CN214134535U - Laser cutting machine - Google Patents

Abstract

The utility model provides a laser cutting machine, which comprises a machine tool component and a rotary worktable component which is arranged outside the machine tool component and used for rotating a workpiece, wherein the machine tool component comprises a machine tool seat, a moving mechanism arranged on the machine tool seat and a cutting head component arranged on the moving mechanism, and the moving mechanism can drive the cutting head component to move along the directions of an X axis, a Y axis and a Z axis; the rotary worktable assembly is positioned below the cutting head part and comprises a tool frame, a driving mechanism, a driven mechanism and a fixture mechanism, wherein the tool frame is horizontally arranged, the driving mechanism and the driven mechanism are arranged at the left end and the right end of the tool frame in a sliding mode, and the fixture mechanism is detachably connected between the driving mechanism and the driven mechanism and is used for clamping a workpiece. The utility model discloses an adopt ordinary triaxial to remove the lathe and can reach five three-dimensional laser cutting machine's of axle cutting effect, cost is cheaper, laser cutting machine can enough satisfy the cutting that planar workpiece's cutting also can satisfy three-dimensional special-shaped workpiece, and application scope is extensive.

Description

Laser cutting machine

Technical Field

The utility model belongs to the technical field of laser cutting equipment, especially, relate to a laser cutting machine.

Background

As a high-quality, high-precision and high-efficiency processing method, the laser cutting technology has been widely applied to the fields of aviation, aerospace, automobile manufacturing and the like. Compared with the traditional cutting method, the laser cutting method has the characteristics of high speed, high precision and high adaptability, and also has the advantages of fine cutting slit, small heat affected zone, good cutting surface quality, no noise during cutting, easy realization of automation of the cutting process, low processing cost and the like, thereby being widely applied to engineering.

The existing laser cutting machine can be applied to processing of plane workpieces such as plates, sections, cloth and the like. The flat workpiece can be processed by adopting a common two-dimensional laser cutting machine due to simple shape, and the three-dimensional workpiece needs to adopt a three-dimensional laser cutting machine due to complex shape. The existing common three-dimensional laser cutting machine generally processes a three-dimensional workpiece by adopting the rotation of a laser cutting head at any angle and any position in a three-dimensional space, the light path of a laser beam needs to be adjusted for many times in order to realize the flexible operation of the laser cutting head at any angle, and the flexible movement track of the laser cutting head is obtained by motion synthesis so as to adapt to the processing of the three-dimensional workpiece with various curved surfaces, so that the cost is high, the light path adjustment is complicated, and the cutting efficiency is low.

SUMMERY OF THE UTILITY MODEL

In view of the above shortcoming of the prior art, an object of the utility model is to provide a laser cutting machine for solve the problem that ordinary triaxial laser cutting machine can't cut three-dimensional work piece among the prior art.

In order to achieve the above and other related objects, the present invention provides a laser cutting machine, including a machine tool assembly and a rotary table assembly disposed outside the machine tool assembly and used for rotating a workpiece, wherein the machine tool assembly includes a machine tool base, a moving mechanism disposed on the machine tool base, and a cutting head assembly disposed on the moving mechanism, and the moving mechanism can drive the cutting head assembly to move along directions of an X axis, a Y axis, and a Z axis; the rotary worktable assembly is positioned below the cutting head part and comprises a tool frame, a driving mechanism, a driven mechanism and a clamp mechanism, wherein the tool frame is horizontally arranged, the driving mechanism and the driven mechanism are arranged at the left end and the right end of the tool frame, and the clamp mechanism is detachably connected between the driving mechanism and the driven mechanism and is used for clamping a workpiece.

Further, the moving mechanism comprises an X-axis component, a Y-axis component and a Z-axis component, the X-axis component is arranged on the machine tool seat in a sliding mode along the X-axis direction, the Y-axis component is fixedly connected with the X-axis component and extends out of the machine tool seat, the Z-axis component is arranged on the Y-axis component in a sliding mode along the Y-axis direction, and the cutting head component is arranged on the Z-axis component in a sliding mode along the Z-axis direction.

Further, the initiative mechanism include first mounting panel with set up in first makeup frame on the first mounting panel, the installation has the initiative headstock on the first makeup frame, initiative headstock internal rotation is provided with the driving shaft, the driving shaft is connected with the initiative flange near the one end at frock frame center, and the other end is connected with and is used for the drive the rotatory drive element of driving shaft.

