CN200963731Y

CN200963731Y - Laser cutting machine

Info

Publication number: CN200963731Y
Application number: CN 200620014803
Authority: CN
Inventors: 高云峰; 安军辉; 刘振芳; 王伟
Original assignee: Shenzhen Hans Laser Technology Co Ltd
Current assignee: Shenzhen Hans Laser Technology Co Ltd
Priority date: 2006-09-20
Filing date: 2006-09-20
Publication date: 2007-10-24
Anticipated expiration: 2016-09-20

Abstract

The utility model discloses a laser cutter comprising a laser, a body part, a cantilever part, an optical device, a Z-axis part and a table part. All the parts are linked through the optical device. The upper part of the body parallel to the X-axis vertical direction is provided with a guide linked to the cantilever part. The lower front part of the body is provided with a table disposed below the cantilever. A cutting head is connected and fixed on the slider of the Z-axis movement device through the thread connection of the cutting head base. The Z-axis movement device is connected and fixed to the nut base of the Y-axis movement device through a transition plate. The Y-axis movement device is meshed with the nut base of the Y-axis movement device through a screw rod. The X-axis movement device is respectively meshed to the nut base of the body X-axis movement device through a screw rod. The utility model is characterized in the high cutting precision, fast response and good stability, which meets the processing of a variety of small parts and precision machine parts.

Description

Laser cutting machine

[technical field]

The utility model relates to a kind of laser cutting machine.

[technical background]

Of a great variety at the laser cutting machine that occurs on the market at present, structure is various.Traditional laser cutting machine all adopts planer type structure, and the work breadth is big, and machining accuracy is low, low-response, cost height.

[utility model content]

Technical problem to be solved in the utility model provides a kind of energy high-speed and high-efficiency cutting miniature precision spare, and volume is little, the miniature laser cutting machine that cost is low.

For solving the problems of the technologies described above, the technical scheme that the utility model adopted is: a kind of laser cutting machine comprises laser instrument, cutting head, guiding device, laser instrument is connected by guiding device with cutting head, the X-axis mobile device, y-axis shift moves device, the Z shaft moving device, lathe bed, workbench, described lathe bed is provided with guide rail, is provided with a cantilever design directly over the workbench, described cantilever design links to each other with lathe bed by guide rail, and can move in the X-axis direction.

Described cutting head links to each other with the cutting headstock, and be fixed on the slide block of Z shaft moving device, the Z shaft moving device links to each other by the nut seat of rebound with the moving device of y-axis shift, the moving device of y-axis shift is meshed with the nut seat that y-axis shift moves device by leading screw, and the X-axis mobile device is meshed by the nut seat of the X-axis mobile device on leading screw and the lathe bed respectively.

Described X-axis mobile device comprises the X-axis motor, X-axis leading screw, slide block, X-axis nut seat, X-axis guide rail; The X-axis motor is connected with the X-axis leading screw by shaft coupling, and the X-axis leading screw is meshed with the lead screw pair that the X-axis nut seat is connected, cantilever rebound and slide block, and the X-axis nut seat is connected, thereby drives the cantilever design motion.

The moving device of described y-axis shift comprises y-axis motor, slide block, electrical machine belt pulley, belt wheel, Y-axis leading screw, the Y-axis nut seat, the Y-axis guide rail, the y-axis motor output is fixed an electrical machine belt pulley, and electrical machine belt pulley links to each other by the belt wheel of belt with Y-axis leading screw end, the Y-axis leading screw moves thereby drive Z axle rebound by meshing with the Y-axis nut seat.

Described Z shaft moving device comprises the Z spindle motor, Z axis rail, Z axial filament thick stick, Z axial filament female seat, slide block, electrical machine belt pulley, belt wheel, Z spindle motor output is adorned a belt wheel, electrical machine belt pulley is connected by the belt wheel of belt with Z axial filament thick stick end, and Z axial filament thick stick drives the skateboarding of Z axle by meshing with Z axial filament female seat, thereby drive the cutting headstock motion that cutting head is installed, and then cutting head moving up and down on Z-direction arranged.

Further improvement of the utility model is that the cantilever design of described Y-axis part is curved.

Further improvement of the utility model is that the lathe of described cutting machine is the complete closed structure.

Further improvement of the utility model is, described enclosed construction comprises the sealing of cantilever and the sealing of lathe, wherein, guard shield side plate and shield stand, end casing, upper cover plate, the organ type guard shield, cantilever shape is become hermetic safeguard structure, and the organ type guard shield lays respectively at the both sides of Z shaft portion, and is connected about Z axle slide plate; And the lathe bed cover plate, the cantilever rebound, the organ type guard shield that the lathe bed cover plate links to each other forms hermetic safeguard structure to the lathe bed drive mechanism.

