CN115922084A

CN115922084A - Laser welding dust collector

Info

Publication number: CN115922084A
Application number: CN202310188428.2A
Authority: CN
Inventors: 迟同胜; 迟佳玮
Original assignee: Shandong Dejin New Energy Technology Co ltd
Current assignee: Shandong Dejin New Energy Technology Co ltd
Priority date: 2023-03-02
Filing date: 2023-03-02
Publication date: 2023-04-07
Anticipated expiration: 2043-03-02
Also published as: CN115922084B

Abstract

The invention provides a laser welding dust removal device, which relates to the technical field of welding dust removal, and comprises a moving vehicle, a cylindrical water barrel arranged on the moving vehicle, a fan arranged on the outer side surface of the cylindrical water barrel, a dust removal structure arranged on the moving vehicle, and a clamping and fixing structure connected with the dust removal structure, wherein the bottom end of the cylindrical water barrel is vertically connected to the inner bottom surface of the moving vehicle through threads, and the dust removal structure is detachably connected with a laser welding head and is detachably connected with the cylindrical water barrel through the fan; the clamping and fixing structure is detachably connected with the laser welding machine and is also detachably connected with the cylindrical water barrel; still include the high definition subassembly of making a video recording of being connected with dust removal structure. The laser welding dust removal device provided by the invention can be used for simultaneously removing dust on the upper side and the lower side of a laser welding part, is convenient and fast to use, and also has a multifunctional technical effect.

Description

Laser welding dust collector

Technical Field

The invention belongs to the technical field of welding dust removal, and particularly relates to a laser welding dust removal device.

Background

Laser welding is an efficient precision welding method using a laser beam with high energy density as a heat source. Laser welding is one of the important aspects of the application of laser material processing techniques. The 20 th century and the 70 th century are mainly used for welding thin-wall materials and low-speed welding, and the welding process belongs to a heat conduction type, namely, the surface of a workpiece is heated by laser radiation, the surface heat is diffused inwards through heat conduction, and the workpiece is melted to form a specific molten pool by controlling parameters such as the width, the energy, the peak power, the repetition frequency and the like of laser pulses. Due to the unique advantages, the welding method is successfully applied to the precision welding of micro and small parts.

In the manufacturing process of the workpiece, the workpiece is subjected to laser welding, and a large amount of smoke dust is generated when the workpiece is subjected to laser welding, and the surrounding environment is influenced by the smoke dust. The laser welding dust removal structure of present has great limitation, and chinese utility model patent that application number is CN2022210776615.0 for example discloses a laser welding dust removal structure, mainly removes dust to the top of welding, and in the actual welding process, also often there is a large amount of smoke and dust in the below of welding. Therefore, how to remove dust simultaneously to the top and bottom of laser welding spare becomes the key technical problem that this scheme will solve.

Disclosure of Invention

The invention aims to provide a laser welding dust removal device, which solves the technical problem of how to remove dust on the upper side and the lower side of a laser welding part at the same time, is convenient and quick to use, and has a multifunctional technical effect.

A laser welding dust removal device comprises a moving vehicle, a cylindrical water barrel arranged on the moving vehicle, a fan arranged on the outer side surface of the cylindrical water barrel, a dust removal structure arranged on the moving vehicle, and a clamping and fixing structure connected with the dust removal structure, wherein the bottom end of the cylindrical water barrel is vertically connected to the inner bottom surface of the moving vehicle through threads, and the dust removal structure is detachably connected with a laser welding head and is detachably connected with the cylindrical water barrel through the fan;

the clamping and fixing structure is detachably connected with the laser welding machine and also detachably connected with the cylindrical water barrel;

still include with the high definition subassembly of making a video recording that dust removal structure is connected.

