CN113275768A

CN113275768A - Laser cutting machine for ceramic tile processing

Info

Publication number: CN113275768A
Application number: CN202110763497.2A
Authority: CN
Inventors: 苏艳萍
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-07-06
Filing date: 2021-07-06
Publication date: 2021-08-20

Abstract

The invention relates to a cutting machine, in particular to a laser cutting machine for processing ceramic tiles. Need design one kind and make things convenient for people to cut the ceramic tile, labour saving and time saving, work efficiency is high, and does not influence the laser cutting machine for ceramic tile processing of surrounding environment. The technical scheme of the invention is a laser cutting machine for processing ceramic tiles, which comprises: the device comprises a base and a support column, wherein the support column is arranged on one side of the base; the mounting rack is mounted on the base; and the driving mechanism is arranged between the base and the mounting frame and used for providing power. According to the ceramic tile cutting machine, a ceramic tile is placed on the mounting frame, the servo motor is started to enable the ceramic tile to move leftwards to correspond to the laser cutter, meanwhile, the lifting cylinder is started to enable the laser cutter to move downwards, the high-speed response motor and the laser cutter are started to operate, the laser cutter can move forwards and backwards to cut the ceramic tile, and therefore people can conveniently cut the ceramic tile, time and labor are saved, and working efficiency is high.

Description

Laser cutting machine for ceramic tile processing

Technical Field

The invention relates to a cutting machine, in particular to a laser cutting machine for processing ceramic tiles.

Background

The ceramic tile is made of refractory metal oxide and semimetal oxide and is made of acid and alkali resistant porcelain or stone, building or decorative material through a series of processing, and the ceramic tile is cut for the convenience of subsequent use. At present, most all are the manual work and cut the ceramic tile, and at first people fix the ceramic tile, then cut the ceramic tile with holding cutting tool, because the hand need incessantly remove, time is long, and is more hard, and work efficiency is still low, and produces a large amount of dust easily when cutting the ceramic tile, influences the surrounding environment.

How to design one kind and make things convenient for people to cut the ceramic tile, labour saving and time saving, work efficiency is high, and does not influence the laser cutting machine for ceramic tile processing of surrounding environment to solve the problem that prior art exists.

Disclosure of Invention

In order to overcome the defects that the hand needs to move ceaselessly, the time is long, the labor is wasted, the working efficiency is low, and a large amount of dust is easily generated when the ceramic tile is cut to influence the surrounding environment, the technical problems of the invention are as follows: the laser cutting machine for processing the ceramic tiles is convenient for people to cut the ceramic tiles, time-saving and labor-saving, high in working efficiency and free of influence on the surrounding environment.

The technical implementation scheme of the invention is as follows: a laser cutting machine for processing ceramic tiles comprises: the device comprises a base and a support column, wherein the support column is arranged on one side of the base; the mounting rack is mounted on the base; the driving mechanism is arranged between the base and the mounting frame and used for providing power; and the cutting mechanism is arranged on the support column and used for cutting the ceramic tile.

More preferably, the drive mechanism includes: the servo motor is arranged on the base; the driving shaft is rotatably arranged on the mounting frame and is fixedly connected with an output shaft of the servo motor; the driving missing gear is arranged on the driving shaft; the driven gear is rotatably arranged on the base and is matched with the driving missing gear; four material conveying rotating shafts are arranged on the mounting frame at intervals; the first transmission assembly is arranged between the driven gear and one of the material conveying rotating shafts; the material conveying wheels are arranged on the material conveying rotating shaft at intervals; the accelerating belt component is arranged between two material conveying rotating shafts.

More preferably, the cutting mechanism includes: the lifting cylinder is arranged on the support column; the directional guide pillar is arranged on the base; the installation transverse plate is installed on the directional guide pillar in a sliding manner; the high-speed response motor is arranged on the mounting transverse plate; the driving chain assembly is rotatably arranged on the mounting transverse plate and is fixedly connected with the high-speed response motor; the laser cutter is arranged on the driving chain assembly; and the supporting spring is wound between the mounting transverse plate and the directional guide pillar.

