CN220006403U - High-efficient processing structure of laser cutting machine - Google Patents

Abstract

The utility model discloses a high-efficiency processing structure of a laser cutting machine, which relates to the field of laser cutting, and is characterized in that: including the base to and set up the laser cutting portion on the base, still be provided with clamping part group and vertical push pedal on the base, laser cutting portion, clamping part group and push pedal all move along base width direction and set up, and clamping part group and laser cutting portion set up on the coplanar, push pedal and clamping part group parallel arrangement, clamping part group are provided with vertical pivoted first clamping part, and the push pedal is provided with and corresponds and vertical pivoted second clamping part with first clamping part, is provided with the drive laser cutting portion on the base and clamping part group and the drive assembly that the push pedal is close to each other. According to the utility model, the laser cutting part and the driving assembly of which the first clamping part is close to the push plate when the push plate is close to the first clamping part are arranged, so that the time for the pipe to extend out of the first clamping part is shortened by half, and the pipe processing efficiency is increased.

Description

High-efficient processing structure of laser cutting machine

Technical Field

The utility model relates to the field of laser cutting, in particular to a high-efficiency processing structure of a laser cutting machine.

Background

Laser cutting belongs to one of thermal cutting methods, irradiates a workpiece by using a focused high-power density laser beam, so that the irradiated material is rapidly melted, vaporized, ablated or reaches a fire point, thereby realizing the cutting of the workpiece, more and more workpieces are cut by using a laser cutting mode along with the popularization of the laser cutting method, at present, the laser pipe cutting technology is widely applied in the processing of pipes, and a large number of pipe laser cutting devices are used along with the rapid increase of the output and consumption of metal pipes in China.

The existing common laser cutting devices are two, namely, a pipe is clamped in the horizontal direction through a clamping assembly on a machine body, then the pipe is pushed to a position corresponding to a laser cutting head through a pushing assembly, and then cutting machining is carried out on the pipe; 2. carry out the centre gripping of horizontal direction to tubular product through the first clamping component on the organism, set up the second clamping component through the laser cutting head and to tubular product centre gripping, drive laser cutting head moves along the tubular product axis, pull out certain distance with tubular product, then the laser cutting head processes the tubular product of pulling out again, among the above-mentioned two kinds of processing modes that are commonly used, the in-process laser cutting head that first kind tubular product removed is the state of stopping, the second type laser cutting head pulls tubular product then cuts processing to the tubular product, the time consuming time that tubular product removed is longer among the above-mentioned two kinds of processing modes, tubular product cutting's efficiency has been reduced, increase tubular product processing cost.

There is therefore a need to propose a new solution to this problem.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model aims to provide a high-efficiency processing structure of a laser cutting machine, and the driving assembly for driving the laser cutting part and the first clamping part to be close to the push plate when the push plate is close to the first clamping part is arranged, so that the time for the pipe to extend out of the first clamping part from the required processing distance is shortened by half, and the processing efficiency of the pipe is increased.

The technical aim of the utility model is realized by the following technical scheme: the utility model provides a high-efficient processing structure of laser cutting machine, includes the base to and set up the laser cutting portion on the base, still be provided with clamping part group and vertical push pedal on the base, laser cutting portion, clamping part group and push pedal all move along base width direction and set up, clamping part group and laser cutting portion set up on the coplanar, push pedal and clamping part group parallel arrangement, clamping part group is provided with vertical pivoted first clamping part, the push pedal is provided with and corresponds and vertical pivoted second clamping part with first clamping part, be provided with the drive laser cutting portion and clamping part group and the drive assembly that the push pedal is close to each other on the base.

The utility model is further provided with: the base is provided with a mounting groove for mounting the driving assembly, the side wall of the mounting groove is symmetrically provided with two first sliding grooves, two driven plates are arranged in the first sliding grooves in a sliding mode, the driven plates are respectively fixedly connected with the laser cutting part and the clamping part group, two second sliding grooves are formed between the first sliding grooves, sliding driving plates are arranged in the second sliding grooves, the driving plates are fixedly connected with the pushing plate, and the driven plates and the driving plates are arranged in a sliding mode along the width direction of the base.

The utility model is further provided with: and a transmission gear is arranged between the two first sliding grooves and the second sliding grooves, and racks meshed with the transmission gear are arranged on the two driven plates and the driving plates.

The utility model is further provided with: the one end that the drive plate kept away from laser cutting portion is provided with the connecting plate, connecting plate and push pedal fixed connection, the one end that the drive plate was kept away from to the connecting plate is provided with sharp driver, sharp driver is fixed to be set up on the base.

The utility model is further provided with: the clamping part group is installed on the driven plate through the diaphragm, the clamping part group is provided with a vertical rotating mounting ring, the first clamping part is fixedly arranged in the mounting ring, the peripheral wall of the mounting ring is provided with a toothed ring, the diaphragm is provided with a servo motor, and a driving gear meshed with the toothed ring is arranged on a driving piece of the servo motor.

The utility model is further provided with: the first clamping part and the second clamping part are three-jaw air cylinders.

