CN208977075U - Laser scribing all-in-one machine - Google Patents

Abstract

The utility model relates to dicing saw art fields, disclose laser scribing all-in-one machine, including cabinet (1), workbench (2) are equipped in cabinet (1), workbench (2) includes lower platform (203), supporting block (202) and upper mounting plate (201), lower platform (203) is equipped with supporting block (202), supporting block (202) is equipped with upper mounting plate (201), upper mounting plate (201) is equipped with Z axis movement mould group (12) and refracting telescope fixed plate (11), Z axis moves mould group (12) and is equipped with bracket (14), bracket (14) is equipped with laser scanning galvanometer (13) and cylinder slide unit component (15), cylinder slide unit component (15) is equipped with the second reflecting mirror (17), refracting telescope fixed plate (11) is equipped with the first reflecting mirror (16), it is upper flat Laser (10) and reflection microscope group (18) are additionally provided on platform (201).The utility model has the advantages that laser cutting and laser marking can be completed on a machine, promotes processing efficiency, reduces occupied area.

Description

Laser scribing all-in-one machine

Technical field

The utility model relates to dicing saw art fields, more particularly to laser scribing all-in-one machine.

Background technique

Laser scribing means is to be radiated at workpiece surface using high energy laser beam, makes irradiated area local melting, gasification, from And achieve the purpose that scribing.Because laser is to become a very small luminous point after dedicated optics into focus, energy density is high, Because its processing be it is contactless, to workpiece itself without mechanical stamping press, workpiece is unlikely to deform, and heat affecting is minimum, draw precision Height is widely used in the cutting and scribing of solar panel, foil.Laser scribing means be mainly used for metal material and Solar panel, silicon wafer, potsherd, aluminium can be processed in silicon, germanium, GaAs and other semiconductor substrate materials scribings and cutting Paillon etc., workpiece is finely beautiful, and trimming is smooth.After converted products is cut on laser scribing means, usually also need to shift Laser marking is carried out on to the machine for be equipped with laser scanning galvanometer, it is therefore desirable to which the distributed operation on two machines exists and adds The shortcomings that chemical product transfer is troublesome, operating performance is cumbersome, processing efficiency is low, and there is also what is taken up a large area to ask for two machines Topic.

Utility model content

The utility model for the transfer of converted products in the prior art trouble, operating performance is cumbersome, processing efficiency is low lacks Point provides laser scribing all-in-one machine.

In order to solve the above-mentioned technical problem, the utility model is addressed by following technical proposals:

Laser scribing all-in-one machine, including cabinet, are equipped with workbench in cabinet, workbench include lower platform, supporting block and on Platform, lower platform are equipped with supporting block, and supporting block is equipped with upper mounting plate, and upper mounting plate is equipped with Z axis movement mould group and refracting telescope is solid Fixed board, Z axis move mould group and are equipped with bracket, and bracket is equipped with laser scanning galvanometer and cylinder slide unit component, cylinder slide unit component It is equipped with the second reflecting mirror, refracting telescope fixed plate is equipped with the first reflecting mirror, is additionally provided with lasers and mirrors group on upper mounting plate, Reflection microscope group is used to receive the laser of laser transmitting, and the first reflecting mirror is used to receive the reflected light of reflection microscope group, the second reflection Mirror is used to receive the reflected light of the first reflecting mirror, and laser scanning galvanometer is used to receive the reflected light of the second reflecting mirror.

Preferably, cylinder slide unit component includes slide, cylinder and sliding block, slide is equipped with cylinder, and cylinder drives sliding block It is moved on slide, sliding block is equipped with the second reflecting mirror；Bracket includes that the first plate body and the second plate body, laser scanning galvanometer are gentle Cylinder slide unit component is separately positioned on the both ends of the first plate body, and the first plate body is equipped with the second plate body, and the second plate body is equipped with circular hole, The reflected light of second reflecting mirror is received after passing through circular hole by laser scanning galvanometer.