More preferably, the dust collector further comprises a dust suction mechanism, wherein the dust suction mechanism comprises: the dust collecting hopper is arranged on the mounting frame; the dust collection box is arranged on the base; the dust collection pipe is arranged between the dust collection hopper and the dust collection box; the air exhaust fan blade is arranged on the mounting frame and is fixedly connected with the driving shaft, and the air exhaust fan blade is fixedly connected and communicated with the dust collection pipe; the push-pull frame is arranged on the dust collection box in a sliding manner; the dust absorption sponge block is arranged on the push-pull frame; and the exhaust pipe is arranged on the dust collection box and communicated with the dust collection box.

More preferably, the apparatus further comprises a circulation mechanism, wherein the circulation mechanism comprises: the return pipe is arranged on the dust collection box and communicated with the dust collection box; the rotary nozzle is arranged on the return pipe and communicated with the return pipe; the rotating fan blade is rotatably arranged on the return pipe; the h-shaped mounting seat is mounted on the base; the number of the supporting rotating shafts is two, and the supporting rotating shafts are rotatably arranged on the h-shaped mounting seat; the bevel gear component is arranged between the two supporting rotating shafts; the second transmission assembly is arranged between one of the supporting rotating shafts and the rotating fan blades; and the third transmission assembly is arranged between one of the supporting rotating shafts and the driving shaft.

More preferably, the dust-proof device further comprises a dust-proof mechanism, wherein the dust-proof mechanism comprises: the fixed shafts are four in number and are rotatably arranged on the installation transverse plate at intervals; the dustproof blocking cloth is arranged on the fixed shaft; the torsion springs are arranged on the mounting transverse plate at intervals, and every two torsion springs are sleeved on the fixed shaft in a group; the guide posts are four in number and are arranged on the installation transverse plate in a sliding manner; the stress plate is arranged between the two guide columns; and the reset spring is arranged between the stress plate and the installation transverse plate and is sleeved on the fixed shaft.

More preferably, the automatic feeding device further comprises a discharging mechanism, wherein the discharging mechanism comprises a discharging roller wheel, and the discharging roller wheel is rotatably arranged on the mounting frame; the material receiving box is arranged on the base; the buffer spring is installed on the material receiving box, and the tail end of the buffer spring is provided with a material receiving plate.

More preferably, the cleaning device further comprises a cleaning mechanism, wherein the cleaning mechanism comprises: the spring guide columns are symmetrically arranged on the mounting rack; the movable sliding block is arranged on the spring guide post in a sliding manner; the cleaning sponge wheel is rotatably arranged between the two movable sliding blocks; the dust removal rubber wheel, dust removal rubber wheel interval rotary type install on the mounting bracket.

The invention has the following advantages:

1. through placing a ceramic tile on the mounting bracket, start servo motor and make the ceramic tile remove left and correspond with laser cutter, simultaneously, start lift cylinder and make laser cutter move down, and start high-speed response motor and laser cutter function, laser cutter just also the back-and-forth movement cuts the ceramic tile, so, can make things convenient for people to cut the ceramic tile, labour saving and time saving, work efficiency is high.

2. Through dust absorption mechanism's effect, can collect the dust that produces during the cutting, so, can collect the dust piece that produces during the cutting, do not influence the surrounding environment.

3. Through the effect of clean mechanism, can clear up the ceramic tile surface, so, can avoid remaining the dust on the ceramic tile surface.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

FIG. 2 is a schematic diagram of a first partial structure according to the present invention.

Fig. 3 is an enlarged schematic view of part a of the present invention.

Fig. 4 is an enlarged view of part B of the present invention.

FIG. 5 is a second partial structure of the present invention.

Fig. 6 is a schematic perspective view of the circulation mechanism of the present invention.

