CN220805889U - Numerical control laser cutting machine - Google Patents

Abstract

The utility model belongs to the technical field of numerical control equipment, in particular to a numerical control laser cutting machine, which aims at the problems that dust and sweeps generated by laser cutting cannot be collected and the follow-up cutting precision is easily affected when the existing numerical control laser cutting machine works. The utility model has reasonable structure, can collect dust and scraps generated by laser cutting and prevent the dust and scraps from affecting the precision of subsequent cutting.

Description

Numerical control laser cutting machine

Technical Field

The utility model relates to the technical field of numerical control equipment, in particular to a numerical control laser cutting machine.

Background

The numerical control laser cutting machine focuses laser emitted from a laser into a laser beam with high power density through an optical path system, the laser beam irradiates the surface of a workpiece to enable the workpiece to reach a melting point or a boiling point, and high-pressure gas coaxial with the laser beam blows away molten or gasified metal; along with the movement of the relative positions of the light beam and the workpiece, the material is finally formed into a kerf, so that the aim of cutting is achieved.

The invention discloses a numerical control laser cutting machine, which is disclosed in the patent with the publication number of CN112059438B, wherein a second spring is arranged between a stabilizing table and a discharging frame, the stabilizing table is hinged with the discharging frame through a hinge, a second motor rotates positively, the hinge drives the discharging frame to move downwards to place a stack of workpieces, the second spring is in a compressed state, the second motor rotates reversely, the discharging frame is enabled to ascend through the restoring force of the second spring, the workpieces are enabled to correspond to a conveying mechanism, a first spring is arranged between a workbench and a pushing assembly, the pushing assembly is connected with the workbench through a hinge, the first motor rotates positively, the pushing assembly pushes the workpieces to the conveying mechanism so as to cut, the first spring compresses, the first motor rotates reversely, the pushing assembly resets through the restoring force of the first spring, the next workpiece ascends, and the next workpiece ascends, so that labor is saved when the worker is discharged, and the working strength is reduced.

But this numerical control laser cutting machine is at the during operation, can't collect dust and sweeps that laser cutting produced, easily leads to its precision that influences follow-up cutting.

Disclosure of utility model

The utility model aims to solve the defect that dust and scraps generated by laser cutting cannot be collected when the existing numerical control laser cutting machine works, and the dust and scraps are easy to influence the accuracy of subsequent cutting.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

The utility model provides a numerical control laser cutting machine, includes the casing, fixed mounting has first motor on the inner wall of one side of casing, and fixed mounting has the threaded rod on the output shaft of first motor, threaded mounting has the fixed block on the threaded rod, be equipped with first spout on the inner wall of the top of casing, and sliding mounting has first slider in the first spout, the bottom of first slider and the top fixed connection of fixed block, the bottom of fixed block is equipped with moving mechanism, fixed mounting has the second motor on the inner wall of one side of casing, fixed connection has the transmission shaft on the output shaft of second motor, and fixed mounting has first sprocket and first telescopic tube on the transmission shaft, one side of first telescopic tube is equipped with cleans mechanism, first sprocket below is equipped with dust removal mechanism.

Preferably, the moving mechanism comprises a push rod motor, the push rod motor is located at the bottom of the fixed block, a laser emission assembly is fixedly installed on an output shaft of the push rod motor, a laser emitter is arranged at the bottom of the laser emission assembly, a second sliding groove is arranged at the bottom of the fixed block, a second sliding block is slidably installed on the second sliding groove, and the bottom of the second sliding block is fixedly connected with the top of the laser emission assembly.

Preferably, the cleaning mechanism comprises a first telescopic rod, the first telescopic rod is slidably mounted in a first telescopic sleeve, a first bevel gear is fixedly mounted at one end of the first telescopic rod, an L-shaped plate is fixedly mounted on the inner wall of one side of the shell, a second telescopic sleeve is fixedly mounted at one side of the L-shaped plate, a second telescopic rod is slidably mounted in the second telescopic sleeve, a first rotating shaft is rotatably mounted on the second telescopic rod, a second bevel gear is fixedly mounted at one end of the first rotating shaft, a brush is fixedly mounted at the other end of the first rotating shaft, and the first bevel gear is meshed with the second bevel gear.