Preferably, being additionally provided with positioning plate in Z axis movement mould group, positioning plate is equipped with laser cutting head, goes back on positioning plate Equipped with through-hole, the reflected light of the first reflecting mirror is received after passing through through-hole by laser cutting head.Cylinder driving sliding block is moved up in slide It is dynamic, so that the second reflecting mirror on cylinder driving sliding block is mobile, when the second reflecting mirror is moved to the underface of the first reflecting mirror, The laser of laser transmitting is received after the reflection of reflection microscope group, the first reflecting mirror and the second reflecting mirror by laser scanning galvanometer, To be worked by laser scanning galvanometer；When the second reflecting mirror is mobile and leaves the underface of the first reflecting mirror, due to not having Second reflecting mirror blocks, and the laser of laser transmitting is after the reflection of reflection microscope group and the first reflecting mirror, by laser cutting head It receives, so that head work be cut by laser；Therefore mobile by the second reflecting mirror of cylinder slide unit Component driver, so as to select Laser scanning galvanometer or laser cutting head work, can be completed in same machine be cut by laser and laser marking, from without Converted products is transferred to an other machine, reduces the operating procedure of workpieces processing transfer, improves the processing of machine Efficiency, and can be reduced the occupied area of machine, the usable floor area in soil is reduced, to save the manufacturing cost of product.

Preferably, reflection microscope group includes third reflecting mirror and the 4th reflecting mirror, third reflecting mirror is for receiving laser The laser of transmitting, the 4th reflecting mirror are used to receive the reflected light of third reflecting mirror, and the first reflecting mirror is for receiving the 4th reflecting mirror Reflected light.

Preferably, lower platform, which is equipped with X/Y axis, moves mould group, X/Y axis moves mould group and is equipped with objective table, objective table position In the lower section of laser scanning galvanometer and laser cutting head.Mould group moving stage is moved by X/Y axis, so that objective table be made to be located at The lower section of laser scanning galvanometer and laser cutting head.

Preferably, workbench is equipped with steel structure rack, Steel Structure structure includes feet, lower frame, bottom plate, column and upper ledge Frame, feet are equipped with lower frame, and lower frame is connect by column with upper frame, and upper frame is connect with workbench, is set on lower frame There is bottom plate；Workbench is workbench made of marble, and the quantity of feet is 4, and the quantity of column is 4.

Preferably, cabinet includes case lid, upper box and lower box, case lid is hinged with upper box, and upper box is equipped with and opens Mouthful, workbench is arranged in upper box, and upper box is connect with lower box.When machine operation, case lid is closed, when machine does not work When, case lid is opened, to pass through the safety of case lid effective protection user.

The utility model has significant technical effect: passing through cylinder slide unit component due to using above technical scheme Drive the second reflecting mirror mobile, it, can be complete in same machine so as to select laser scanning galvanometer or laser cutting head to work Reduce workpieces processing without converted products is transferred to an other machine at laser cutting and laser marking and turn The operating procedure of shifting improves the processing efficiency of machine, and can be reduced the occupied area of machine, reduces the using face in soil Product, to save the manufacturing cost of product.The utility model has can complete laser cutting on a machine and laser is beaten Mark promotes processing efficiency, reduces the advantages of occupied area.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the utility model.

Fig. 2 is the structural schematic diagram of box inner structure.

Fig. 3 is the structural schematic diagram of positioning plate in Fig. 2.

Fig. 4 is the partial enlarged view of A in Fig. 2.

Fig. 5 is the structural schematic diagram of Z axis movement mould group in Fig. 2, bracket and cylinder slide unit component.

Fig. 6 is the structural schematic diagram of cylinder slide unit component in Fig. 5.

The toponym that each number designation is referred in the figures above is as follows: where 1-cabinet, 101-case lids, 102- Upper box, 1021-openings, 103-lower boxes, 2-workbench, 201-upper mounting plates, 202-supporting blocks, 203-lower platforms, 3-steel structure racks, 301-upper frames, 302-columns, 303-bottom plates, 304-lower frames, 305-feets, the reflection of 4-thirds Mirror, the 5-the four reflecting mirror, 6-positioning plates, 601-through-holes, 7-laser cutting heads, 8-objective tables, 9-X/Y axis move mould Group, 10-lasers, 11-refracting telescope fixed plates, 12-Z axis movement mould group, 13-laser scanning galvanometers, 14-brackets, 1401-the first plate body, 1402-circular holes, the 1403-the second plate body, 15-cylinder slide unit components, 1501-sliding blocks, 1502-gas Cylinder, 1503-slides, the 16-the first reflecting mirror, the 17-the second reflecting mirror, 18-reflection microscope groups.