The parts are labeled as follows: 1. a base, 2, a support column, 3, a mounting rack, 4, a driving mechanism, 41, a servo motor, 42, a driving shaft, 43, a driving missing gear, 44, a driven gear, 45, a first transmission component, 46, a material conveying rotating shaft, 47, a material conveying wheel, 48, an accelerating belt component, 5, a cutting mechanism, 51, a lifting cylinder, 52, a mounting transverse plate, 53, a high-speed response motor, 54, a driving chain component, 55, a laser cutter, 56, a directional guide post, 57, a support spring, 6, a dust suction mechanism, 61, a dust hopper, 62, a dust suction pipe, 63, an air suction fan blade, 64, a dust collection box, 65, a push-pull frame, 66, a dust suction sponge block, 67, an exhaust pipe, 7, a circulating mechanism, 71, a return pipe, 72, a rotary spray head, 73, a rotary fan blade, 74, a second transmission component, 75, an h-shaped mounting seat, 76, a bevel gear component, 77 and a third transmission component, 78. supporting rotating shaft, 8, dustproof mechanism, 81, fixing shaft, 82, dustproof baffle cloth, 83, torsion spring, 84, guide post, 85, reset spring, 86, stress plate, 9, blanking mechanism, 91, blanking roller, 92, material receiving box, 93, buffer spring, 94, material receiving plate, 10, cleaning mechanism, 101, cleaning sponge wheel, 102, movable sliding block, 103, spring guide post, 104 and dust removal rubber wheel.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

The utility model provides a laser cutting machine for ceramic tile processing, as shown in fig. 1 and 2, including base 1, support column 2, mounting bracket 3, actuating mechanism 4 and cutting mechanism 5, the rigid coupling has support column 2 in the middle part of the 1 top front side of base, and the rigid coupling has mounting bracket 3 in the middle of the 1 top of base, is equipped with actuating mechanism 4 between base 1 and the mounting bracket 3, is equipped with cutting mechanism 5 on the support column 2.

The driving mechanism 4 comprises a servo motor 41, a driving shaft 42, a driving missing gear 43, a driven gear 44, a first transmission assembly 45, a material conveying rotating shaft 46, a material conveying wheel 47 and an accelerating belt assembly 48, base 1 top right side rear portion rigid coupling has

servo motor

41, 3 right parts rear side of mounting bracket is rotated and is equipped with drive shaft 42, drive shaft 42 rear end and servo motor 41's output shaft fixed connection, drive shaft 42 rear portion circumference rigid coupling has the drive to lack

gear

43, 1 top right side rear portion rotary type of base is equipped with driven gear 44, driven gear 44 lacks the gear 43 cooperation with the drive, the even interval rotary type in 3 upper portions of mounting bracket is equipped with four fortune material pivots 46, be connected with first transmission assembly 45 between driven gear 44 front portion circumference and rightmost fortune material pivot 46 rear portion circumference, fortune material pivot 46 upwards separates the rigid coupling in circumference has fortune material wheel 47, be connected with belt subassembly 48 with higher speed between rightmost fortune material pivot 46 front portion circumference and the leftmost fortune material pivot 46 front portion circumference.

The cutting mechanism 5 comprises a lifting cylinder 51, a mounting transverse plate 52, a high-speed response motor 53, a driving chain assembly 54, a laser cutter 55, a directional guide post 56 and a support spring 57, the lifting cylinder 51 is arranged in the support post 2, the directional guide post 56 is fixedly connected to the middle of the rear side of the top of the base 1, the mounting transverse plate 52 is slidably arranged on the directional guide post 56, the front portion of the mounting transverse plate 52 is fixedly connected with a telescopic rod of the lifting cylinder 51, the high-speed response motor 53 is fixedly connected to the front portion of the left side of the mounting transverse plate 52, the driving chain assembly 54 is rotatably arranged in the mounting transverse plate 52, the driving chain assembly 54 is fixedly connected with an output shaft of the high-speed response motor 53, the support spring 57 is wound between the rear side of the bottom of the mounting transverse.