Preferably, a third telescopic rod is fixedly arranged on one side of the fixed block, a third telescopic sleeve is slidably arranged at one end of the third telescopic rod, a fixed plate is fixedly arranged at one end of the third telescopic sleeve, and a first telescopic rod and a second telescopic rod are fixedly arranged on the fixed plate.

Preferably, the dust removing mechanism comprises an air outlet pipe, the air outlet pipe is fixedly arranged on one side inner wall of the shell, a fixing column is fixedly arranged on the top inner wall of the air outlet pipe, a second rotating shaft is rotatably arranged on one side of the bottom of the fixing column, a second sprocket and fan blades are fixedly arranged on the second rotating shaft, a chain is meshed between the first sprocket and the second sprocket, one end of the air outlet pipe is positioned on one side of the shell, and a filter screen is fixedly arranged on one side of the air outlet pipe.

Preferably, the support plates are fixedly installed on the inner walls of the two sides of the shell, and the workbench is fixedly installed between the two support plates.

Preferably, a waste box is arranged on the inner wall of the bottom of the shell, and a box door is arranged on one side of the shell.

Compared with the prior art, the utility model has the advantages that:

(1) This scheme is owing to set up dust removal mechanism, can be when carrying out laser cutting to the dust that will produce is absorbed away to leave the dust on the filter screen.

(2) This scheme is owing to set up cleaning mechanism, can clear up the sweeps on the workstation after cutting.

The utility model has reasonable structure, can collect dust and scraps generated by laser cutting and prevent the dust and scraps from affecting the precision of subsequent cutting.

Drawings

FIG. 1 is a schematic diagram of a numerical control laser cutting machine according to the present utility model;

fig. 2 is a schematic structural diagram of a moving mechanism of a numerical control laser cutting machine according to the present utility model;

fig. 3 is a schematic diagram of a portion a of a numerical control laser cutting machine according to the present utility model.

In the figure: 1. a housing; 2. a first motor; 3. a threaded rod; 4. a fixed block; 5. a second motor; 6. a transmission shaft; 7. a first sprocket; 8. a first telescopic sleeve; 9. an L-shaped plate; 10. a second telescopic sleeve; 11. a second telescopic rod; 12. a first chute; 13. a first slider; 14. a push rod motor; 15. a second chute; 16. a second slider; 17. a laser emission assembly; 18. a laser emitter; 19. an air outlet pipe; 20. fixing the column; 21. a second rotation shaft; 22. a second sprocket; 23. a fan blade; 24. a chain; 25. a filter screen; 26. a first telescopic rod; 27. a first bevel gear; 28. a second bevel gear; 29. a first rotation shaft; 30. a fixing plate; 31. a brush; 32. a waste bin; 33. a work table; 34. a support plate; 35. a door; 36. a third telescopic rod; 37. and a third telescopic sleeve.

Detailed Description

The technical solutions of the present embodiment will be clearly and completely described below with reference to the drawings in the present embodiment, and it is apparent that the described embodiments are only some embodiments of the present embodiment, not all embodiments.

Example 1

Referring to fig. 1-3, a numerical control laser cutting machine comprises a casing 1, wherein a first motor 2 is fixedly installed on the inner wall of one side of the casing 1, a threaded rod 3 is fixedly installed on the output shaft of the first motor 2, a fixed block 4 is installed on the threaded rod 3 in a threaded manner, a first sliding groove 12 is formed in the inner wall of the top of the casing 1, a first sliding block 13 is installed in the first sliding groove 12 in a sliding manner, the bottom of the first sliding block 13 is fixedly connected with the top of the fixed block 4, a moving mechanism is arranged at the bottom of the fixed block 4, a second motor 5 is fixedly installed on the inner wall of one side of the casing 1, a transmission shaft 6 is fixedly connected to the output shaft of the second motor 5, a first sprocket 7 and a first telescopic sleeve 8 are fixedly installed on the transmission shaft 6, a cleaning mechanism is arranged on one side of the first telescopic sleeve 8, and a dust removing mechanism is arranged below the first sprocket 7.