In summary, the utility model has the following beneficial effects:

the staff places the tubular product on first clamping part and second clamping part, fix the tubular product through first clamping part and second clamping part, then promote the push pedal through linear drive ware and slide, simultaneously the drive plate passes through rack rotation two driven gears, two driven gears promote two driven laths through the rack and slide, when making the push pedal be close to first clamping part, laser cutting part and first clamping part are close to the push pedal, then when push pedal sliding distance is required tubular product processing distance half, the tubular product length that stretches out first clamping part just, then laser cutting part processes the tubular product, repeat above-mentioned operation until tubular product processing is accomplished, make push pedal sliding length be the required half of processing length of tubular product, and then realize the required processing length of tubular product and stretch out the time of first clamping part and shorten half, thereby improve tubular product machining efficiency.

Drawings

FIG. 1 is a schematic diagram of a first embodiment of the present utility model;

FIG. 2 is a schematic diagram of a second embodiment of the present utility model;

fig. 3 is a schematic structural view of the base of the present utility model in a hidden state.

In the figure: 1. a base; 2. a laser cutting section; 3. a clamping part group; 4. a push plate; 5. a first clamping part; 6. a second clamping portion; 7. a drive assembly; 8. a mounting groove; 9. a first chute; 10. a driven plate; 11. a second chute; 12. a driving plate; 13. a transmission gear; 14. a rack; 15. a connecting plate; 16. a linear driver; 17. a cross plate; 18. a mounting ring; 19. a toothed ring; 20. a servo motor; 21. and a drive gear.

Detailed Description

The present utility model will be described in detail below with reference to the accompanying drawings and examples.

The utility model provides a high-efficient processing structure of laser cutting machine, as shown in fig. 1-3, including base 1, and the laser cutting portion 2 of setting on base 1, still be provided with clamping part group 3 and vertical push pedal 4 on the base 1, laser cutting portion 2, clamping part group 3 and push pedal 4 all follow base 1 width direction and remove the setting, clamping part group 3 and laser cutting portion 2 set up on the coplanar, push pedal 4 and clamping part group 3 parallel arrangement, clamping part group 3 is provided with vertical pivoted first clamping part 5, push pedal 4 is provided with and corresponds and vertical pivoted second clamping part 6 with first clamping part 5, be provided with the drive assembly 7 that drive laser cutting portion 2 and clamping part group 3 are close to each other with push pedal 4 on the base 1. (laser cutting device is prior art) by providing the driving assembly 7 for pushing the push plate 4 to approach the first clamping part 5, the laser cutting part 2 and the first clamping part 5 are also close to the push plate 4, so that the time for the required processing distance of the pipe to extend out of the first clamping part 5 is shortened by half, and the pipe processing efficiency is increased

In the above embodiment, the pipe is horizontally fixed by the first clamping part 5 and the second clamping part 6, then the pipe at the first clamping part 5 is processed by the laser cutting part 2, and after the pipe is processed, the laser cutting part 2 and the clamping part group 3 are driven to be close to the push plate 4 by the driving component 7, so that the first clamping part 5 and the laser cutting part 2 slide towards the push plate 4 when the pipe is pushed, and the pipe length of the first clamping part 5 is exactly the length required to be processed when the sliding distance of the push plate 4 reaches half the length required to be processed by the pipe, thereby reducing the time length of pipe feeding when the pipe is processed.

Specifically, the base 1 is provided with a mounting groove 8 for mounting the driving assembly 7, the side wall of the mounting groove 8 is symmetrically provided with two first sliding grooves 9, driven plates 10 are slidably arranged in the two first sliding grooves 9, the two driven plates 10 are fixedly connected with the laser cutting part 2 and the clamping part group 3 respectively, a second sliding groove 11 is formed between the two first sliding grooves 9, a sliding driving plate 12 is arranged in the second sliding groove 11, the driving plate 12 is fixedly connected with the push plate 4, and the two driven plates 10 and the driving plate 12 are slidably arranged along the width direction of the base 1.

In the above embodiment, the arrangement of the two driving plates 12 and the driven plate 10 limits the laser cutting portion 2, the clamping portion group 3, and the push plate 4.

Specifically, a transmission gear 13 is arranged between the two first sliding grooves 9 and the second sliding groove 11, and racks 14 meshed with the transmission gear 13 are arranged on the two driven plates 10 and the driving plate 12.

In the above embodiment, by the arrangement of the tooth sleeve and the transmission gear 13, when the push plate 4 slides, the laser cutting part 2 and the clamping part group 3 slide towards the push plate 4, so that the pipe rapidly extends out of the first clamping part 5 to reach the distance required to be processed.

Specifically, a connecting plate 15 is disposed at one end of the driving plate 12 far away from the laser cutting portion 2, the connecting plate 15 is fixedly connected with the push plate 4, a linear driver 16 is disposed at one end of the connecting plate 15 far away from the driving plate 12, and the linear driver 16 is fixedly disposed on the base 1. The linear drive 16 is externally connected to a power source.

In the above embodiment, the linear driver 16 is provided to drive the push plate 4 to slide, thereby driving the laser cutting section 2 and the clamping section group 3 to slide toward the push plate 4.