The beneficial effect that the utility model can reach is, cutting machine adopts marble, makes that the lathe bed distortion is little, and good stability can guarantee machine tool accuracy to greatest extent; Highly regulate and to reach good anti seismic efficiency with supporting seat with ground is fastenedly connected with screw rod and fix after finishing.Y-axis partly adopts cantilever structure, in weight reduction, when improving acceleration of motion, because it is subjected to the distortion of ectocine little, can guarantees the kinematic accuracy on the Y direction, but also reduce the work breadth.The utility model also adopts the totally enclosed type safeguard structure, can protect cantilever and lathe bed part effectively, reduces and pollutes, and can be used for metal, and nonmetallic cutting cooperates rotary table to cut tubing, can reach good cutting effect.

[description of drawings]

The utility model will be further described below in conjunction with accompanying drawing.

Fig. 1 is the stereogram of the utility model laser cutting machine.

Fig. 2 is the stereogram that the bracketed part of the utility model laser cutting machine is cut open.

The plane of the lathe bed part of Fig. 3 the utility model cutting machine.

Fig. 4 is the plane of the bracketed part of the utility model laser cutting machine.

Fig. 5 is the left view of the bracketed part of the utility model laser cutting machine.

Fig. 6 is the plane of the Z shaft portion of the utility model laser cutting machine.

[specific embodiment]

As Fig. 1, Fig. 2 and laser cutting machine shown in Figure 3 comprise laser instrument 1, cutting head 49, guiding device 6, laser instrument 1 is connected by guiding device 6 with cutting head 49, the X-axis mobile device, and y-axis shift moves device, the Z shaft moving device, workbench 3, lathe bed 2, its both sides, top are along the parallel guide rail that is provided with of X-axis vertical direction, side at lathe bed, a cantilever design 5 is installed in the top of workbench, and what cantilever adopted is arcuate structure, moves back and forth by guide rail, the both sides of guide rail are provided with the organ guard shield along the guide rail direction, with lathe bed cover plate 8, cantilever rebound 9, lathe bed is formed hermetic safeguard structure, in guide rail movement, can seal the lathe bed part fully, bracketed part then is by guard shield side plate 9 and shield stand 10, end casing 12,

upper cover plate

13,7 pairs of cantilever shape of organ type guard shield become hermetic safeguard structure, wherein, the organ type guard shield lays respectively at the both sides of Z shaft portion, is connected with Z axle slide plate about 47; The preceding bottom of lathe bed is provided with workbench, is positioned at the below of cantilever, and the bottom of workbench is provided with dust car, collects the waste material that produces in the cutting process, and dust car advances and pulls out by the dust car hanger.

As Fig. 2-shown in Figure 6, cutting head 49 links to each other with cutting headstock 48, and be fixed on the slide block 47 of Z shaft moving device, the Z shaft moving device links to each other by the nut seat 41 of rebound 43 with the moving device of y-axis shift, the moving device of y-axis shift is meshed with the nut seat 41 that y-axis shift moves device by leading screw 38, and the X-axis mobile device is meshed by the nut seat of the X-axis mobile device on leading screw 22 and the lathe bed respectively.

Described X-axis mobile device comprises X-axis motor 21, X-axis leading screw 22, slide block 23, X-axis nut seat 24, X-axis guide rail 25, X-axis motor 21 is connected with X-axis leading screw 22 by shaft coupling, X-axis leading screw 22 is meshed with the lead screw pair that X-axis nut seat 24 is connected, cantilever rebound 39 and slide block 23, X-axis nut seat 24 is connected, thereby drives cantilever design 5 motions.

The moving device of described y-axis shift comprises y-axis motor 51, slide block 37, electrical machine belt pulley 52, belt wheel 40, Y-axis leading screw 38, Y-axis nut seat 41, Y-axis guide rail 36, y-axis motor 51 outputs are fixed an electrical machine belt pulley 52, and electrical machine belt pulley 52 links to each other by the belt wheel 40 of belt with Y-axis leading screw 38 ends, Y-axis leading screw 38 moves thereby drive Z axle rebound 43 by meshing with Y-axis nut seat 41.

Described Z shaft moving device comprises Z spindle motor 50, Z axis rail 44, Z axial filament thick stick 45, Z axial filament female seat 46, slide block, electrical machine belt pulley, belt wheel 42, a belt wheel is adorned in 50 outputs of Z spindle motor, electrical machine belt pulley is connected by the belt wheel 42 of belt with Z axial filament thick stick 45 ends, thereby Z axial filament thick stick 45 moves by driving Z axle slide plate 47 with 46 engagements of Z axial filament female seat, thereby drives cutting headstock 48 motions that cutting head 49 is installed, thereby cutting head 49 moving up and down on Z-direction arranged.

