CN118123275A - Adjustable laser cutting equipment - Google Patents

Abstract

The invention relates to the technical field of cutting and blanking, and discloses adjustable laser cutting equipment which comprises a cutting platform, a cutting plate arranged at the top of the cutting platform, a movable frame arranged at the top of the cutting platform, a movable table arranged on the movable frame, a mounting plate arranged at the bottom of the movable table, a cutting head arranged at the bottom of the mounting plate and a blanking part arranged at the bottom of the mounting plate, wherein the cutting plate is arranged on the upper surface of the cutting platform; the blanking component comprises a blanking unit arranged at the bottom of the mounting plate; the blanking unit comprises an ejecting assembly arranged at the bottom of the mounting plate, a blanking assembly arranged on the ejecting assembly in an annular array, a control assembly arranged on the ejecting assembly, and two unidirectional assemblies arranged on the control assembly in an annular array. Through the unloading unit that sets up, need not artifical manual go press go the material, realized quick go the material, swiftly convenient has avoided artifical manual press the fish tail etc. that the unloading in-process probably can lead to the fact the staff.

Description

Adjustable laser cutting equipment

Technical Field

The invention relates to the technical field of cutting and blanking, in particular to adjustable laser cutting equipment.

Background

The adjustable laser cutting device is an industrial cutting device with flexibility and high efficiency, and can be used for cutting various materials, such as metal, plastic, cellulose and the like. The device has the advantages of being adaptable to different materials and sizes, and being capable of precisely cutting out the required shape and size, thereby improving the production efficiency and reducing the waste.

The patent with the publication number of CN117444421A discloses a plate laser cutting device and a cutting method thereof, after cutting a plate, the mounting box can move forwards under the meshing transmission action of the transmission gear and the rack, and the supporting box can move forwards through the sliding component, so that the supporting box can be moved out of the interval range of the base, and the cut plate can be moved out.

However, the following drawbacks remain in the prior art:

It does not set up the device of automatic unloading after the cutting, in the current device, often only one laser cutting head cuts panel, cuts back to some metal sheets and timber, can appear burr and dust etc. at the route edge of cutting for after the cutting, the cutting material is blocked in the cutting board, makes the cutting material can not automatic whereabouts, needs manual pressure cutting material of going, just can make the material fall off, if metal sheets and timber are thicker, this kind of condition is more obvious, so can reduce the efficiency of cutting and unloading. When the shape of cutting is irregular and has the edges and corners, the workman removes the hand again and presses the blanking this moment, and the easy fish tail finger, the security is lower.

After cutting, a cleaning device aiming at burrs and dust at the edge of a cutting path and a splash-proof device for a laser cutting head are not provided, so that when a metal plate is cut, fire light and dust are splashed, the dust is diffused into the air, the environmental cleanliness of a factory is reduced, and the pollution is large; and there is no guard for the cutting head.

Disclosure of Invention

In view of the problems in the prior art that when cutting is completed, an automatic blanking device is not arranged, manual pressing blanking is needed, and the blanking safety coefficient and the efficiency are low, so that the adjustable laser cutting equipment is provided.

The aim is that: the blanking efficiency after cutting is improved, automatic blanking is realized, manual pressing is not needed, the labor intensity of workers is reduced, and the blanking safety is improved.

The technical scheme of the invention is that the adjustable laser cutting equipment comprises a cutting platform, a cutting plate arranged at the top of the cutting platform, a movable frame arranged at the top of the cutting platform, a movable table arranged on the movable frame, a mounting plate arranged at the bottom of the movable table, a cutting head arranged at the bottom of the mounting plate and a blanking part arranged at the bottom of the mounting plate;

The blanking component comprises a blanking unit arranged at the bottom of the mounting plate and a splash-proof unit arranged at the bottom of the blanking unit; the blanking unit comprises an ejecting assembly arranged at the bottom of the mounting plate, a blanking assembly arranged on the ejecting assembly in an annular array, a control assembly arranged on the ejecting assembly, and two unidirectional assemblies arranged on the control assembly in an annular array;

the ejecting assembly comprises an ejecting groove formed in the bottom of the mounting plate, an ejecting piece arranged in the ejecting groove, an ejecting plate arranged at the bottom of the ejecting piece and an ejecting column arranged at the bottom of the ejecting plate in an annular array, wherein the ejecting piece is sleeved on the cutting head.