Firstly, an operator places a tile on the right side of the mounting frame 3, the servo motor 41 is started, the servo motor 41 drives the driving shaft 42 to rotate forwards, the driving shaft 42 rotates forwards to drive the driving lacking gear 43 to rotate forwards, the driving lacking gear 43 rotates forwards to be meshed with the driven gear 44, the driving lacking gear 43 drives the driven gear 44 to rotate backwards, the driven gear 44 rotates backwards to drive the first transmission component 45 to rotate backwards, the first transmission component 45 rotates backwards to drive the rightmost material conveying rotating shaft 46 to rotate backwards, the rightmost material conveying rotating shaft 46 rotates backwards to drive the material conveying wheel 47 to rotate backwards, the material conveying wheel 47 rotates backwards to drive the tile to move leftwards, the tile moves leftwards to correspond to the laser cutter 55, the driving lacking gear 43 continues to rotate forwards to be separated from the driven gear 44, meanwhile, the lifting cylinder 51 is started to stretch out and draw back once, the lifting cylinder 51 drives the mounting transverse plate 52 to move downwards, the supporting spring 57 is compressed, the mounting transverse plate 52 moves downwards to drive the laser cutter 55 to move downwards, and the high-speed response motor 53 and the laser cutter 55 are started to operate, the high-speed response motor 53 drives the driving chain assembly 54 to rotate forward and backward, the driving chain assembly 54 rotates forward and backward to drive the laser cutter 55 to move forward and backward to cut the ceramic tiles, after the ceramic tiles are cut, the lifting cylinder 51 drives the mounting transverse plate 52 to move upward and reset, the laser cutter 55 also moves upward and resets, the driving gear 43 rotates forward continuously to be re-engaged with the driven gear 44, the rightmost material conveying rotating shaft 46 rotates backward to drive the accelerating belt assembly 48 to rotate backward, the accelerating belt assembly 48 rotates backward to drive the leftmost material conveying rotating shaft 46 to rotate backward, the leftmost material conveying rotating shaft 46 rotates backward to drive the material conveying wheel 47 to rotate backward to convey the ceramic tiles out, the cut ceramic tiles are taken up for subsequent treatment, and the operation is repeated, the ceramic tiles can be cut continuously, when all the ceramic tiles are cut, the servo motor 41 is turned off, the driving shaft 42 stops driving the driven gear 44 to rotate reversely through the driving missing gear 43, the material conveying wheel 47 also stops rotating reversely, and the high-speed response motor 53 is turned off, and the laser cutter 55 also stops moving back and forth.

Example 2

On the basis of embodiment 1, as shown in fig. 1, fig. 2, fig. 3, fig. 5 and fig. 6, the dust collecting device further includes a dust collecting mechanism 6, the dust collecting mechanism 6 includes a dust collecting hopper 61, a dust collecting pipe 62, an air suction fan 63, a dust collecting box 64, a push-pull frame 65, a dust suction sponge block 66 and an exhaust pipe 67, the dust collecting hopper 61 is fixedly connected to the top of the mounting frame 3, the dust collecting box 64 is fixedly connected to the right of the top of the base 1, the dust collecting pipe 62 is fixedly connected and communicated between the bottom of the dust collecting hopper 61 and the top of the dust collecting box 64, the air suction fan 63 is rotatably arranged on the right of the top of the mounting frame 3, the air suction fan 63 is fixedly connected to the front of the driving shaft 42, the air suction fan 63 is fixedly connected and communicated with the dust collecting pipe 62, the push-pull frame 65 is slidably arranged on the lower portion of the dust collecting box 64, the dust suction sponge block 66 is fixedly connected to the inner side of the push-pull frame 65, and the exhaust pipe 67 is fixedly connected and communicated to the lower side of the front of the dust collecting box 64.

The dust collection box is characterized by further comprising a circulating mechanism 7, the circulating mechanism 7 comprises a return pipe 71, a rotary spray nozzle 72, rotary fan blades 73, a second transmission assembly 74, an h-shaped mounting seat 75, a bevel gear assembly 76, a third transmission assembly 77 and a supporting rotating shaft 78, the return pipe 71 is arranged at the rear part of the dust collection box 64 and communicated with the return pipe, the rotary fan blades 73 are arranged at the rear part of the return pipe 71 in a rotating mode, the rotary spray nozzle 72 is arranged at the front end of the return pipe 71 in a rotating mode and communicated with the return pipe, the h-shaped mounting seat 75 is fixedly connected to the rear part of the right side of the top of the base 1, two supporting rotating shafts 78 are arranged on the h-shaped mounting seat 75 in a rotating mode, the bevel gear assembly 76 is connected between the inner side circumference of the supporting rotating shaft 78, the second transmission assembly 74 is connected between the lower portion circumference of the lower supporting rotating shaft 78 and the circumference of the lower portion of the rotary fan blades 73, and the third transmission assembly 77 is connected between the middle circumference of the upper supporting rotating shaft 78 and the circumference of the rear portion of the driving shaft 42.