Further, follower include the second mounting panel with set up in second makeup frame on the second mounting panel install from the headstock on the second makeup frame, from the headstock internal rotation be provided with the driven shaft, the driven shaft is close to the one end at frock frame center is connected with driven flange.

Further, the fixture mechanism comprises a first fixture portion, a second fixture portion and fixture tools, wherein the first fixture portion is connected with the driving flange through a first connecting piece, the second fixture portion is connected with the driven flange through a second connecting piece, and the fixture tools are used for clamping workpieces and detachably connected with the first fixture portion and the second fixture portion at two ends respectively.

Furthermore, the first connecting piece and the second connecting piece are respectively provided with a quick locking structure in rotary connection, and the first connecting piece is connected with the driving flange through a bolt and is connected with the first clamp part through the quick locking structure; the second connecting piece is connected with the driven flange through a bolt and is connected with the second clamp part through a quick locking structure.

Further, laser cutting machine is still including locating the rotary worktable subassembly below connects the slag car, frock frame bottom has the accommodation space of placing and connecting the slag car, connect the slag car can shift into or shift out accommodation space is in order to collect the cutting waste residue.

Further, it has the sediment groove that connects that is used for collecting the cutting waste residue to connect the sediment car inside, just it sets up to connect the slope of one side that the sediment groove is close to the lathe subassembly, it is provided with the handle to connect one side that the sediment car is far away from the lathe subassembly.

Further, laser cutting machine still includes the protection room, lathe subassembly, swivel work head subassembly and connect the sediment car position in the inside in protection room, the protection room is close to one side of swivel work head subassembly is equipped with the rolling slats door, the left and right sides in protection room respectively is provided with an observation door, be equipped with the observation window on the observation door.

Further, the periphery in protection room is provided with water-cooled generator, laser instrument, operation panel and button platform, the laser instrument sets up on the laser instrument mounting bracket, and the water-cooled generator is located laser instrument mounting bracket below, operation panel and button platform are used for controlling the cutting operation.

As described above, the utility model discloses a laser cutting machine has following beneficial effect:

through the rotary worktable assembly arranged outside the machine tool, the three-dimensional special-shaped workpiece can be cut under the matching action of the movement of the cutting head component and the rotary motion of the rotary worktable assembly by clamping and rotating the workpiece through the rotary worktable assembly, the cutting effect of the five-axis three-dimensional laser cutting machine can be achieved through adopting a common three-axis movable machine tool, the light path adjustment of a laser head is avoided, the laser power loss is reduced, the manufacturing cost is lower, the laser cutting machine can meet the requirements of cutting a plane workpiece and cutting the three-dimensional special-shaped workpiece, and the application range is wide.

Drawings

Fig. 1 is a schematic view of the internal structure of the laser cutting machine of the present invention;

FIG. 2 is a second schematic structural view (with a workpiece clamped) of FIG. 1 with the machine tool components removed;

FIG. 3 is a first schematic structural view (without clamping the workpiece) of FIG. 1 with the machine tool components removed;

FIG. 4 is a first diagram illustrating a portion of the structure of FIG. 3;

FIG. 5 is a schematic view of the structure of FIG. 4 with the first clamp portion removed;

FIG. 6 is a second partial schematic structural diagram of FIG. 3;

FIG. 7 is a schematic view of the structure of FIG. 6 with the second clamp portion removed;

FIG. 8 is a schematic structural view of a slag receiving vehicle;

fig. 9 is a schematic view of the external structure of the laser cutting machine according to the present invention.

Description of the reference numerals

100-a machine tool component; 110-a machine tool seat; 120-a moving mechanism; a 121-X shaft member; 122-Y shaft member; 123-Z shaft member;

200-a rotary table assembly; 210-a tooling frame;

220-an active mechanism; 221-a first mounting plate; 222-a first adjustment plate; 223-a first puzzle frame; 224-a driving head seat; 224 a-a flying ring; 225-driving shaft; 226 — active flange; 227-a drive element; 228-a first connector; 228 a-a quick-lock mechanism;

230-a driven mechanism; 231-a second mounting plate; 232-a second adjusting plate; 233-a second palette frame; 234-driven headstock; 234 a-hoisting ring; 235-a driven shaft; 236-a driven flange; 237-a second attachment; 237 a-a quick locking structure;

240-a clamp mechanism; 241-a first clamp portion; 242-a second clamp portion; 243-clamp tooling;

300-slag receiving vehicle; 301-a slag receiving tank; 302-a handle;

400-a protective house; 401-rolling doors; 402-observation doors; 402 a-observation window;

500-a water cooler; 600-a laser; 601-a laser mount; 700-an operation table; 800-button stand; 900-workpiece.