Further, the unloading subassembly is including setting up in the unloading piece in the pop-up post, sets up in the unloading post of unloading piece bottom to and set up in the unloading head of unloading post bottom, and unloading post and the inside sliding connection of pop-up post.

Further, the control assembly comprises a control plate which is arranged around the ejecting plate in an annular array, an extrusion inclined plane arranged on one side of the control plate, a sliding surface arranged on the other side of the control plate, and a control cylinder arranged at the bottom of the mounting plate, wherein the control cylinder is sleeved on the ejecting piece.

Further, the control cylinder is provided with an extrusion hole and a rotation hole in an annular array, the extrusion hole and the rotation Kong Yici are sequentially connected end to end, the bottom of the control cylinder is symmetrically provided with a control column, and the control column is connected to the bottom of the extrusion hole in a sliding mode.

Further, the unidirectional component comprises a rotating groove arranged at the bottom of the control cylinder, a butt surface arranged on one side of the rotating groove, a rotating rod arranged on the rotating groove, a unidirectional block arranged on the rotating rod, a butt end arranged on one side of the unidirectional block, one side of the butt end butt against the butt surface, the orientation of the unidirectional block is consistent with the orientation of the extrusion hole, and a torsion spring I arranged between the unidirectional block and the rotating rod.

Further, the splash-proof unit comprises a splash-proof component sleeved on the control cylinder and a cleaning component arranged at the bottom of the splash-proof component in an annular array;

The splash-proof assembly comprises a restoring piece sleeved on the control cylinder, the top of the restoring piece is fixedly connected with the bottom of the mounting plate, and a splash-proof column arranged at the bottom of the restoring piece, the splash-proof column is in sliding connection with the control cylinder, and the splash-proof assembly is provided with an annular array of observation holes arranged on the splash-proof column.

Further, the cleaning assembly comprises a cleaning groove formed in the bottom of the splash-proof column, a fixing column arranged in the cleaning groove, a cleaning plate arranged on the fixing column, a torsion spring II arranged between the fixing column and the cleaning plate, a cleaning brush arranged at the bottom of the cleaning plate, and an extrusion surface arranged on one side of the bottom of the cleaning plate.

Further, the cleaning plate is arc-shaped, and the bottom of the extrusion surface is lower than the bottom of the cleaning brush.

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

1. When the cutting head is cut well and starts to move upwards, under the reset action of the ejector, the ejector plate drives the ejector column to move towards the bottom of the cutting head, when the ejector column moves to a certain distance, the ejector assembly is not limited by the control assembly, the ejector is reset suddenly, the ejector column moves downwards suddenly, the blanking assembly impacts the cut part of the cutting plate, and the cutting material can automatically drop.

2. Through the unloading unit that sets up, need not artifical manual go press go the material, realized quick go the material, swiftly convenient has avoided artifical manual press the fish tail etc. that the unloading in-process probably can lead to the fact the staff, and the unloading subassembly that annular array set up can adapt to the cutting of different shapes, and the setting of unloading piece has avoided the unloading head when striking cutting the material, and the unloading head of other parts causes the deformation of cutting board even damage to the cutting board.

3. When the control post rotates in the rotation hole, the splash-proof post can drive the cleaning plate to rotate, so that burrs and dust on the edge of a cutting path of the cutting plate can be cleaned by rotating through the cleaning brush on the cleaning plate, the cleanliness after cutting is improved, and the next cutting of the cutting head is also facilitated.

