CN113400012B

CN113400012B - Laser processing equipment

Info

Publication number: CN113400012B
Application number: CN202110585423.4A
Authority: CN
Inventors: 高雪松; 李�荣
Original assignee: Anhui Zhongke Spring Valley Laser Industry Technology Research Institute Co Ltd
Current assignee: Anhui Zhongke Spring Valley Laser Industry Technology Research Institute Co Ltd
Priority date: 2021-05-27
Filing date: 2021-05-27
Publication date: 2023-06-02
Anticipated expiration: 2041-05-27
Also published as: CN113400012A

Abstract

The invention discloses laser processing equipment, which belongs to the technical field of laser processing and comprises a control box and a processing box, wherein the interior of the processing box is divided into an upper space and a lower space through a partition plate, a processing platform connected with the partition plate is laid in the upper space of the processing box, a processing mechanical arm is mounted on the processing platform, a polishing assembly, a laser welding assembly and a lifting assembly are connected onto the processing mechanical arm, and the polishing assembly is lifted through the lifting assembly to expose the laser welding assembly for the laser welding assembly to work. According to the laser processing equipment provided by the invention, the rotary polishing and the welding are combined together, the lower disc is lowered through the forward rotation of the bevel gear set so that the laser head is exposed, accurate processing is performed according to the port of the laser head, the bevel gear set is reversely rotated so that the lower disc is raised so that the laser head is retracted, and the polishing wheel is used for polishing the surface level and does not influence the polishing effect.

Description

Laser processing equipment

Technical Field

The invention relates to the technical field of laser processing equipment, in particular to laser processing equipment.

Background

In the laser processing device in the prior art, taking a traditional laser marking device as an example, each laser needs to be provided with man-machine interaction by marking software on an industrial computer, a matched marking board card receives instructions transmitted by the computer and executes corresponding control, and the laser processing device adopts two independent devices for welding and polishing, so that the occupied area of the laser processing device is larger, and the flexibility is low.

Disclosure of Invention

The present invention is directed to a laser processing apparatus for solving the above-mentioned problems.

In order to achieve the above purpose, the present invention provides the following technical solutions: the laser processing equipment comprises a control box and a processing box, wherein the control box is electrically connected with the processing box, the interior of the processing box is divided into an upper space and a lower space through a partition board, a processing platform connected with the partition board is laid in the upper space of the processing box, a processing mechanical arm is mounted on the processing platform, a polishing assembly, a laser welding assembly and a lifting assembly are connected on the processing mechanical arm, the polishing assembly is lifted through the lifting assembly to expose the laser welding assembly for the laser welding assembly to work, and the laser welding assembly is lowered into the polishing assembly through the lifting assembly for polishing and grinding of the polishing assembly;

the processing box is further movably connected with a cover plate which covers the processing platform through a hinge, a flushing component is arranged in the lower space of the processing box, and the flushing component is used for pumping liquid in the lower space into the upper space to flush gas or waste chips after laser.

Further, the flushing assembly comprises a water pump, a water storage dish, a water suction pipe, a drain pipe and a filter screen, wherein the rectangular groove is formed in the top opening of the water storage dish, the filter screen covers the rectangular groove, the water pump is arranged on the water storage dish beside the rectangular groove, one end of the water suction pipe of the water storage dish is inserted into the water storage dish, the other end of the water suction pipe penetrates through the processing platform and the partition board, one end of the drain pipe is embedded into the lower parts of the processing platform and the partition board, and the other end of the drain pipe is lapped on the filter screen.

Further, the polishing component comprises a polishing wheel and a supporting rod, a round hole penetrating through the center of the polishing wheel is formed in the circle center of the polishing wheel, and the top surface of the polishing wheel outside the round hole is fixed with the supporting rod which is not smaller than one polishing wheel.

Further, the laser welding assembly comprises a laser head, a threading pipe and a connecting rod, wherein the bottom end of the threading pipe penetrates into the round hole to be connected with the laser head, and the top end of the threading pipe is fixed with the connecting rod.