Still including dustproof mechanism 8, dustproof mechanism 8 is including fixed axle 81, dustproof fender cloth 82, torsion spring 83, guide post 84, reset spring 85 and atress board 86, lower part interval rotary type is equipped with four fixed axles 81 in the installation diaphragm 52, fixed axle 81 upwards rigid coupling in the circumference has dustproof fender cloth 82, lower part interval is equipped with torsion spring 83 in the installation diaphragm 52, per two torsion spring 83 are a set of cover on fixed axle 81, the both sides lower part bilateral symmetry slidingtype is equipped with guide post 84 around the installation diaphragm 52, the rigid coupling has atress board 86 between two guide post 84 bottoms, atress board 86 top and dustproof fender cloth 82 bottom fixed connection, evenly interval rigid coupling has four reset spring 85 between atress board 86 top and the installation diaphragm 52 bottom, reset spring 85 overlaps on fixed axle 81.

When the servo motor 41 is started, dust debris generated when the laser cutter 55 cuts tiles falls into the dust collection hopper 61, meanwhile, the driving shaft 42 rotates positively to drive the air exhaust fan blade 63 to rotate positively, the air exhaust fan blade 63 rotates positively to suck the dust debris into the dust collection box 64 through the dust suction pipe 62, the dust debris falls onto the dust absorption sponge block 66 to be filtered, the exhaust pipe 67 exhausts gas, after all the tiles are cut, the driving shaft 42 stops driving the air exhaust fan blade 63 to rotate positively, the push-pull frame 65 is taken out to perform subsequent treatment on the dust absorption sponge block 66, and after the dust absorption sponge block 66 is treated, the push-pull frame 65 is put back onto the dust collection box 64. Therefore, dust and debris generated during cutting can be collected without influencing the surrounding environment.

Initially, a proper amount of clean water is filled in the dust collection box 64, when the servo motor 41 is started, the driving shaft 42 rotates forward to drive the third transmission assembly 77 to rotate forward, the third transmission assembly 77 rotates forward to drive the upper supporting rotating shaft 78 to rotate forward, the upper supporting rotating shaft 78 rotates forward to drive the lower supporting rotating shaft 78 to rotate forward through the bevel gear assembly 76, the lower supporting rotating shaft 78 rotates forward to drive the second transmission assembly 74 to rotate forward, the second transmission assembly 74 rotates forward to drive the rotating fan blades 73 to rotate forward, the rotating fan blades 73 rotate forward to send the clean water to the rotating nozzle 72 through the return pipe 71, and then the rotating nozzle 72 sprays the clean water on the dust collection sponge block 66, after all the tiles are cut, the driving shaft 42 stops driving the upper supporting rotating shaft 78 to rotate forward through the third transmission assembly 77, and the rotating fan blades 73 also stop rotating forward, so that the dust collection sponge block 66 can better adsorb dust debris.

When cutting the ceramic tile, installation diaphragm 52 moves down and drives guide post 84 downstream, guide post 84 moves down and drives atress board 86 downstream, when atress board 86 moves down and mounting bracket 3 contacts, because of reset spring 85's effect, atress board 86 drives dustproof fender cloth 82 all the time and opens, torsion spring 83 plays the cushioning effect, after the ceramic tile cutting is accomplished, installation diaphragm 52 drives guide post 84 rebound and resets, dustproof fender cloth 82 also upwards moves and resets. Thus, the cutting dust can be prevented from being spurted.

Example 3

On the basis of embodiment 1 and embodiment 2, as shown in fig. 1, fig. 2 and fig. 4, the blanking device 9 further includes a blanking mechanism 9, the blanking mechanism 9 includes a blanking roller 91, a material receiving box 92, a buffer spring 93 and a material receiving plate 94, the blanking roller 91 is rotatably disposed at the left portion of the mounting frame 3, the material receiving box 92 is fixedly connected to the front portion of the left side of the top of the base 1, the buffer spring 93 is fixedly connected to the bottom of the material receiving box 92, and the material receiving plate 94 is fixedly connected to the tail end of the buffer spring 93.