Drawings

FIG. 1 is a schematic perspective view of the whole cutting apparatus of the present invention;

FIG. 2 is a schematic diagram of the overall structure of the present invention;

FIG. 3 is a schematic diagram of the overall internal structure of the present invention;

FIG. 4 is a schematic view of the overall structure of the ejector assembly of the present invention;

FIG. 5 is a schematic view of the overall structure of the blanking assembly of the present invention;

FIG. 6 is a schematic diagram of the overall structure of the control assembly of the present invention;

FIG. 7 is a schematic view of another partial perspective view of the control assembly of the present invention;

FIG. 8 is a schematic view of the unidirectional assembly of the present invention;

FIG. 9 is a schematic view of a partially enlarged construction of the unidirectional assembly of the present invention;

FIG. 10 is a schematic view of the overall construction of the splash guard assembly of the present invention;

FIG. 11 is a schematic view of the overall structure of the cleaning assembly of the present invention;

FIG. 12 is a schematic view of the overall structure of the cleaning plate of the present invention.

In the figure:

Cutting the plate; 11. a moving rack; 12. a mobile station; 13. a mounting plate; 14. a cutting head; 2. an ejector assembly; 21. an ejecting slot; 22. an ejector; 23. an ejector plate; 24. a pop-up column; 3.a blanking assembly; 31. a blanking member; 32. discharging columns; 33. blanking heads; 4. a control assembly; 41. a control board; 42. extruding the inclined plane; 43.a sliding surface; 44. a control cylinder; 45. extruding the hole; 46. a rotation hole; 47. a control column; 5. a unidirectional component; 51. a rotating groove; 52. an abutment surface; 53. a rotating lever; 54. a unidirectional block; 55. an abutment end; 6. a splash guard assembly; 61. restoring the piece; 62. a splash-proof column; 63. an observation hole; 7. cleaning the assembly; 71. cleaning the groove; 72. fixing the column; 73. a cleaning plate; 74. cleaning brushes; 75. and (5) extruding the surface.

Detailed Description

In order that the above-recited objects, features and advantages of the present invention will become more readily apparent, a more particular description of the invention will be rendered by reference to specific embodiments thereof which are illustrated in the appended drawings.

Embodiment 1, referring to fig. 1 to 4, for a first embodiment of the present invention, there is provided a tunable laser cutting apparatus including a cutting deck, a cutting board 1 mounted on top of the cutting deck, a moving frame 11 fixedly mounted on top of the cutting deck, a moving table 12 fixedly mounted on the moving frame 11, a mounting plate 13 mounted on bottom of the moving table 12, a cutting head 14 mounted on bottom of the mounting plate 13, and a blanking member mounted on bottom of the mounting plate 13; the blanking part comprises a blanking unit arranged at the bottom of the mounting plate 13 and a splash-proof unit arranged at the bottom of the blanking unit, wherein the splash-proof unit can be a dust screen arranged at the bottom of the cutting head 14; the blanking unit comprises an ejecting assembly 2 arranged at the bottom of a mounting plate 13, a blanking assembly 3 arranged on the ejecting assembly 2 in an annular array, a control assembly 4 arranged on the ejecting assembly 2, and two unidirectional assemblies 5 arranged on the control assembly 4 in an annular array; the ejecting assembly 2 comprises an ejecting groove 21 formed in the bottom of the mounting plate 13, an ejecting member 22 fixedly connected in the ejecting groove 21, an ejecting plate 23 fixedly connected to the bottom of the ejecting member 22, and ejecting columns 24 fixedly connected to the bottom of the ejecting plate 23 in an annular array, wherein the ejecting member 22 is sleeved on the cutting head 14.

Specifically, during operation, firstly fix cutting board 1 on cutting platform to control cutting equipment and make cutting head 14 remove the top of cutting board 1, and remove the cutting to cutting board 1 downwards, at the in-process that descends, splash guard unit can touch earlier and extrude cutting board 1, when splash guard unit is extrudeed, splash guard unit can be extruded, make splash guard unit can drive unloading unit upwards simultaneously and shift up when being extruded, make unloading subassembly 3 compress pop out subassembly 2 through control assembly 4, make unloading subassembly 3 shift up to the top of the bottom of cutting head 14, the cutting head 14 of being convenient for removes the cutting of cutting board 1, avoid the bottom extrusion of unloading subassembly 3 to cut board 1, thereby influence the cutting of cutting board 1.