Further, the lifting assembly comprises a bevel gear set, a gear box, an upper sleeve, a lower sleeve, a flaring ring, a side rod, a limiting ring, a guide rod and a lower disc, wherein the gear box is fixed on the machining mechanical arm;

the side rod is fixed on the gear box positioned at the outer side of the upper sleeve, the top end of the limiting ring is connected with the side rod, the limiting ring is sleeved at the outer side of the upper sleeve, and the bottom surface of the limiting ring is fixed with the guide rod;

the side of the lower disc is fixed with a connecting rod port penetrating out of the gear box, an annular groove with internal threads is processed at the center of the lower disc, one section of the inner wall of the bottom of the annular groove is a smooth surface, a through hole for a guide rod to penetrate is processed in the lower disc outside the annular groove, a lower sleeve is inserted into the annular groove, and the bottom end of the flaring ring is fixed with the supporting rod.

Further, channels with diameters larger than the diameter of the threading pipe are processed at the circle centers of the bevel gear set, the upper sleeve and the lower sleeve, and the threading pipe penetrates through the bevel gear set, the upper sleeve and the lower sleeve.

Further, the upper and lower ports of the ring groove are provided with baffle rings along the inner diameter direction, and the inner diameter of the baffle rings is smaller than the outer diameter of the flaring ring for limiting and supporting.

Further, the bevel gear set drives the lower sleeve and the flaring ring to rotate synchronously, the flaring ring is meshed with threads of the ring groove, the lower disc is driven to descend to drive the laser head to descend to penetrate through the round hole until the flaring ring and the upper baffle ring are contacted and lifted to stop, and the laser head is used for laser processing;

the bevel gear set reversely drives the lower sleeve and the flaring ring to synchronously rotate, the flaring ring is meshed with the threads of the annular groove, the lower disc is driven to ascend to drive the laser head to ascend and retract into the circular hole until the flaring ring and the threads are separated from contact with the smooth surface, and the polishing wheel and the supporting rod keep synchronously rotating for polishing.

Compared with the prior art, the invention has the beneficial effects that:

according to the laser processing equipment provided by the invention, the cone gear set is used for driving the lower sleeve and the flaring ring to synchronously rotate in a forward rotation way, the flaring ring is meshed with the threads of the annular groove, the lower disc is driven to descend to drive the laser head to descend to penetrate through the circular hole until the flaring ring and the upper baffle ring are contacted and lifted to stop, and the laser processing equipment is used for laser processing;

According to the invention, rotary polishing and welding are combined together, the lower disc is lowered through forward rotation of the bevel gear set so as to expose the laser head, accurate machining is performed according to the port of the laser head, the bevel gear set is reversely rotated so as to lift the lower disc and retract the laser head, and the polishing wheel is used for polishing the surface flush without influencing the polishing effect.

Drawings

FIG. 1 is an overall perspective view of the present invention;

figure 2 is a diagram illustrating the rotational state of the polishing wheel of the present invention;

FIG. 3 is a view of a weld joint of the present invention;

FIG. 4 is a partial block diagram of a lift assembly of the present invention;

fig. 5 is an enlarged view of fig. 2 at a in accordance with the present invention.

In the figure: 1. a control box; 2. a processing box; 21. a processing platform; 22. a cover plate; 3. a partition plate; 4. a flushing assembly; 41. a water pump; 42. a water storage vessel; 43. a water pumping pipe; 44. a drain pipe; 45. a filter screen; 5. machining a mechanical arm; 6. a polishing assembly; 61. a polishing wheel; 611. a round hole; 62. a support rod; 7. a laser welding assembly; 71. a laser head; 72. a threading tube; 73. a connecting rod; 8. a lifting assembly; 81. a bevel gear set; 82. a gear box; 83. an upper sleeve; 84. a lower sleeve; 85. a flaring ring; 86. a side bar; 87. a limiting ring; 88. a guide rod; 89. a lower plate; 891. and a ring groove.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1, a laser processing device includes a control box 1 and a processing box 2, wherein the control box 1 is electrically connected with the processing box 2, the interior of the processing box 2 is divided into an upper space and a lower space by a partition plate 3, a processing platform 21 connected with the partition plate 3 is laid in the upper space of the processing box 2, the processing platform 21 is used for laser processing, a processing mechanical arm 5 is mounted on the processing platform 21, a polishing component 6, a laser welding component 7 and a lifting component 8 are connected on the processing mechanical arm 5, the polishing component 6 is lifted by the lifting component 8 to expose the laser welding component 7 for the laser welding component 7 to work, and the laser welding component 7 is lowered into the polishing component 6 by the lifting component 8 for polishing and grinding of the polishing component 6;

