embedded square grooves, the middle part of the top of the electric rotating platform (12) is provided with a fixed shaft which is fixed and extends out of the opening, and the top end of the fixed shaft is provided with a fixed object placing flat plate (19);

the laser marking mechanism (2) is composed of a first guide rail (21), a first slide block (22), a first laser galvanometer (23), a second guide rail (24), a second slide block (25) and a second laser galvanometer (26), the first guide rail (21) is arranged on the object placing flat plate (19), a first sliding block (22) capable of sliding on the first guide rail (21) is nested on the first guide rail (21), a first laser galvanometer (23) is fixedly connected on the first slide block (22), the second guide rail (24) is arranged at the opposite position of the emission optical axis of the first laser galvanometer (23) on the top surface of the frame main body (1), a second sliding block (25) which can slide on the second guide rail (24) is nested on the second guide rail (24), a second laser galvanometer (26) is fixedly connected on the second sliding block (25), the emission optical axis of the first laser galvanometer (23) is opposite to the emission optical axis of the second laser galvanometer (26);

the positioning and pressing mechanism (3) is arranged on the top surface of the rack main body (1) and is positioned in the center between the first guide rail (21) and the second guide rail (24), and consists of a pair of positioning columns (31), a cross rod frame (32) and two first cylinders (33), wherein the upper parts of the two positioning columns (31) are fixedly connected with the same cross rod frame (32), the middle part of the cross rod frame (32) is connected with a pair of vertically arranged first cylinders (33), and the lower ends of the piston rod parts of the first cylinders (33) are connected with limit blocks (34);

the code scanning unit (4) is arranged on the top surface of the rack main body (1) and is positioned right behind the rotating flat plate (18), and consists of a support column (41) arranged on the top surface of the rack main body (1), an adapter plate (42) fixed on the top of the support column (41), a mounting substrate (43) arranged on the bottom surface of the adapter plate (42) and a pair of code scanning guns (44) connected and arranged on the bottom surface of the mounting substrate (43), wherein the code scanning guns (44) are staggered, parallel and oppositely arranged;

transfer unit (5), set up at the top surface of frame main part (1) and be in the left of rotatory dull and stereotyped (18), constitute at slip table cylinder (54) of link block (53) antetheca by support grillage (51) that set up at frame main part (1) top surface, set up at slip table guide rail (52) at support grillage (51) antetheca top, nestification slip table guide rail (52) and can be on slip table guide rail (52) gliding link block (53) and vertical setting, the partial antetheca of slip table cylinder (54) is connected with right angle mounting panel (55), revolving cylinder (56) that the bottom of right angle mounting panel (55) was connected with the level and sets up, revolving stage part diapire of revolving cylinder (56) is connected with finger connecting plate (57), the diapire of finger connecting plate (57) is connected with a pair of finger cylinder (58).

2. The rotary laser marking machine of claim 1, wherein: the positions of two limit blocks (34) on the positioning pressing mechanism (3) are matched with the positions of the embedded square grooves (182) on the fixed jig (181).

3. The rotary laser marking machine of claim 1, wherein: the emission optical axis directions of two code scanning guns (44) on the code scanning unit (4) are respectively matched with the positions of two embedded square grooves (182) on the fixed jig (181).

4. The rotary laser marking machine of claim 1, wherein: the positions of the two finger cylinders (58) on the transfer unit (5) are matched with the positions of the two embedded square grooves (182) on the fixed jig (181).

5. The rotary laser marking machine of claim 1, wherein: and a pair of optical fiber supports (6) are respectively fixedly connected to the edge of the object placing flat plate (19) at the rear side and the side of the first laser galvanometer (23).

6. The rotary laser marking machine of claim 1, wherein: the inner side edge of the bearing inclined plate (11) is connected with the rotating flat plate (18).

7. The rotary laser marking machine of claim 1, wherein: the first sliding block (22), the second sliding block (25) and the connecting sliding block (53) are all electric sliding blocks.

8. The rotary laser marking machine of claim 1, wherein: first laser instrument (15), second laser instrument (16) are the fiber laser, first laser instrument (15) and first laser mirror (23) electric connection that shakes, first laser mirror (23) that shakes is connected the drive by first laser instrument (15), second laser instrument (16) and second laser mirror (26) electric connection that shakes, second laser mirror (26) are connected the drive by second laser instrument (16).

9. The rotary laser marking machine of claim 1, wherein: industrial control machine case (14) respectively with first servo motor (13), first laser instrument (15), second laser instrument (16), air supply pressure regulating group (17), first slider (22), second slider (25), sweep yard rifle (44), link block (53) electric connection, the operation and the execution stroke of each part are controlled to industrial control machine case (14), first servo motor (13) and electric rotating platform (12) electric connection, electric rotating platform (12) are connected the drive by first servo motor (13).

10. The rotary laser marking machine of claim 1, wherein: the air source pressure regulating group (17) is composed of a plurality of air source pressure regulating filters, and the first air cylinder (33), the second air cylinder, the sliding table air cylinder (54), the rotary air cylinder (56) and the finger air cylinder (58) are respectively matched with one air source pressure regulating filter correspondingly.

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