When the ejecting assembly 2 is pushed up by the control assembly 4, the ejecting plate 23 drives the ejecting column 24 to move upwards together, and the ejecting plate 23 presses the ejecting piece 22, so that the ejecting piece 22 is compressed and contracts inwards the ejecting groove 21, and the ejecting assembly 2 moves to above the bottom of the cutting head 14, thereby avoiding affecting the normal cutting operation of the cutting head 14, and the ejecting piece 22 can be a spring; when the cutting head 14 is cut and starts to move upwards, under the reset action of the ejector 22, the ejector plate 23 drives the ejector column 24 to move towards the bottom of the cutting head 14, after the ejector assembly 2 moves to a certain distance, the ejector column 24 moves downwards suddenly, the blanking assembly 3 impacts the cut part of the cutting plate 1, and the cut material can automatically drop.

Referring to fig. 1 to 5, the discharging assembly 3 includes a discharging member 31 fixedly connected to the inside of the ejector column 24, a discharging column 32 fixedly connected to the bottom of the discharging member 31, and a discharging head 33 fixedly connected to the bottom of the discharging column 32, and the discharging column 32 is slidably connected to the inside of the ejector column 24.

Specifically, when the ejector 22 suddenly resets, the ejector column 24 suddenly moves down, so that the ejector column 24 drives the blanking column 32 and the blanking head 33 to strike the cut part on the cutting board 1, in the striking process, the blanking head 33 presses the blanking column 32, the blanking head 33 is made of rubber, the blanking column 32 presses the blanking member 31 in the ejector column 24, the blanking member 31 can be a spring, the blanking head 33 can strike the cut material after cutting, manual pressing is not needed, quick and convenient material removal is realized, scratches and the like possibly caused to hands in the manual pressing process are avoided, the annular array-arranged blanking assembly 3 can adapt to cutting of different shapes, the setting of the blanking member 31 avoids that the blanking head 33 is hard striking of other parts on the cutting board 1 when striking the cut material, and even the cutting board 1 is damaged.

Referring to fig. 1-7, the control assembly 4 includes a control board 41 fixedly connected around the ejector plate 23 in an annular array, an extrusion inclined plane 42 formed on one side of the control board 41, a sliding surface 43 formed on the other side of the control board 41, and a control cylinder 44 fixedly connected to the bottom of the mounting plate 13, wherein the control cylinder 44 is sleeved on the ejector 22, the control cylinder 44 is provided with an extrusion hole 45 and a rotation hole 46 in an annular array, the extrusion hole 45 and the rotation hole 46 are sequentially connected end to end, control columns 47 are symmetrically arranged at the bottom of the control cylinder 44, and the control columns 47 are slidably connected to the bottom of the extrusion hole 45.

Specifically, in the process of downward moving and cutting of the cutting head 14, the splash-proof unit is extruded, and the control assembly 4 synchronously drives the blanking unit to move upwards, so that the control column 47 moves upwards in the extrusion hole 45, and in the moving process, one end of the control column 47 extrudes the bottom of the control plate 41, pushes the control plate 41 to move upwards, and the control plate 41 moves upwards to drive the ejecting plate 23 to move upwards. When the control column 47 moves to the top of the extrusion groove, the bottom of the blanking head 33 is far away from the bottom of the cutting head 14, at this time, the cutting head 14 starts to move and cut on the cutting plate 1, after the cutting is finished, the cutting head 14 moves upwards, the control column 47 moves along the rotating hole 46 under the action of the unidirectional component 5, when the control column 47 rotates along the rotating hole 46, the control column 47 is slidingly connected along the bottom of the control plate 41, and when the control column 47 rotates to the middle of the rotating hole 46, the control plate 41 is separated from the abutting limit of the control column 47 at this time, so that the ejector 22 is reset, and the plate 23 is ejected by the quick-release type Ma Danchu, so that the blanking head 33 impacts and discharges the cut material. At this time, the cutting head 14 continues to move upwards, the control column 47 continues to rotate to the bottom along the rotation hole 46, at this time, the control column 47 rotates to the bottom of the other control board 41, so that the control board 41 is synchronously driven upwards when cutting is performed next time, the sliding surface 43 is arranged so that the control board 41 can slide out quickly, and the control column 47 can move to the bottom of the other control board 41 again when the extrusion inclined surface 42 is arranged so that the control column 47 moves to the tail end of the extrusion hole 45, thereby realizing automatic circulation blanking.