the processing box 2 is also movably connected with a cover plate 22 which covers the processing platform 21 through a hinge, a flushing component 4 is arranged in the lower space of the processing box 2, and the flushing component 4 is used for pumping liquid in the lower space into the upper space to flush gas or waste chips after laser.

The flushing assembly 4 comprises a water pump 41, a water storage vessel 42, a water suction pipe 43, a water discharge pipe 44 and a filter screen 45, wherein the rectangular groove is formed in the top opening of the water storage vessel 42, the filter screen 45 covers the rectangular groove, the water pump 41 is arranged on the water storage vessel 42 beside the rectangular groove, one end of the water suction pipe 43 of the water storage vessel 42 is inserted into the water storage vessel 42, the other end of the water suction pipe 43 penetrates through the processing platform 21 and the partition plate 3, one end of the water discharge pipe 44 is embedded into the lower part of the processing platform 21 and the partition plate 3, the other end of the water discharge pipe 44 is lapped on the filter screen 45, liquid in the water storage vessel 42 is pumped by the water pump 41 and sprayed into the processing platform 21 for flushing, and the liquid after being cleaned side by side is filtered by the filter screen 45 and then flows back into the water storage vessel 42 for cleaning next time.

Referring to fig. 2-5, the polishing assembly 6 includes a polishing wheel 61 and a supporting rod 62, a circular hole 611 is formed at the center of the polishing wheel 61, and the top surface of the polishing wheel 61 outside the circular hole 611 is fixed to the supporting rod 62 which is not smaller than one.

The laser welding assembly 7 comprises a laser head 71, a threading pipe 72 and a connecting rod 73, wherein the bottom end of the threading pipe 72 penetrates into a round hole 611 to be connected with the laser head 71, the top end of the threading pipe 72 is fixed with the connecting rod 73, the threading pipe 72 is made of hard pipe fittings, and a wire penetrating through the threading pipe 72 is electrically connected with the laser head 71 to supply power for laser.

The lifting assembly 8 comprises a bevel gear set 81, a gear box 82, an upper sleeve 83, a lower sleeve 84, a flaring ring 85, a side rod 86, a limiting ring 87, a guide rod 88 and a lower disc 89, wherein the gear box 82 is fixed on the machining mechanical arm 5, the bevel gear set 81 is positioned in the gear box 82, one end of the bevel gear set 81 penetrates out of the gear box 82, the other end of the bevel gear set 81 is connected with the upper sleeve 83, the bottom end of the upper sleeve 83 penetrates out of the gear box 82 to be connected with the lower sleeve 84, the flaring ring 85 with external threads is fixed at the bottom end of the lower sleeve 84, and the upper sleeve 83 is prevented from contacting with the threading pipe 72 in the rotating process through the arrangement of the bevel gear set 81, so that the rotation is prevented from being influenced;

the side rod 86 is fixed on the gear box 82 positioned outside the upper sleeve 83, the top end of the limiting ring 87 is connected with the side rod 86, the limiting ring 87 is sleeved outside the upper sleeve 83, the bottom surface of the limiting ring 87 is fixed with the guide rod 88, the position of the gear box 82 is fixed, and the limiting ring 87 and the guide rod 88 are also fixed;