Detailed Description

The following description is provided for illustrative purposes, and other advantages and features of the present invention will become apparent to those skilled in the art from the following detailed description.

It should be understood that the structure, ratio, size and the like shown in the drawings attached to the present specification are only used for matching with the content disclosed in the specification, so as to be known and read by those skilled in the art, and are not used for limiting the limit conditions that the present invention can be implemented, so that the present invention has no technical essential meaning, and any structure modification, ratio relationship change or size adjustment should still fall within the scope that the technical content disclosed in the present invention can cover without affecting the function that the present invention can produce and the purpose that the present invention can achieve. Meanwhile, the terms such as "upper", "lower", "left", "right", "middle" and "one" used in the present specification are for convenience of description, and are not intended to limit the scope of the present invention, and changes or adjustments of the relative relationship thereof may be made without substantial technical changes, and the present invention is also regarded as the scope of the present invention.

Referring to fig. 1 to 3, the present invention provides a laser cutting machine, which includes a machine tool assembly 100 and a rotary table assembly 200 disposed outside the machine tool assembly 100 and used for rotating a workpiece 900, wherein the machine tool assembly 100 includes a machine tool base 110, a moving mechanism 120 disposed on the machine tool base 110, and a cutting head component disposed on the moving mechanism 120, and the moving mechanism 120 can drive the cutting head component to move along directions of an X axis, a Y axis, and a Z axis; the rotary table assembly 200 is located below the cutting head part, and includes a horizontally disposed tool rack 210, a driving mechanism 220 and a driven mechanism 230 disposed at the left and right ends of the tool rack 210, and a clamp mechanism 240 detachably connected between the driving mechanism 220 and the driven mechanism 230 and used for clamping a workpiece 900.

The moving mechanism 120 drives the cutting head component to move along the directions of the X axis, the Y axis and the Z axis, the rotary table assembly 200 clamps the workpiece 900 and drives the workpiece 900 to rotate (around the X axis direction), and under the cooperation effect of the workpiece 900 and the rotary table assembly, the cutting head component can cut the special-shaped three-dimensional workpiece 900; because the machine tool component with three-axis motion is adopted, the effect of three-dimensional cutting is achieved, the manufacturing cost is lower, the light path adjustment of the cutting head component is not involved, the power loss of laser is reduced, and the cutting efficiency is higher; the rotary worktable assembly 200 clamps the workpiece 900 through the fixture mechanism 240 and drives the workpiece 900 to rotate, so that the rotary worktable assembly is suitable for cutting plane or three-dimensional special-shaped workpieces 900 and has wide application range.

The moving mechanism 120 includes an X-axis member 121, a Y-axis member 122, and a Z-axis member 123, wherein the X-axis member 121 is slidably disposed on the machine base 110 along the X-axis direction, the Y-axis member 122 is fixedly connected to the X-axis member 121 and extends out of the machine base 110, the Z-axis member 123 is slidably disposed on the Y-axis member 122 along the Y-axis direction, and the cutting head is slidably disposed on the Z-axis member 123 along the Z-axis direction. Specifically, the X-axis direction is along the length direction of the machine tool, the Y-axis direction is along the width direction of the machine tool, the Z-axis direction is along the height direction of the machine tool, and the X-axis direction, the Y-axis direction and the Z-axis direction are mutually perpendicular in pairs. An X-axis rack type guide rail is arranged on the machine tool seat 110, an X-axis driving motor and an X-axis gear arranged at the output end of the X-axis driving motor are arranged on the X-axis part 121, the X-axis gear is meshed with the X-axis rack type guide rail, and the X-axis driving motor drives the X-axis part 121 to move. The Y-axis part 122 is provided with a Y-axis rack type guide rail, a Y-axis driving motor, and a Y-axis gear arranged at the output end of the Y-axis driving motor, and the Y-axis gear is engaged with the Y-axis rack type guide rail. The cutter head part is provided on the Z-axis member 123 and is slidable along the Z-axis member 123.