Embodiment 2, referring to fig. 1-9, is a second embodiment of the present invention, which differs from the first embodiment in that: the unidirectional assembly 5 includes a rotary groove 51 formed at the bottom of the control cylinder 44, an abutment surface 52 formed at one side of the rotary groove 51, a rotary rod 53 fixedly connected to the rotary groove 51, a unidirectional block 54 rotatably connected to the rotary rod 53, an abutment end 55 mounted at one side of the unidirectional block 54, and one side of the abutment end 55 abuts against the abutment surface 52, the orientation of the unidirectional block 54 is identical to the orientation of the extrusion hole 45, and a torsion spring I mounted between the unidirectional block 54 and the rotary rod 53.

Specifically, when the control post 47 moves from the extrusion hole 45 to the bottom of the rotation hole 46, the control post 47 extrudes and pushes the unidirectional block 54, so that the unidirectional block 54 rotates, the control post 47 is convenient to pass through, after the control post 47 passes through, the unidirectional block 54 resets under the resetting action of the first torsion spring, the first torsion spring is not shown in the figure, in the initial state, under the action of the torsion force of the first torsion spring, the abutting end 55 of the unidirectional block 54 abuts against the abutting surface 52, so that the unidirectional block 54 can only rotate in one direction, and the control post 47 can move upwards along the extrusion hole 45, and the unidirectional assembly 5 arranged on one side of the rotation hole 46 has the same action and is not repeated. The rest of the structure is the same as that of embodiment 1.

Embodiment 3, referring to fig. 1-10, is a third embodiment of the present invention, which differs from the second embodiment in that: the splash-proof unit comprises a splash-proof component 6 sleeved on a control cylinder 44 and a cleaning component 7 arranged at the bottom of the splash-proof component 6 in an annular array; the splash guard assembly 6 comprises a restoring member 61 sleeved on the control cylinder 44, the top of the restoring member 61 is fixedly connected with the bottom of the mounting plate 13, a splash guard column 62 fixedly connected to the bottom of the restoring member 61, the splash guard column 62 is slidably connected with the control cylinder 44, the inner side of the top of the splash guard column 62 is fixedly connected with the control cylinder 47, and observation holes 63 formed in the splash guard column 62 in an annular array.

Specifically, when the cutting head 14 descends to be close to the surface of the cutting plate 1 to carry out movable cutting, the splash-proof assembly 6 is firstly extruded by the cutting plate 1, during extrusion, the splash-proof column 62 upwards compresses the restoring piece 61, the restoring piece 61 can be a spring, the cutting head 14 descends to the bottom of the splash-proof column 62, the cutting condition can be seen through the observation hole 63, the splash-proof column 62 covers the cutting head 14 to cut, so that splashing generated during cutting of a metal plate can be enclosed and blocked, the influence of large-scale diffusion of generated splashing on the environment and air is avoided, the cutting head 14 can be protected, and the injury to workers caused by splashing and dust generated during cutting of the cutting head 14 is avoided, so that the safety during cutting is improved.