In this embodiment, the moving mechanism includes a push rod motor 14, the push rod motor 14 is located at the bottom of the fixed block 4, a laser emission assembly 17 is fixedly installed on an output shaft of the push rod motor 14, a laser emitter 18 is disposed at the bottom of the laser emission assembly 17, a second sliding groove 15 is disposed at the bottom of the fixed block 4, a second sliding block 16 is slidably installed on the second sliding groove 15, and the bottom of the second sliding block 16 is fixedly connected with the top of the laser emission assembly 17.

In this embodiment, the cleaning mechanism includes a first telescopic rod 26, and the first telescopic rod 26 is slidably mounted in the first telescopic sleeve 8, one end of the first telescopic rod 26 is fixedly mounted with a first bevel gear 27, an L-shaped plate 9 is fixedly mounted on an inner wall of one side of the housing 1, a second telescopic sleeve 10 is fixedly mounted on one side of the L-shaped plate 9, a second telescopic rod 11 is slidably mounted in the second telescopic sleeve 10, a first rotating shaft 29 is rotatably mounted on the second telescopic rod 11, a second bevel gear 28 is fixedly mounted at one end of the first rotating shaft 29, a brush 31 is fixedly mounted at the other end of the first rotating shaft 29, and the first bevel gear 27 is meshed with the second bevel gear 28.

In this embodiment, a third telescopic rod 36 is fixedly installed on one side of the fixed block 4, a third telescopic sleeve 37 is slidably installed at one end of the third telescopic rod 36, a fixed plate 30 is fixedly installed at one end of the third telescopic sleeve 37, and the first telescopic rod 26 and the second telescopic rod 11 are fixedly installed on the fixed plate 30.

In this embodiment, the dust removal mechanism includes outlet duct 19, and outlet duct 19 fixed mounting is on one side inner wall of casing 1, and fixed mounting has fixed column 20 on the top inner wall of outlet duct 19, and second axis of rotation 21 is installed in the rotation of bottom one side of fixed column 20, and fixed mounting has second sprocket 22 and flabellum 23 on the second axis of rotation 21, and the meshing is connected with chain 24 between first sprocket 7 and the second sprocket 22, and one end of outlet duct 19 is located one side of casing 1, and one side fixed mounting of outlet duct 19 has filter screen 25.

In this embodiment, support plates 34 are fixedly mounted on the inner walls of both sides of the housing 1, and a workbench 33 is fixedly mounted between the two support plates 34.

In this embodiment, a waste bin 32 is disposed on the inner wall of the bottom of the housing 1, and a door 35 is provided on one side of the housing 1.

The working principle is that firstly, when cutting is needed, raw materials are placed on a workbench 33, a first motor 2 is started, the first motor 2 drives a threaded rod 3 to rotate through an output shaft, the threaded rod 3 drives a fixed block 4 to move, a push rod motor 14 is started again, and the push rod motor 14 drives a laser emission assembly 17 to move to a proper position through the output shaft, so that a laser emitter 18 emits laser to cut the materials.

Secondly, when cutting, the second motor 5 is started, the second motor 5 drives the transmission shaft 6 to rotate through the output shaft, the transmission shaft 6 drives the first sprocket 7 to rotate, the first sprocket 7 drives the second sprocket 22 to rotate through the chain 24, the second sprocket 22 drives the second rotating shaft 21 to rotate, the second sprocket 22 drives the fan blades 23 to rotate, and dust generated by cutting moves onto the filter screen 25 through the air outlet pipe 19.

Finally, after the cutting is completed, the first motor 2 is started, the first motor 2 drives the threaded rod 3 to rotate through the output shaft, the threaded rod 3 drives the fixed block 4 to move, the fixed block 4 drives the third telescopic sleeve 37 to move through the third telescopic rod 36, and the third telescopic sleeve 37 drives the fixed plate 30 to move. The fixed plate 30 drives the first telescopic rod 26 and the second telescopic rod 11 to move, and the second telescopic rod 11 drives the first rotating shaft 29 to move, so that the brush 31 cleans the scraps on the workbench 33.