Referring to fig. 3, the tool rack 210 of the rotary table assembly 200 is welded by a high-strength rectangular pipe and is firmly connected to the foundation by anchor bolts. The driving mechanism 220 and the driven mechanism 230 are respectively disposed at the left end and the right end of the tool rack 210, and are used for connecting the clamp mechanism 240, the clamp mechanism 240 is used for clamping the workpiece 900, and the driving mechanism 220 and the driven mechanism 230 cooperate to rotate the clamp mechanism 240, so as to drive the workpiece 900 to rotate. Referring to fig. 4 to 7, the driving mechanism 220 includes a first mounting plate 221 and a first plate-splicing frame 223 disposed on the first mounting plate 221, a driving head seat 224 is mounted on the first plate-splicing frame 223, a driving shaft 225 is rotatably disposed in the driving head seat 224, one end of the driving shaft 225 close to the center of the tooling frame 210 is connected to a driving flange 226, and the other end is connected to a driving element 227 for driving the driving shaft 225 to rotate. The driven mechanism 230 comprises a second mounting plate 231, a second splicing plate frame 233 arranged on the second mounting plate 231, and a driven head seat 234 arranged on the second splicing plate frame 233, wherein a driven shaft 235 is rotatably arranged in the driven head seat 234, and one end of the driven shaft 235 close to the center of the tool rack 210 is connected with a driven flange 236. Specifically, a first adjusting plate 222 is further disposed between the first mounting plate 221 and the first split plate frame 223, and adjusting blocks are disposed around the first adjusting plate 222 to adjust the position of the first adjusting plate 222 on the first mounting plate 221. Similarly, a second adjusting plate 232 is further disposed between the second mounting plate 231 and the second jointed board frame 233, and adjusting blocks are disposed around the second adjusting plate 232 to adjust the position of the second adjusting plate 232 on the second mounting plate 231, so that the distance between the driving head seat 224 and the driven head seat 234 can be adjusted according to the actual length of the workpiece 900. The first split frame 223 is used to carry the driving head seat 224, the second split frame 233 is used to carry the driven head seat 234, the driving shaft 225 in the driving head seat 224 is driven by the driving element 227 to rotate, and the fixture mechanism 240 transmits the rotating power from the driving shaft 225 to the driven shaft 235, so that the driven shaft 235 rotates synchronously. In this embodiment, the driving element 227 is a driving motor, and the rotation speed of the driving motor and the rotation position of the workpiece 900 can be controlled according to the processing requirement. In addition, for the convenience of hoisting, the top of the driving headstock 224 and the driven headstock 234 are respectively provided with a hoisting ring 224a and a hoisting ring 234 a.

Continuing to refer to fig. 3, the clamping mechanism 240 includes a first clamping portion 241, a second clamping portion 242, and a clamping fixture 243, the first clamping portion 241 is connected to the driving flange 226 through a first connecting member 228, the second clamping portion 242 is connected to the driven flange 236 through a second connecting member 237, the clamping fixture 243 is used for clamping the workpiece 900, and two ends of the clamping fixture 243 are detachably connected to the first clamping portion 241 and the second clamping portion 242, respectively. Specifically, different fixture tools 243 can be selected for different workpieces 900, in this embodiment, for example, the cross beam workpiece 900 and the side arm workpiece 900 are respectively provided with the corresponding fixture tools 243, two ends of the fixture tools 243 are respectively connected with the first fixture portion 241 and the second fixture portion 242 through bolts, and then are respectively connected with the driving flange 226 and the driven flange 236 corresponding to the two ends through the first connecting member 228 and the second connecting member 237, respectively, in a quick assembly manner.

Referring to fig. 4 to 7, the first connecting member 228 has a quick locking structure 228a for rotation connection, the second connecting member 237 has a quick locking structure 237a for rotation connection, the first connecting member 228 is connected to the driving flange 226 by bolts, and is connected to the first clamping portion 241 by the quick locking structure 228 a; the second coupling member 237 is coupled to the driven flange 236 by bolts and coupled to the second clamping portion 242 by a quick locking structure 237 a. Specifically, the quick locking structure 228a/237a includes a rotating screw and a locking nut, the rotating screw is rotated to be in a horizontal state, after the first clamp portion 241 is assembled with the first connecting member 228, the rotating screw is rotated to be in a vertical state, and the locking nut is tightened, so that the first clamp portion 241 can be connected and locked with the driving flange 226 through the first connecting member 228. Similarly, the second clamping portion 242 can be connected and locked with the driven flange 236 through the second connecting member 237 in the same manner. By the structure, the workpiece 900 can be conveniently disassembled and assembled, and the working efficiency is improved.