Referring to fig. 1-12, the cleaning assembly 7 includes a cleaning groove 71 formed at the bottom of the splash-proof column 62, a fixing column 72 fixedly connected in the cleaning groove 71, a cleaning plate 73 rotatably connected to the fixing column 72, a torsion spring two not shown in the drawing and mounted between the fixing column 72 and the cleaning plate 73, a cleaning brush 74 fixedly connected to the bottom of the cleaning plate 73, and a pressing surface 75 mounted on one side of the bottom of the cleaning plate 73, wherein the cleaning plate 73 is arc-shaped, and the bottom of the pressing surface 75 is lower than the bottom of the cleaning brush 74.

Specifically, when the splash-proof column 62 is extruded, the cleaning plate 73 at the bottom is extruded, and rotates along the fixed column 72 under the action of the torsion spring II, so that the cleaning plate 73 can shrink into the cleaning groove 71 during extrusion, and the bottom of the extrusion surface 75 is lower than the bottom of the cleaning brush 74, so that the cleaning brush 74 can be extruded for a certain distance only, and then the extrusion surface 75 can be extruded, thereby avoiding deformation and damage caused by excessive extrusion of the cleaning brush 74; and when cutting head 14 cuts and accomplishes the back, cutting head 14 moves up the in-process, and control post 47 rotates along rotating hole 46 for control post 47 can drive splash guard post 62 rotation, makes the cleaning brush 74 of its bottom rotate, makes at cutting head 14 moves up the in-process, and cleaning brush 74 can rotate the clearance at cutting board 1 cutting back edge portion, rotates the clearance with dust and the burr that some cuts produced, avoids influencing the cutting of next time. The rest of the structure is the same as that of embodiment 2.

Working principle: when the cutting head 14 cuts, the cutting head 14 descends to fit the surface of the cutting plate 1, in the descending process, the splash-proof column 62 is extruded firstly, the splash-proof column 62 extrudes the recovery piece 61, the recovery piece 61 is compressed, in the process, the control column 47 moves upwards in the extrusion hole 45 and synchronously drives the control plate 41 to move upwards, the control plate 41 drives the ejection plate 23 and the ejection column 24 to synchronously move upwards, when the control column 47 moves upwards to the top of the extrusion hole 45, the blanking head 33 moves upwards to the bottom of the cutting head 14 by a certain distance, at this time, the cutting head 14 moves to cut the cutting plate 1, when the cutting head 14 cuts, the recovery piece 61 and the ejection piece start to reset from the last position of the cutting path, the control column 47 starts to rotate along the rotation hole 46, and the ejection plate 23 and the splash-proof column 62 synchronously move downwards in the distance from one end of the control column 47 to the middle of the rotation hole 46. Along with the rotation of the control column 47 along the rotation hole 46, the control column 47 gradually rotates to the tail end of the control panel 41, and at this time, the control panel 41 is not limited by the abutting of the control column 47, so that the ejector plate 23 ejects downwards vertically under the reset action of the ejector 22, the blanking head 33 impacts the cutting material, and the cutting material can be automatically blanked in the process of upward movement and reset of the cutting head 14; and when the control column 47 rotates in the rotation hole 46, the splash-proof column 62 drives the cleaning plate 73 to rotate, so that the cleaning brush 74 on the cleaning plate 73 can rotate and clean burrs and dust on the edge of the cutting path of the cutting plate 1, the cleanliness after cutting is improved, and the next cutting of the cutting head 14 is facilitated.

It should be noted that the above embodiments are only for illustrating the technical solution of the present invention and not for limiting the same, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the technical solution of the present invention may be modified or substituted without departing from the spirit and scope of the technical solution of the present invention, which is intended to be covered in the scope of the claims of the present invention.