The dust removing structure comprises a first mask plate and a second mask plate which are movably clamped on the outer side of the laser welding head, a second glass plate vertically arranged on the outer side of the first mask plate, and a first glass plate vertically arranged on the outer side of the second mask plate, wherein the first mask plate or the second mask plate comprises a protection plate and an optical filter adhered above the protection plate, and a plurality of strip-shaped through holes are formed in the upper bottom surface and the lower bottom surface of the first glass plate and the lower bottom surface of the second glass plate;

the long strip through hole on the first glass plate is communicated with the first channel pipe through the first suction pipe, the long strip through hole on the second glass plate is communicated with the second channel pipe through the second suction pipe, and the first channel pipe and the second channel pipe are connected with the cylindrical water drum through the fan.

The high-definition camera assembly comprises a high-definition camera, one end, a video line and a display screen, wherein the video line is connected with the high-definition camera, the display screen is connected with the other end of the video line, and the high-definition camera is arranged below the first mask plate or the second mask plate.

The clamping and fixing structure comprises a lower master gear attached below the first mask plate, a lower slave gear attached below the second mask plate, a lower master gear shaft penetrating through the center of the lower master gear and connected with the first mask plate, a lower slave gear shaft penetrating through the center of the lower slave gear and connected with the second mask plate, a lower driving gear meshed with the lower master gear, a lower driving shaft penetrating through the center of the lower driving gear and a motor connected with the lower driving shaft;

the lower main gear shaft, the lower sub gear shaft and the lower driving shaft vertically pass through the support plate.

The clamping and fixing structure further comprises a lifting cylinder, a lifting plate, a first clamping rod and a second clamping rod, an upper master gear, an upper slave gear and an upper drive gear, wherein the bottom end of the lifting cylinder is vertically connected to the supporting plate, the lifting plate is connected with the telescopic end of the lifting cylinder, the first clamping rod and the second clamping rod are attached to the top surface of the lifting plate, the upper master gear is connected with the first clamping rod, the upper slave gear is connected with the second clamping rod, the upper drive gear is in meshed connection with the upper master gear, an upper master gear shaft is arranged in the center of the upper master gear in a penetrating mode, an upper slave gear shaft is arranged in the center of the upper slave gear in a penetrating mode, and the upper master gear shaft and the upper slave gear shaft are connected with the lifting plate;

an upper driving shaft penetrates through the center of the upper driving gear, the bottom end of the upper driving shaft is connected with a limiting column with a square cross section, the bottom end of the limiting column is arranged at the center of the lower driving shaft in a sliding mode, and the upper driving shaft penetrates through the lifting plate;

the first clamping rod and the second clamping rod are detachably clamped on the laser welding machine.

The movable trolley comprises a box plate with an upward opening, a power wheel arranged on the bottom surface of the box plate and a dust removal pipe arranged on the outer side surface of the box plate, the dust removal pipe is connected with the cylindrical water barrel through the fan, a threaded hole is formed in the inner bottom surface of the box plate, and the threaded hole is connected with the bottom end of the cylindrical water barrel;

the moving vehicle is integrally and movably arranged below the welding part.

The inner side surfaces of the first glass plate and the second glass plate are respectively provided with a communicating hole, and the communicating holes are communicated with the strip-shaped through holes.

The invention achieves the following remarkable effects:

(1) The dust removal structure and the high-definition camera assembly are arranged in the scheme and combined, so that under the shielding effect of the protective sheet and the optical filter, people cannot see a welding seam, at the moment, the welding position can be clearly judged through the high-definition camera, the operation of people is facilitated, meanwhile, in the welding process, the welding situation can be seen through the high-definition camera or the mask plate I and the mask plate II, the dust removal is prevented, the welding process is not influenced, and the operation of people is facilitated;

in addition, under the comprehensive action of the lower driving gear, the lower main gear and the lower driven gear, the first mask plate and the second mask plate can be clamped at the position of the laser welding head, and the positioning effect is also achieved;

when all the welding dust removal work is finished, the first mask plate and the second mask plate can be clamped on the outer side of the cylindrical water barrel, and the effect of positioning the dust removal structure on the moving vehicle is achieved;