the side of the lower disc 89 is fixed with the port of the connecting rod 73 penetrating out of the gear box 82, an annular groove 891 with internal threads is processed at the center of the lower disc 89, wherein one section of the inner wall of the bottom of the annular groove 891 is a smooth surface, a baffle ring is fixed at the upper port and the lower port of the annular groove 891 along the inner diameter direction, the inner diameter of the baffle ring is smaller than the outer diameter of the flaring ring 85 and used for limiting and supporting, a through hole for the guide rod 88 to penetrate is processed at the lower disc 89 at the outer side of the annular groove 891, the lower sleeve 84 is inserted into the annular groove 891, the bottom end of the flaring ring 85 is fixed with the supporting rod 62, the flaring ring 85 and the supporting rod 62 synchronously rotate, and the flaring ring 85 and the lower sleeve 84 rotate in the annular groove 891.

The center of the bevel gear set 81, the upper sleeve 83 and the lower sleeve 84 is provided with a passage with a diameter larger than that of the threading pipe 72, and the threading pipe 72 passes through the bevel gear set 81, the upper sleeve 83 and the lower sleeve 84.

The bevel gear set 81 rotates forward to drive the lower sleeve 84 and the flaring ring 85 to rotate synchronously, the flaring ring 85 is meshed with threads of the annular groove 891, the lower disc 89 is driven to descend to drive the laser head 71 to descend to penetrate through the round hole 611 until the flaring ring 85 is contacted with the upper baffle ring to lift and stop for laser processing;

the bevel gear set 81 reversely drives the lower sleeve 84 and the flaring ring 85 to synchronously rotate, the flaring ring 85 is meshed with the threads of the annular groove 891, the lower disc 89 is driven to ascend to drive the laser head 71 to ascend and retract into the round hole 611 until the flaring ring 85 and the threads are separated from contact with the smooth surface, and the polishing wheel 61 and the supporting rod 62 keep synchronously rotating for polishing.

According to the invention, rotary polishing and welding are combined together, the lower disc 89 is lowered through forward rotation of the bevel gear set 81 so that the laser head 71 is exposed, accurate machining is performed according to the port of the laser head 71, the bevel gear set 81 is reversely rotated to lift the lower disc 89 so that the laser head 71 is retracted, and the polishing surface of the polishing wheel 61 for polishing is flush, so that the polishing effect is not affected.

To sum up; in the laser processing device, a through hole for the guide rod 88 to penetrate is processed on the lower disc 89 outside the annular groove 891, the lower sleeve 84 is inserted into the annular groove 891, the bottom end of the flaring ring 85 is fixed with the supporting rod 62, the flaring ring 85 and the supporting rod 62 synchronously rotate, and the flaring ring 85 and the lower sleeve 84 rotate in the annular groove 891.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should be covered by the protection scope of the present invention by making equivalents and modifications to the technical solution and the inventive concept thereof.

Claims

1. The laser processing equipment is characterized by comprising a control box (1) and a processing box (2), wherein the control box (1) is electrically connected with the processing box (2), the inside of the processing box (2) is divided into an upper space and a lower space through a partition plate (3), a processing platform (21) connected with the partition plate (3) is paved in the upper space of the processing box (2), a processing mechanical arm (5) is installed on the processing platform (21), a polishing component (6), a laser welding component (7) and a lifting component (8) are connected on the processing mechanical arm (5), the polishing component (6) is lifted through the lifting component (8) to expose the laser welding component (7) for the laser welding component (7) to work, and the laser welding component (7) descends into the polishing component (6) through the lifting component (8) to polish the polishing component (6);

a cover plate (22) covering the processing platform (21) is movably connected to the processing box (2) through a hinge, a flushing component (4) is arranged in the lower space of the processing box (2), and the flushing component (4) is used for pumping liquid in the lower space into the upper space to flush gas or waste chips after laser;