Claims (8)

1. The adjustable laser cutting equipment comprises a cutting platform, a cutting plate (1) arranged at the top of the cutting platform, a movable frame (11) arranged at the top of the cutting platform, a movable table (12) arranged on the movable frame (11), a mounting plate (13) arranged at the bottom of the movable table (12), and a cutting head (14) arranged at the bottom of the mounting plate (13), and is characterized by further comprising a blanking component arranged at the bottom of the mounting plate (13);

The blanking component comprises a blanking unit arranged at the bottom of the mounting plate (13) and a splash-proof unit arranged at the bottom of the blanking unit; the blanking unit comprises an ejecting assembly (2) arranged at the bottom of the mounting plate (13), a blanking assembly (3) arranged on the ejecting assembly (2) in a ring-shaped array, a control assembly (4) arranged on the ejecting assembly (2), and two unidirectional assemblies (5) arranged on the control assembly (4) in a ring-shaped array;

The ejecting assembly (2) comprises an ejecting groove (21) formed in the bottom of the mounting plate (13), an ejecting piece (22) arranged in the ejecting groove (21), an ejecting plate (23) arranged at the bottom of the ejecting piece (22) and an ejecting column (24) arranged at the bottom of the ejecting plate (23) in an annular array, wherein the ejecting piece (22) is sleeved on the cutting head (14).

2. The tunable laser cutting device according to claim 1, wherein: the blanking assembly (3) comprises a blanking piece (31) arranged in the ejecting column (24), a blanking column (32) arranged at the bottom of the blanking piece (31), and a blanking head (33) arranged at the bottom of the blanking column (32), and the blanking column (32) is in sliding connection with the inside of the ejecting column (24).

3. The tunable laser cutting device according to claim 2, wherein: the control assembly (4) comprises a control plate (41) which is arranged around the ejection plate (23) in an annular array, an extrusion inclined surface (42) which is arranged on one side of the control plate (41), a sliding surface (43) which is arranged on the other side of the control plate (41), and a control cylinder (44) which is arranged at the bottom of the mounting plate (13), wherein the control cylinder (44) is sleeved on the ejection piece (22).

4. A tunable laser cutting device according to claim 3, wherein: the control cylinder (44) is provided with an extrusion hole (45) and a rotation hole (46) in an annular array, the extrusion hole (45) and the rotation hole (46) are sequentially connected end to end, the bottom of the control cylinder (44) is symmetrically provided with a control column (47), and the control column (47) is slidably connected to the bottom of the extrusion hole (45).

5. The tunable laser cutting device according to claim 4, wherein: the unidirectional component (5) comprises a rotary groove (51) formed in the bottom of the control cylinder (44), a butt surface (52) arranged on one side of the rotary groove (51), a rotary rod (53) arranged on the rotary groove (51), a unidirectional block (54) arranged on the rotary rod (53), a butt end (55) arranged on one side of the unidirectional block (54), one side of the butt end (55) is abutted against the butt surface (52), and the direction of the unidirectional block (54) is consistent with the direction of the extrusion hole (45), and a torsion spring I arranged between the unidirectional block (54) and the rotary rod (53).

6. The tunable laser cutting device according to claim 5, wherein: the splash-proof unit comprises a splash-proof assembly (6) sleeved on the control cylinder (44), and a cleaning assembly (7) arranged at the bottom of the splash-proof assembly (6) in an annular array;

the splash-proof assembly (6) comprises a restoring piece (61) sleeved on the control cylinder (44), the top of the restoring piece (61) is fixedly connected with the bottom of the mounting plate (13), a splash-proof column (62) arranged at the bottom of the restoring piece (61), the splash-proof column (62) is slidably connected with the control cylinder (44), and observation holes (63) formed in the splash-proof column (62) in an annular array.

7. The tunable laser cutting device according to claim 6, wherein: the cleaning assembly (7) comprises a cleaning groove (71) formed in the bottom of the splash-proof column (62), a fixing column (72) arranged in the cleaning groove (71), a cleaning plate (73) arranged on the fixing column (72), a torsion spring II arranged between the fixing column (72) and the cleaning plate (73), a cleaning brush (74) arranged at the bottom of the cleaning plate (73) and a squeezing surface (75) arranged on one side of the bottom of the cleaning plate (73).

8. The tunable laser cutting device according to claim 7, wherein: the cleaning plate (73) is arc-shaped, and the bottom of the extrusion surface (75) is lower than the bottom of the cleaning brush (74).