(2) In order to strengthen the fixed connection, an upper driving gear, an upper main gear and an upper driven gear are further arranged and positioned above the laser welding head, so that the effect of strengthening the fixation is achieved;

in addition, when all the welding dust removal work is finished, the first clamping rod and the second clamping rod can be clamped on the outer side of the cylindrical water barrel, and the effect of positioning the dust removal structure on the moving vehicle is achieved;

(3) The trolley is arranged in the scheme, so that on one hand, the trolley has the functions of carrying the dust removing structure and clamping the fixing structure, on the other hand, an open slot is formed in the upper end face of the box plate, dust generated by welding falls into the open slot, and under the suction effect of the dust removing pipe, the dust is sucked into the cylindrical water barrel through the fan, so that the dust removing effect is realized;

(4) The cylindrical water barrel is detachably taken from the box plate, the cylindrical water barrel not only has the effect of dissolving dust, but also can be positioned on the moving vehicle through the detachability of the cylindrical water barrel by the clamping and fixing structure, and the multifunctional technical effect is achieved.

Drawings

FIG. 1 is a schematic structural diagram of a welding dust removing device in an embodiment of the invention.

Fig. 2 is a schematic structural diagram of a clamping and fixing structure and a dust removing structure in the embodiment of the invention.

Fig. 3 is a schematic structural diagram of a clamping and fixing structure in an embodiment of the invention.

Fig. 4 is a schematic structural diagram of a dust removal structure in an embodiment of the present invention.

Fig. 5 is a schematic view of a connection structure of the cylindrical water drum and the moving vehicle in the embodiment of the invention.

Fig. 6 is a schematic structural diagram of a mobile cart according to an embodiment of the present invention.

Fig. 7 is a schematic view of a connection structure of the first mask plate, the second mask plate and the laser welding head according to the embodiment of the present invention.

Wherein the reference numerals are: 1. a cylindrical water barrel; 1-1, a fan; 2. a first clamping rod; 3. an upper drive shaft; 31. a protrusion; 4. an upper drive gear; 5. an upper main gear; 6. an upper driven gear; 7. a lifting plate; 8. a limiting column; 9. a lifting cylinder; 10. a lower drive shaft; 11. a support plate; 111. a motor; 112. a lower drive gear; 113. a lower main gear; 114. a lower driven gear; 12. a first mask plate; 13. a second mask plate; 14. a mobile vehicle; 141. a dust removal pipe; 142. a power wheel; 143. a threaded hole; 15. a first glass plate; 151. a second glass plate; 16. a first suction pipe; 161. a second suction pipe; 17. a first channel pipe; 171. a second channel pipe; 18. a high-definition camera; 19. a second clamping rod; 20. a laser welding head; 21. a dust removal structure; 22. a clamping and fixing structure; 23. high definition subassembly of making a video recording.

Detailed description of the preferred embodiments

In order to clearly illustrate the technical features of the present solution, the present solution is described below by way of specific embodiments.

Referring to fig. 1-7, a laser welding dust removal device comprises a moving vehicle 14, a cylindrical water barrel 1 arranged on the moving vehicle 14, a fan 1-1 arranged on the outer side surface of the cylindrical water barrel 1, a dust removal structure 21 arranged on the moving vehicle 14, and a clamping and fixing structure 22 connected with the dust removal structure 21, wherein the bottom end of the cylindrical water barrel 1 is vertically connected to the inner bottom surface of the moving vehicle 14 through threads, and the dust removal structure 21 is detachably connected with a laser welding head 20 and is detachably connected with the cylindrical water barrel 1 through the fan 1-1;

the clamping and fixing structure 22 is detachably connected with the laser welding machine and is also detachably connected with the cylindrical water barrel 1;

and the high-definition camera assembly 23 is connected with the dust removing structure 21.