Specifically, the clamping part group 3 is mounted on the driven plate 10 through the transverse plate 17, the clamping part group 3 is provided with a vertically rotating mounting ring 18, the first clamping part 5 is fixedly arranged in the mounting ring 18, the peripheral wall of the mounting ring 18 is provided with a toothed ring 19, the transverse plate 17 is provided with a servo motor 20, and a driving piece of the servo motor 20 is provided with a driving gear 21 meshed with the toothed ring 19. The drive motor shares an external power source with the linear drive 16.

In the above embodiment, the driving motor rotates through the driving gear 21, and the driving gear 21 drives the mounting ring 18 to rotate through the toothed ring 19, so that the first clamping portion 5 mounted on the mounting ring 18 rotates, and the clamping portion drives the pipe to rotate, so as to comprehensively process the pipe.

Specifically, the first clamping portion 5 and the second clamping portion 6 are three-jaw cylinders. The three-jaw cylinder shares an external power source with the driving motor and the linear driver 16

In the above embodiment, the first clamping portion 5 and the second clamping portion 6 are provided as three-jaw cylinders, and can clamp and fix the pipe.

Working principle:

the staff places the tubular product on first clamping part 5 and second clamping part 6, fix the tubular product through first clamping part 5 and second clamping part 6, then promote push pedal 4 slip through linear drive 16, drive plate 12 rotates two driven gears through rack 14 simultaneously, two driven gears promote two driven plates 10 strip slips through rack 14, when making push pedal 4 be close to first clamping part 5, laser cutting part 2 and first clamping part 5 are close to push pedal 4, then when push pedal 4 sliding distance is required tubular product processing distance half, the tubular product length that stretches out first clamping part 5 just, then laser cutting part 2 processes the tubular product, repeat above-mentioned operation until tubular product processing is accomplished, make push pedal 4 sliding length be the required processing length of tubular product half, and then realize that the required processing length of tubular product stretches out first clamping part 5's time and shorten half, thereby improve tubular product machining efficiency.

The above description is only a preferred embodiment of the present utility model, and the protection scope of the present utility model is not limited to the above examples, and all technical solutions belonging to the concept of the present utility model belong to the protection scope of the present utility model. It should be noted that modifications and adaptations to the present utility model may occur to one skilled in the art without departing from the principles of the present utility model and are intended to be within the scope of the present utility model.

Claims (6)

1. The utility model provides a high-efficient processing structure of laser cutting machine, is including base (1) to and set up laser cutting portion (2) on base (1), its characterized in that: still be provided with clamping part group (3) and vertical push pedal (4) on base (1), laser cutting portion (2), clamping part group (3) and push pedal (4) all move along base (1) width direction and set up, clamping part group (3) and laser cutting portion (2) set up on the coplanar, push pedal (4) and clamping part group (3) parallel arrangement, clamping part group (3) are provided with vertical pivoted first clamping part (5), push pedal (4) are provided with and correspond and vertical pivoted second clamping part (6) with first clamping part (5), be provided with drive laser cutting portion (2) and clamping part group (3) and push pedal (4) drive assembly (7) that are close to each other on base (1).

2. The efficient processing structure of the laser cutting machine according to claim 1, wherein: the base (1) is provided with a mounting groove (8) for mounting a driving assembly (7), the side wall of the mounting groove (8) is symmetrically provided with two first sliding grooves (9), two driven plates (10) are arranged in the first sliding grooves (9) in a sliding mode, the two driven plates (10) are fixedly connected with a laser cutting part (2) and a clamping part group (3) respectively, two second sliding grooves (11) are formed between the first sliding grooves (9), sliding driving plates (12) are arranged in the second sliding grooves (11), the driving plates (12) are fixedly connected with a pushing plate (4), and the two driven plates (10) and the driving plates (12) are arranged in a sliding mode along the width direction of the base (1).

3. The efficient processing structure of the laser cutting machine according to claim 2, wherein: a transmission gear (13) is arranged between the two first sliding grooves (9) and the second sliding grooves (11), and racks (14) meshed with the transmission gear (13) are arranged on the two driven plates (10) and the driving plates (12).

4. The efficient processing structure of the laser cutting machine according to claim 3, wherein: one end of the driving plate (12) far away from the laser cutting part (2) is provided with a connecting plate (15), the connecting plate (15) is fixedly connected with the push plate (4), one end of the connecting plate (15) far away from the driving plate (12) is provided with a linear driver (16), and the linear driver (16) is fixedly arranged on the base (1).

5. The efficient processing structure of the laser cutting machine according to claim 4, wherein: clamping part group (3) are installed on driven plate (10) through diaphragm (17), clamping part group (3) are provided with vertical pivoted collar (18), first clamping part (5) are fixed to be set up in collar (18), the periphery wall of collar (18) is provided with ring gear (19), be provided with servo motor (20) on diaphragm (17), be provided with on the driving piece of servo motor (20) with ring gear (19) meshing drive gear (21).

6. The efficient processing structure of the laser cutting machine according to claim 5, wherein: the first clamping part (5) and the second clamping part (6) are three-jaw cylinders.