the polishing assembly (6) comprises a polishing wheel (61) and a supporting rod (62), a round hole (611) penetrating through the center of the polishing wheel (61) is formed in the circle center of the polishing wheel (61), and the top surface of the polishing wheel (61) at the outer side of the round hole (611) is fixed with the supporting rod (62) which is not smaller than one;

the laser welding assembly (7) comprises a laser head (71), a threading pipe (72) and a connecting rod (73), wherein the bottom end of the threading pipe (72) penetrates into a round hole (611) to be connected with the laser head (71), and the top end of the threading pipe (72) is fixed with the connecting rod (73);

the lifting assembly (8) comprises a bevel gear set (81), a gear box (82), an upper sleeve (83), a lower sleeve (84), a flaring ring (85), a side rod (86), a limiting ring (87), a guide rod (88) and a lower disc (89), wherein the gear box (82) is fixed on the machining mechanical arm (5), the bevel gear set (81) is positioned in the gear box (82), one end of the bevel gear set (81) penetrates out of the gear box (82), the other end of the bevel gear set (81) is connected with the upper sleeve (83), the bottom end of the upper sleeve (83) penetrates out of the gear box (82) to be connected with the lower sleeve (84), and the flaring ring (85) with external threads is fixed at the bottom end of the lower sleeve (84);

the side rod (86) is fixed on the gear box (82) positioned at the outer side of the upper sleeve (83), the top end of the limiting ring (87) is connected with the side rod (86), the limiting ring (87) is sleeved at the outer side of the upper sleeve (83), and the bottom surface of the limiting ring (87) is fixed with the guide rod (88);

the side surface of the lower disc (89) is fixed with a port of a connecting rod (73) penetrating out of the gear box (82), an annular groove (891) with internal threads is processed at the center of the lower disc (89), one section of the inner wall of the bottom of the annular groove (891) is a smooth surface, a through hole for a guide rod (88) to penetrate is processed in the lower disc (89) at the outer side of the annular groove (891), a lower sleeve (84) is inserted into the annular groove (891), and the bottom end of a flaring ring (85) is fixed with a supporting rod (62);

the circle centers of the bevel gear set (81), the upper sleeve (83) and the lower sleeve (84) are provided with channels with diameters larger than the diameter of the threading pipe (72), and the threading pipe (72) passes through the bevel gear set (81), the upper sleeve (83) and the lower sleeve (84);

the upper port and the lower port of the ring groove (891) are fixedly provided with baffle rings along the inner diameter direction, and the inner diameter of the baffle rings is smaller than the outer diameter of the flaring ring (85) and is used for limiting and supporting;

the bevel gear set (81) drives the lower sleeve (84) and the flaring ring (85) to synchronously rotate, the flaring ring (85) is meshed with threads of the annular groove (891), the lower disc (89) is driven to descend to drive the laser head (71) to descend to penetrate out of the round hole (611) until the flaring ring (85) and the upper baffle ring are contacted and lifted to stop for laser processing;

the bevel gear group (81) drives the lower sleeve (84) and the flaring ring (85) to rotate synchronously, the flaring ring (85) is meshed with the threads of the annular groove (891), the lower disc (89) is driven to ascend to drive the laser head (71) to ascend and retract into the round hole (611) until the flaring ring (85) is separated from contact with the smooth surface with the threads, and the polishing wheel (61) and the supporting rod (62) keep rotating synchronously for polishing.

2. A laser processing apparatus as claimed in claim 1, characterized in that the flushing assembly (4) comprises a water pump (41), a water reservoir (42), a water suction pipe (43), a water drain pipe (44) and a filter screen (45), the rectangular groove is covered by the top opening of the water reservoir (42), the water pump (41) is arranged on the water reservoir (42) beside the rectangular groove, one end of the water suction pipe (43) of the water reservoir (42) is inserted into the water reservoir (42), the other end of the water suction pipe (43) passes through the processing platform (21) and the partition board (3), one end of the water drain pipe (44) is embedded into the lower parts of the processing platform (21) and the partition board (3), and the other end of the water drain pipe (44) is lapped on the filter screen (45).