Referring to fig. 3, the laser cutting machine further includes a slag receiving car 300 disposed below the rotary table assembly 200, the bottom of the tool rack 210 has an accommodating space for placing the slag receiving car 300, and the slag receiving car 300 can move into or out of the accommodating space to collect cutting slag. Through connecing the sediment car 300, can be convenient for in time collect the cutting waste residue that produces in the processing to, still can pull out after the collection finishes and connect sediment car 300 with its inside waste residue clearance to appointed place.

Referring to fig. 8, a slag receiving groove 301 for collecting cutting waste slag is formed in the slag receiving car 300, and the slag receiving groove 301 is obliquely arranged near one side of the machine tool assembly 100, so that waste slag can be poured conveniently; the side of the slag receiving car 300 away from the machine tool assembly 100 is provided with a handle 302, so that an operator can conveniently hold the handle 302 to move the slag receiving car 300.

Referring to fig. 9, the laser cutting machine further includes a protection room 400, the machine tool assembly 100, the rotary table assembly 200 and the slag receiving car 300 are located inside the protection room 400, one side of the protection room 400 close to the rotary table assembly 200 is provided with a rolling door 401, the left side and the right side of the protection room 400 are respectively provided with an observation door 402, and the observation door 402 is provided with an observation window 402 a. Specifically, the protection house 400 adopts a metal plate floor structure, has attractive appearance and simple installation, and can avoid the harm of laser radiation to operators. By arranging the rolling door 401, the part can be opened when the part is replaced, and the part can be closed when the part is cut.

The periphery of protection room 400 is provided with water-cooling machine 500, laser instrument 600, operation panel 700 and button platform 800, and laser instrument 600 sets up on laser instrument mounting bracket 601, and water-cooling machine 500 is located laser instrument mounting bracket 601 below, and operation panel 700 and button platform 800 are used for controlling the cutting operation. In this embodiment, the laser 600 and the water cooling machine 500 are located on the side of the protection room 400 away from the rolling door 401, and the operation console 700 and the button platform 800 are located on the side of the protection room 400 close to the rolling door 401. The laser 600 is used for generating laser for laser cutting of the cutting head component, the water cooling machine 500 is used for providing cooling water for the equipment cutting process, the operation table 700 is used for programming a cutting processing program, and the button table 800 is used for controlling the cutting operation of the cutting machine and the operation of the rolling door 401 and the like by an operator.

The working flow of the laser cutting machine is as follows: a workpiece 900 to be cut is clamped by a suitable clamp tool 243, and two ends of the clamp tool 243 are respectively connected with the first clamp part 241 and the second clamp part 242, and then the first clamp part 241 is fixedly connected with the driving flange 226 by the first connecting piece 228, and the second clamp part 242 is fixedly connected with the driven flange 236 by the second connecting piece 237, so that two ends of a clamp mechanism provided with the workpiece 900 are respectively connected with the driving headstock 224 and the driven headstock 234. By operating the corresponding button, the moving mechanism 120 is controlled to drive the cutting head component to move, and the cutting operation on the three-dimensional special-shaped workpiece 900 can be executed by matching with the rotation of the rotating table component 200 on the workpiece 900.

To sum up, in the embodiment of the utility model provides an among the laser cutting machine, through setting up the swivel work head subassembly at the lathe outside, by swivel work head subassembly clamping and rotatory work piece, under the removal of cutting head subassembly and the rotatory motion mating reaction of swivel work head subassembly, can realize the cutting to three-dimensional special-shaped workpiece, can reach five three-dimensional laser cutting machine's of five-axis cutting effect through adopting ordinary triaxial to remove the lathe, and avoided the light path regulation of laser head, reduced laser power loss, cost is cheaper, laser cutting machine can enough satisfy the cutting that the cutting of plane work piece also can satisfy three-dimensional special-shaped workpiece, and application scope is extensive.