The dust removing structure 21 comprises a first mask plate 12 and a second mask plate 13 which are movably clamped outside the laser welding head 20, a second glass plate 151 which is vertically arranged outside the first mask plate 12, and a first glass plate 15 which is vertically arranged outside the second mask plate 13, wherein the first mask plate 12 or the second mask plate 13 respectively comprise a protective sheet and an optical filter which is bonded above the protective sheet, and a plurality of strip-shaped through holes are formed in the upper bottom surface and the lower bottom surface of the first glass plate 15 and the lower bottom surface of the second glass plate 151;

the strip through hole in the first glass plate 15 is communicated with the first channel pipe 17 through the first suction pipe 16, the strip through hole in the second glass plate 151 is communicated with the second channel pipe 171 through the second suction pipe 161, and the first channel pipe 17 and the second channel pipe 171 are both connected with the cylindrical water drum 1 through the fan 1-1.

The high-definition camera assembly 23 comprises a high-definition camera 18, a video line with one end connected with the high-definition camera 18 and a display screen connected with the other end of the video line, and the high-definition camera 18 is arranged below the first mask plate 12 or the second mask plate 13.

The clamping and fixing structure 22 comprises a lower main gear 113 attached below the first mask plate 12, a lower driven gear 114 attached below the second mask plate 13, a lower main gear shaft penetrating through the center of the lower main gear 113 and connected with the first mask plate 12, a lower driven gear shaft penetrating through the center of the lower driven gear 114 and connected with the second mask plate 13, a lower driving gear 112 meshed with the lower main gear 113, a lower driving shaft 10 penetrating through the center of the lower driving gear 112, and a motor 111 connected with the lower driving shaft 10;

the lower main gear shaft, the lower sub gear shaft and the lower driving shaft 10 vertically pass through the support plate 11.

The clamping and fixing structure 22 further comprises a lifting cylinder 9 with the bottom end vertically connected to the supporting plate 11, a lifting plate 7 connected with the telescopic end of the lifting cylinder 9, a first clamping rod 2 and a second clamping rod 19 attached to the top surface of the lifting plate 7, an upper main gear 5 connected with the first clamping rod 2, an upper driven gear 6 connected with the second clamping rod 19, and an upper driving gear 4 meshed with the upper main gear 5, wherein an upper main gear shaft penetrates through the center of the upper main gear 5, an upper driven gear shaft penetrates through the center of the upper driven gear 6, and the upper main gear shaft and the upper driven gear shaft are connected with the lifting plate 7;

an upper driving shaft 3 penetrates through the center of the upper driving gear 4, the bottom end of the upper driving shaft 3 is connected with a limiting column 8 with a square cross section, the bottom end of the limiting column 8 is arranged at the center of the lower driving shaft 10 in a sliding mode, and the upper driving shaft 3 penetrates through a protruding portion 31 of the lifting plate 7;

the first clamping rod 2 and the second clamping rod 19 are detachably clamped on the laser welding machine.

The moving vehicle 14 comprises a box plate with an upward opening, a power wheel 142 arranged on the bottom surface of the box plate and a dust removal pipe 141 arranged on the outer side surface of the box plate, wherein the dust removal pipe 141 is connected with the cylindrical water barrel 1 through a fan 1-1, the inner bottom surface of the box plate is provided with a threaded hole 143, and the threaded hole 143 is connected with the bottom end of the cylindrical water barrel 1;

the movable trolley 14 is integrally and movably arranged below the welding part.

The inner side surfaces of the first glass plate 15 and the second glass plate 151 are respectively provided with a communicating hole which is communicated with the strip-shaped through hole.