Still including clean mechanism 10, clean mechanism 10 is including clean sponge wheel 101, activity slider 102, spring guide post 103 and dust removal rubber wheel 104, and both sides all the rigid coupling has spring guide post 103 around the 3 left parts of mounting bracket, and spring guide post 103 upper portion slidingtype is equipped with movable slider 102, and the rotary type is equipped with clean sponge wheel 101 between the movable slider 102 of both sides around, and the interval rotary type is equipped with four dust removal rubber wheels 104 on the mounting bracket 3.

After the ceramic tile cutting is accomplished, fortune material wheel 47 drives the ceramic tile and removes left and drop to connect workbin 92 in, unloading gyro wheel 91 plays the guide effect, and connects flitch 94 to play the cushioning effect to the ceramic tile through buffer spring 93, is equipped with appropriate amount of ceramic tile in connecing workbin 92, takes up the ceramic tile and carries out subsequent processing, so, can make things convenient for people to collect the ceramic tile of cutting the completion.

After the ceramic tile cutting is accomplished, fortune material wheel 47 drives the ceramic tile and removes left, and dust removal rubber wheel 104 plays the guide effect, and the ceramic tile removes left and contacts with clean sponge wheel 101, because of spring guide post 103's effect, clean sponge wheel 101 all the time with the ceramic tile contact to its surface clearance dust, so, can avoid the ceramic tile to remain the dust on the surface.

While the disclosure has been shown and described with reference to certain exemplary embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the disclosure as defined by the appended claims and their equivalents. Accordingly, the scope of the present disclosure should not be limited to the above-described embodiments, but should be defined not only by the appended claims, but also by equivalents thereof.

Claims

1. The utility model provides a laser cutting machine is used in ceramic tile processing which characterized by, including:

the device comprises a base (1) and a support column (2), wherein the support column (2) is installed on one side of the base (1);

the mounting rack (3), the mounting rack (3) is installed on the base (1);

the driving mechanism (4) is arranged between the base (1) and the mounting rack (3) and is used for providing power;

and the cutting mechanism (5) is arranged on the supporting column (2) and is used for cutting the ceramic tile.

2. A laser cutting machine for ceramic tile working, according to claim 1, characterized in that the driving mechanism (4) comprises:

the servo motor (41), the servo motor (41) is installed on the base (1);

the driving shaft (42) is rotatably arranged on the mounting frame (3) and is fixedly connected with an output shaft of the servo motor (41);

a drive missing gear (43), wherein the drive missing gear (43) is arranged on the drive shaft (42);

the driven gear (44) is rotatably arranged on the base (1) and is matched with the driving missing gear (43);

the material conveying rotating shafts (46), the number of which is four, are arranged on the mounting frame (3) at intervals;

the first transmission assembly (45), the first transmission assembly (45) is installed between the driven gear (44) and one of the material conveying rotating shafts (46);

the conveying wheels (47), the conveying wheels (47) are installed on the conveying rotating shaft (46) at intervals;

and the accelerating belt assembly (48), and the accelerating belt assembly (48) is installed between two material conveying rotating shafts (46).

3. A laser cutting machine for ceramic tile working, according to claim 2, characterized in that the cutting means (5) comprise:

the lifting cylinder (51), the lifting cylinder (51) is installed on the supporting column (2);

the directional guide post (56), the directional guide post (56) is installed on the base (1);

the mounting transverse plate (52), the mounting transverse plate (52) is slidably mounted on the directional guide post (56);

the high-speed response motor (53), the high-speed response motor (53) is installed on the installation transverse plate (52);

the driving chain assembly (54), the driving chain assembly (54) is rotatably mounted on the mounting transverse plate (52), and is fixedly connected with the high-speed response motor (53);

the laser cutter (55), the laser cutter (55) is installed on the drive chain assembly (54);

and the supporting spring (57), the supporting spring (57) is wound between the mounting transverse plate (52) and the orientation guide post (56).