Lathe bed of the present utility model adopts marble to make, and makes that the lathe bed distortion of cutting machine is little, good stability, can guarantee set machine tool accuracy to greatest extent, highly regulate finish after, supporting seat 11 and ground are fastenedly connected fixing with screw rod, reach good anti seismic efficiency.Highly regulate supporting seat and ground to be fastenedly connected after finishing fixingly with screw rod, reach good anti seismic efficiency.

The utility model can be used for metal, and is nonmetal, the cutting of pipe fitting: as stainless steel, and the charcoal steel, steel alloy, plastics, lucite, timber cooperates rotary table to cut tubing; Be particularly suitable for cutting, can reach good cutting effect the higher accurate small articles of required precision.

Claims

1. laser cutting machine comprises laser instrument (1), cutting head (49), and guiding device (6), laser instrument (1) is connected by guiding device (6) with cutting head (49), the X-axis mobile device, y-axis shift moves device, Z shaft moving device, lathe bed (2), workbench (3); It is characterized in that: described lathe bed (2) is provided with guide rail, and a cantilever design (5) is established in the top of workbench, and described cantilever design (5) links to each other with lathe bed (2) by guide rail, and can move in the X-axis direction.

2. laser cutting machine as claimed in claim 1, it is characterized in that: described cutting head (49) links to each other with cutting headstock (48), and be fixed on the slide block (47) of Z shaft moving device, the Z shaft moving device links to each other by the nut seat (41) of rebound (43) with the moving device of y-axis shift, the moving device of y-axis shift is meshed with the nut seat (41) that y-axis shift moves device by leading screw (38), and the X-axis mobile device is meshed by the nut seat of the X-axis mobile device on leading screw (22) and the lathe bed respectively.

3. laser cutting machine as claimed in claim 2 is characterized in that: described X-axis mobile device comprises X-axis motor (21), X-axis leading screw (22), slide block (23), X-axis nut seat (24), X-axis guide rail (25); X-axis motor (21) is connected with X-axis leading screw (22) by shaft coupling, X-axis leading screw (22) is meshed with the lead screw pair that X-axis nut seat (24) is connected, cantilever rebound (39) and slide block (23), X-axis nut seat (24) is connected, thereby drives cantilever design (5) motion.

4. laser cutting machine as claimed in claim 2, it is characterized in that: the moving device of described y-axis shift comprises y-axis motor (51), slide block (37), electrical machine belt pulley (52), belt wheel (40), Y-axis leading screw (38), Y-axis nut seat (41), Y-axis guide rail (36), y-axis motor (51) output is fixed an electrical machine belt pulley (52), electrical machine belt pulley (52) links to each other by the belt wheel (40) of belt with Y-axis leading screw (38) end, and Y-axis leading screw (38) moves thereby drive Z axle rebound (43) by meshing with Y-axis nut seat (41).

5. laser cutting machine as claimed in claim 2, it is characterized in that: described Z shaft moving device comprises Z spindle motor (50), Z axis rail (44), Z axial filament thick stick (45), Z axial filament female seat (46), slide block, electrical machine belt pulley, belt wheel (42), Z spindle motor (50) output is adorned a belt wheel, and electrical machine belt pulley is connected by the belt wheel (42) of belt with Z axial filament thick stick (45) end, Z axial filament thick stick (45) is by meshing with Z axial filament female seat (46), drive Z axle slide plate (47) motion, thereby drive cutting headstock (48) motion that cutting head (49) is installed, and then cutting head (49) moving up and down on Z-direction arranged.

6. as the arbitrary described laser cutting machine of claim 1-5, it is characterized in that: the cantilever design of described Y-axis part is curved.

7. as the arbitrary described laser cutting machine of claim 1-5, it is characterized in that: the lathe of cutting machine is the complete closed structure.

8. laser cutting machine as claimed in claim 7, it is characterized in that: described enclosed construction comprises the sealing of cantilever and the sealing of lathe, wherein, guard shield side plate (9) and shield stand (10), end casing (12), upper cover plate (13), organ type guard shield (7), cantilever shape is become hermetic safeguard structure, the organ type guard shield lays respectively at the both sides of Z shaft portion, and is connected about Z axle slide plate (47), and the lathe bed cover plate, cantilever rebound (9), the organ type guard shield that lathe bed cover plate (8) links to each other forms hermetic safeguard structure to the lathe bed drive mechanism.