The specific working process of the invention is as follows:

the scheme is provided with a dust removal structure 21 and a high-definition camera component 23, a first mask plate 12 and a second mask plate 13 are placed at the position of a laser welding head 20, and the first mask plate 12 or the second mask plate 13 are formed by a protection sheet and an optical filter, wherein the protection sheet and the optical filter are existing materials, are common materials in a conventional laser welding mask and are not detailed herein;

because the laser welding head 20 is shielded by the first mask plate 12 and the second mask plate 13, people do not necessarily see the welding gap, which affects the welding process, and at the moment, the high-definition camera 18 is arranged, so that people can see the situation below the first mask plate 12 and the second mask plate 13 through a display screen;

starting the fan 1-1, under the suction action of the fan 1-1, forming negative pressure in the long strip through holes in the first glass plate 15 and the second glass plate 151, enabling welding smoke dust to enter the long strip through holes and be sucked into the cylindrical water drum 1 through the flexible pipe to finish the collection work of the smoke dust, wherein the flexible pipe has a certain length, and the laser welding head 20 can conveniently move for a long distance according to the actual welding condition; in addition, preferably, a spray head can be arranged on the outer side of the supporting plate 11, the spray head is connected with the cylindrical water barrel 1 and can be used for the water cooling process of a welding part, the flexible pipe and the spray head can be installed according to actual situations, and detailed marks are not shown in the attached drawings, and therefore the description is given here;

in addition, under the action of the motor 111, the lower driving gear 112 is rotated, and the lower main gear 113 and the lower driven gear 114 are driven to rotate, so that the first mask plate 12 and the second mask plate 13 can be clamped at the position of the laser welding head 20;

meanwhile, under the action of the lower driving shaft 10, the limiting column 8 is driven to rotate, the limiting column 8 simultaneously drives the upper driving shaft 3 to rotate, the upper driving gear 4 is driven to rotate, the upper driving gear 4 drives the upper main gear 5 and the upper driven gear 6 to rotate, and the first clamping rod 2 and the second clamping rod 19 can be movably clamped on the laser welding machine;

according to the scheme, the cylindrical water barrel 1 is arranged on the moving vehicle 14, the first clamping rod 2, the second clamping rod 19, the first mask plate 12 and the second mask plate 13 are clamped on the outer side of the cylindrical water barrel 1 and are positioned on the moving vehicle 14 through the cylindrical water barrel 1 to perform subsequent carrying or transferring work, when the next welding dust removal operation is needed, the moving vehicle 14, the cylindrical water barrel 1, the dust removal structure 21, the clamping fixing structure 22 and the high-definition camera shooting assembly 23 are separated, the moving vehicle 14 and the cylindrical water barrel 1 are placed beside a workpiece to be welded, at the moment, the moving vehicle 14 and the cylindrical water barrel 1 do not participate in the moving process of the laser welding head 20, and the dust removal structure 21, the clamping fixing structure 22 and the high-definition camera shooting assembly 23 move along with the laser welding head 20.

The technical features of the present invention which are not described in the above embodiments may be implemented by or using the prior art, and are not described herein again, of course, the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and variations, modifications, additions or substitutions which may be made by those skilled in the art within the spirit and scope of the present invention should also fall within the protection scope of the present invention.

Claims

1. The laser welding dust removal device comprises a moving vehicle (14), and is characterized by further comprising a cylindrical water barrel (1) arranged on the moving vehicle (14), a fan (1-1) arranged on the outer side surface of the cylindrical water barrel (1), a dust removal structure (21) arranged on the moving vehicle (14), and a clamping and fixing structure (22) connected with the dust removal structure (21), wherein the bottom end of the cylindrical water barrel (1) is vertically connected to the inner bottom surface of the moving vehicle (14) through threads, the dust removal structure (21) is detachably connected with a laser welding head (20), and is detachably connected with the cylindrical water barrel (1) through the fan (1-1);

the clamping and fixing structure (22) is detachably connected with the laser welding machine and is also detachably connected with the cylindrical water barrel (1);

the device also comprises a high-definition camera assembly (23) connected with the dust removing structure (21).