4. A laser cutting machine for ceramic tile working according to claim 3, characterized by further comprising a dust suction mechanism (6), the dust suction mechanism (6) comprising:

the dust collecting hopper (61), the dust collecting hopper (61) is installed on the mounting rack (3);

the dust collection box (64), the dust collection box (64) is installed on the base (1);

a dust suction pipe (62), wherein the dust suction pipe (62) is arranged between the dust hopper (61) and the dust box (64);

the air exhaust fan blade (63) is arranged on the mounting frame (3) and fixedly connected with the driving shaft (42), and the air exhaust fan blade (63) is fixedly connected and communicated with the dust suction pipe (62);

the push-pull frame (65), the push-pull frame (65) is installed on the dust collection box (64) in a sliding way;

the dust absorption sponge block (66), the dust absorption sponge block (66) is arranged on the push-pull frame (65);

an exhaust pipe (67), the exhaust pipe (67) is installed on the dust collection box (64) and communicated with the dust collection box.

5. A laser cutting machine for ceramic tile working, according to claim 4, characterized by further comprising a circulation mechanism (7), the circulation mechanism (7) comprising:

the return pipe (71), the return pipe (71) is installed on the dust collection box (64) and communicated with the dust collection box;

the rotary spray head (72) is arranged on the return pipe (71) and communicated with the return pipe (72);

the rotary fan blade (73), the rotary fan blade (73) is installed on the return pipe (71) in a rotary mode;

the h-shaped mounting seat (75), the h-shaped mounting seat (75) is arranged on the base (1);

the number of the supporting rotating shafts (78) is two, and the supporting rotating shafts (78) are rotatably arranged on the h-shaped mounting seat (75);

the bevel gear assembly (76), the bevel gear assembly (76) is installed between two supporting rotating shafts (78);

the second transmission assembly (74), the second transmission assembly (74) is installed between one of the supporting rotating shafts (78) and the rotating fan blades (73);

and the third transmission assembly (77), and the third transmission assembly (77) is installed between one of the supporting rotating shafts (78) and the driving shaft (42).

6. A laser cutting machine for ceramic tile working according to claim 5, characterized in that it further comprises a dust-proof mechanism (8), the dust-proof mechanism (8) comprising:

the fixed shafts (81), the number of the fixed shafts (81) is four, and the fixed shafts are rotatably arranged on the installation transverse plate (52) at intervals;

the dustproof cloth baffle (82), the dustproof cloth baffle (82) is arranged on the fixed shaft (81);

the torsion springs (83), the torsion springs (83) are installed on the installation transverse plate (52) at intervals, and every two torsion springs (83) are sleeved on the fixed shaft (81) in a group;

four guide posts (84), which are slidably arranged on the installation transverse plate (52);

the stress plate (86), the stress plate (86) is installed between the two guide columns (84);

and the return spring (85), the return spring (85) is arranged between the stress plate (86) and the mounting transverse plate (52), and the return spring is sleeved on the fixed shaft (81).

7. The laser cutting machine for ceramic tile processing according to claim 6, further comprising a blanking mechanism (9), wherein the blanking mechanism (9) comprises:

the blanking roller (91), the blanking roller (91) is rotatably arranged on the mounting frame (3);

the material receiving box (92), the material receiving box (92) is arranged on the base (1);

buffer spring (93), buffer spring (93) are installed on connecing workbin (92), and buffer spring (93) tail end is installed and is connect flitch (94).

8. A laser cutting machine for ceramic tile working according to claim 7, further comprising a cleaning mechanism (10), the cleaning mechanism (10) comprising:

the spring guide posts (103), the spring guide posts (103) are symmetrically arranged on the mounting rack (3);

the movable sliding block (102), the movable sliding block (102) is installed on the spring guide post (103) in a sliding manner;

the cleaning sponge wheel (101), the cleaning sponge wheel (101) is rotatably arranged between the two movable sliding blocks (102);

the dust removal rubber wheel (104), dust removal rubber wheel (104) interval rotary type is installed on mounting bracket (3).