Example two

The second embodiment is different from the first embodiment in that a proper amount of water is provided at the bottom of the waste bin 32 to prevent damage to the waste bin 32 caused by excessive temperature of the waste.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art will be able to apply equally to the technical solution of the present utility model and the inventive concept thereof, within the scope of the present utility model.

Claims (7)

1. The utility model provides a numerical control laser cutting machine, includes casing (1), its characterized in that, fixed mounting has first motor (2) on the inner wall of one side of casing (1), and fixed mounting has threaded rod (3) on the output shaft of first motor (2), threaded mounting has fixed block (4) on threaded rod (3), be equipped with first spout (12) on the inner wall of the top of casing (1), and first slider (13) of sliding mounting in first spout (12), the bottom of first slider (13) and the top fixed connection of fixed block (4), the bottom of fixed block (4) is equipped with moving mechanism, fixed mounting has second motor (5) on the inner wall of one side of casing (1), fixed mounting has transmission shaft (6) on the output shaft of second motor (5), and fixed mounting has first sprocket (7) and first telescopic sleeve (8) on transmission shaft (6), one side of first telescopic sleeve (8) is equipped with cleans mechanism, first sprocket (7) below is equipped with dust removal mechanism.

2. The numerical control laser cutting machine according to claim 1, wherein the moving mechanism comprises a push rod motor (14), the push rod motor (14) is located at the bottom of the fixed block (4), a laser emission assembly (17) is fixedly installed on an output shaft of the push rod motor (14), a laser emitter (18) is arranged at the bottom of the laser emission assembly (17), a second sliding groove (15) is formed in the bottom of the fixed block (4), a second sliding block (16) is slidably installed on the second sliding groove (15), and the bottom of the second sliding block (16) is fixedly connected with the top of the laser emission assembly (17).

3. The numerical control laser cutting machine according to claim 1, wherein the cleaning mechanism comprises a first telescopic rod (26), the first telescopic rod (26) is slidably mounted in the first telescopic sleeve (8), a first bevel gear (27) is fixedly mounted at one end of the first telescopic rod (26), an L-shaped plate (9) is fixedly mounted on one side inner wall of the shell (1), a second telescopic sleeve (10) is fixedly mounted at one side of the L-shaped plate (9), a second telescopic rod (11) is slidably mounted in the second telescopic sleeve (10), a first rotating shaft (29) is rotatably mounted on the second telescopic rod (11), a second bevel gear (28) is fixedly mounted at one end of the first rotating shaft (29), a brush (31) is fixedly mounted at the other end of the first rotating shaft (29), and the first bevel gear (27) is meshed with the second bevel gear (28).

4. A numerical control laser cutting machine according to claim 3, wherein a third telescopic rod (36) is fixedly arranged on one side of the fixed block (4), a third telescopic sleeve (37) is slidably arranged at one end of the third telescopic rod (36), a fixed plate (30) is fixedly arranged at one end of the third telescopic sleeve (37), and a first telescopic rod (26) and a second telescopic rod (11) are fixedly arranged on the fixed plate (30).

5. The numerical control laser cutting machine according to claim 1, wherein the dust removing mechanism comprises an air outlet pipe (19), the air outlet pipe (19) is fixedly arranged on one side inner wall of the shell (1), a fixing column (20) is fixedly arranged on the top inner wall of the air outlet pipe (19), a second rotating shaft (21) is rotatably arranged on one side of the bottom of the fixing column (20), a second sprocket (22) and fan blades (23) are fixedly arranged on the second rotating shaft (21), a chain (24) is meshed between the first sprocket (7) and the second sprocket (22), one end of the air outlet pipe (19) is positioned on one side of the shell (1), and a filter screen (25) is fixedly arranged on one side of the air outlet pipe (19).

6. A numerical control laser cutting machine according to claim 1, wherein support plates (34) are fixedly mounted on both side inner walls of the housing (1), and a workbench (33) is fixedly mounted between the two support plates (34).

7. The numerical control laser cutting machine according to claim 1, wherein the waste bin (32) is arranged on the inner wall of the bottom of the shell (1), and a box door (35) is arranged on one side of the shell (1).