2. The laser welding dust removal device according to claim 1, wherein the dust removal structure (21) comprises a first mask plate (12) and a second mask plate (13) which can be movably clamped outside the laser welding head (20), a second glass plate (151) which is vertically arranged outside the first mask plate (12), and a first glass plate (15) which is vertically arranged outside the second mask plate (13), wherein the first mask plate (12) or the second mask plate (13) comprises a protective sheet and a filter which is adhered above the protective sheet, and a plurality of strip through holes are formed in the upper bottom surface and the lower bottom surface of the first glass plate (15) and the second glass plate (151);

the long-strip through hole on the first glass plate (15) is communicated with the first channel pipe (17) through the first suction pipe (16), the long-strip through hole on the second glass plate (151) is communicated with the second channel pipe (171) through the second suction pipe (161), and the first channel pipe (17) and the second channel pipe (171) are connected with the cylindrical water drum (1) through the fan (1-1).

3. The laser welding dust removal device according to claim 2, wherein the high-definition camera assembly (23) comprises a high-definition camera (18), a video line connected with one end of the high-definition camera (18), and a display screen connected with the other end of the video line, and the high-definition camera (18) is arranged below the first mask plate (12) or the second mask plate (13).

4. The laser welding dust removing apparatus as claimed in claim 2, wherein the clamping fixture (22) comprises a lower master gear (113) fitted under the first mask plate (12), a lower slave gear (114) fitted under the second mask plate (13), a lower master gear shaft passing through a center of the lower master gear (113) and connected to the first mask plate (12), a lower slave gear shaft passing through a center of the lower slave gear (114) and connected to the second mask plate (13), a lower drive gear (112) in meshed connection with the lower master gear (113), a lower drive shaft (10) passing through a center of the lower drive gear (112), and a motor (111) connected to the lower drive shaft (10); the lower master gear shaft, the lower slave gear shaft and the lower drive shaft (10) vertically pass through a support plate (11).

5. The laser welding dust removal device according to claim 4, wherein the clamping and fixing structure (22) further comprises a lifting cylinder (9) with a bottom end vertically connected to the support plate (11), a lifting plate (7) connected with a telescopic end of the lifting cylinder (9), a first clamping rod (2) and a second clamping rod (19) attached to the top surface of the lifting plate (7), an upper master gear (5) connected with the first clamping rod (2), an upper slave gear (6) connected with the second clamping rod (19), and an upper drive gear (4) in meshed connection with the upper master gear (5), wherein an upper master gear shaft penetrates through the center of the upper master gear (5), an upper slave gear shaft penetrates through the center of the upper slave gear (6), and the upper master gear shaft and the upper slave gear shaft are connected with the lifting plate (7); an upper driving shaft (3) penetrates through the center of the upper driving gear (4), the bottom end of the upper driving shaft (3) is connected with a limiting column (8) with a square cross section, the bottom end of the limiting column (8) is arranged at the center of the lower driving shaft (10) in a sliding mode, and the upper driving shaft (3) penetrates through the lifting plate (7); the first clamping rod (2) and the second clamping rod (19) are detachably clamped on the laser welding machine.

6. The laser welding dust removing device according to claim 1, wherein the moving vehicle (14) comprises a box plate with an upward opening, a power wheel (142) arranged on the bottom surface of the box plate, and a dust removing pipe (141) arranged on the outer side surface of the box plate, the dust removing pipe (141) is connected with the cylindrical water barrel (1) through the fan (1-1), the inner bottom surface of the box plate is provided with a threaded hole (143), and the threaded hole (143) is connected with the bottom end of the cylindrical water barrel (1); the moving vehicle (14) is integrally and movably arranged below the welding part.

7. The laser welding dust removing apparatus according to claim 2, wherein the inner side surfaces of the first glass plate (15) and the second glass plate (151) are provided with communication holes respectively, and the communication holes are communicated with the strip through holes.