The above embodiments are merely illustrative of the principles and effects of the present invention, and are not to be construed as limiting the invention. Modifications and variations can be made to the above-described embodiments by those skilled in the art without departing from the spirit and scope of the present invention. Accordingly, it is intended that all equivalent modifications or changes which may be made by those skilled in the art without departing from the spirit and technical spirit of the present invention be covered by the claims of the present invention.

Claims (10)

1. A laser cutting machine is characterized in that: the cutting machine comprises a machine tool assembly and a rotary worktable assembly, wherein the rotary worktable assembly is arranged outside the machine tool assembly and used for rotating a workpiece, the machine tool assembly comprises a machine tool base, a moving mechanism arranged on the machine tool base and a cutting head component arranged on the moving mechanism, and the moving mechanism can drive the cutting head component to move along the directions of an X axis, a Y axis and a Z axis; the rotary worktable assembly is positioned below the cutting head part and comprises a tool frame, a driving mechanism, a driven mechanism and a clamp mechanism, wherein the tool frame is horizontally arranged, the driving mechanism and the driven mechanism are arranged at the left end and the right end of the tool frame, and the clamp mechanism is detachably connected between the driving mechanism and the driven mechanism and is used for clamping a workpiece.

2. The laser cutting machine according to claim 1, characterized in that: the moving mechanism comprises an X-axis part, a Y-axis part and a Z-axis part, the X-axis part is arranged on the machine tool seat in a sliding mode along the X-axis direction, the Y-axis part is fixedly connected with the X-axis part and extends out of the machine tool seat, the Z-axis part is arranged on the Y-axis part in a sliding mode along the Y-axis direction, and the cutting head part is arranged on the Z-axis part in a sliding mode along the Z-axis direction.

3. The laser cutting machine according to claim 1, characterized in that: the driving mechanism comprises a first mounting plate and a first splicing plate frame arranged on the first mounting plate, a driving head seat is arranged on the first splicing plate frame, a driving shaft is arranged in the driving head seat, one end, close to the center of the tool frame, of the driving shaft is connected with a driving flange, and the other end of the driving shaft is connected with a driving element used for driving the driving shaft to rotate.

4. The laser cutting machine according to claim 3, characterized in that: driven mechanism include the second mounting panel with set up in second makeup frame on the second mounting panel, install from the headstock on the second makeup frame, from headstock internal rotation is provided with the driven shaft, the driven shaft is close to the one end at frock frame center is connected with driven flange.

5. The laser cutting machine according to claim 4, characterized in that: the fixture mechanism comprises a first fixture portion, a second fixture portion and fixture tools, wherein the first fixture portion is connected with the driving flange through a first connecting piece, the second fixture portion is connected with the driven flange through a second connecting piece, and the two ends of each fixture tool are used for clamping workpieces and are detachably connected with the first fixture portion and the second fixture portion respectively.

6. The laser cutting machine according to claim 5, characterized in that: the first connecting piece and the second connecting piece are respectively provided with a quick locking structure in rotary connection, and the first connecting piece is connected with the driving flange through a bolt and is connected with the first clamp part through the quick locking structure; the second connecting piece is connected with the driven flange through a bolt and is connected with the second clamp part through a quick locking structure.

7. The laser cutting machine according to claim 1, characterized in that: the laser cutting machine is characterized by further comprising a slag receiving vehicle arranged below the rotary workbench component, wherein the bottom of the tool rack is provided with an accommodating space for accommodating the slag receiving vehicle, and the slag receiving vehicle can move into or out of the accommodating space to collect cutting waste slag.

8. The laser cutting machine according to claim 7, characterized in that: connect the inside sediment groove that connects that is used for collecting the cutting waste residue that has of sediment car, just connect the slope setting of one side that the sediment groove is close to the lathe subassembly, it is provided with the handle to connect one side that the sediment car is far away from the lathe subassembly.

9. The laser cutting machine according to claim 1, characterized in that: laser cutting machine still includes the protection room, lathe subassembly, swivel work head subassembly and connect the sediment car position in the inside in protection room, the protection room is close to one side of swivel work head subassembly is equipped with the rolling slats door, the left and right sides in protection room respectively is provided with an observation door, be equipped with the observation window on the observation door.

10. The laser cutting machine according to claim 9, characterized in that: the protection room is provided with water-cooled generator, laser instrument, operation panel and button platform in the periphery, the laser instrument sets up on the laser instrument mounting bracket, and the water-cooled generator is located laser instrument mounting bracket below, operation panel and button platform are used for controlling the cutting operation.

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