Specific embodiment

The utility model is described in further detail with embodiment with reference to the accompanying drawing.

Embodiment 1

Laser scribing all-in-one machine, as shown in figures 1 to 6, including cabinet 1, cabinet 1 is interior to be equipped with workbench 2, under workbench 2 includes Platform 203, supporting block 202 and upper mounting plate 201, lower platform 203 are equipped with supporting block 202, and supporting block 202 is equipped with upper mounting plate 201, upper mounting plate 201 is equipped with Z axis movement mould group 12 and refracting telescope fixed plate 11, and Z axis moves mould group 12 and is equipped with bracket 14, branch Frame 14 is equipped with laser scanning galvanometer 13 and cylinder slide unit component 15, and cylinder slide unit component 15 is equipped with the second reflecting mirror 17, folding It penetrates mirror fixed plate 11 and is equipped with the first reflecting mirror 16, laser 10 and reflection microscope group 18 are additionally provided on upper mounting plate 201, reflects microscope group 18 for receiving the laser of the transmitting of laser 10, and the first reflecting mirror 16 is used to receive the reflected light of reflection microscope group 18, the second reflection Mirror 17 is used to receive the reflected light of the first reflecting mirror 16, and laser scanning galvanometer 13 is used to receive the reflected light of the second reflecting mirror 17.

Cylinder slide unit component 15 includes slide 1503, cylinder 1502 and sliding block 1501, and slide 1503 is equipped with cylinder 1502, Cylinder 1502 drives sliding block 1501 to move on slide 1503, and sliding block 1501 is equipped with the second reflecting mirror 17；Bracket 14 includes the One plate body 1401 and the second plate body 1403, laser scanning galvanometer 13 and cylinder slide unit component 15 are separately positioned on the first plate body 1401 Both ends, the first plate body 1401 be equipped with the second plate body 1403, the second plate body 1403 be equipped with circular hole 1402, the second reflecting mirror 17 Reflected light pass through circular hole 1402 after received by laser scanning galvanometer 13.

Positioning plate 6 is additionally provided in Z axis movement mould group 12, positioning plate 6 is equipped with laser cutting head 7, is additionally provided on positioning plate 6 Through-hole 601, the reflected light of the first reflecting mirror 16 are received after passing through through-hole 601 by laser cutting head 7.

Reflecting microscope group 18 includes third reflecting mirror 4 and the 4th reflecting mirror 5, and third reflecting mirror 4 is for receiving the hair of laser 10 The laser penetrated, the 4th reflecting mirror 5 are used to receive the reflected light of third reflecting mirror 4, and the first reflecting mirror 16 is for receiving the 4th reflection The reflected light of mirror 5.

Lower platform 203 is equipped with X/Y axis and moves mould group 9, and X/Y axis moves mould group 9 and is equipped with objective table 8, and objective table 8 is located at The lower section of laser scanning galvanometer 13 and laser cutting head 7.

Workbench 2 is equipped with steel structure rack 3, and Steel Structure structure includes feet 305, lower frame 304, bottom plate 303, column 302 With upper frame 301, feet 305 is equipped with lower frame 304, and lower frame 304 is connect by column 302 with upper frame 301, upper frame 301 connect with workbench 2, and lower frame 304 is equipped with bottom plate 303；Workbench 2 is workbench 2 made of marble, feet 305 Quantity be 4, the quantity of column 302 is 4.

Cabinet 1 includes case lid 101, upper box 102 and lower box 103, and case lid 101 and upper box 102 are hinged, upper box 102 are equipped with opening 1021, and workbench 2 is arranged in upper box 102, and upper box 102 is connect with lower box 103.

In short, the above is only the preferred embodiment of the present invention, it is all according to present utility model application the scope of the patents institute The equivalent changes and modifications of work should all belong to the covering scope of the utility model patent.

Claims (7)

1. laser scribing all-in-one machine, including cabinet (1), cabinet (1) is interior to be equipped with workbench (2), and workbench (2) includes lower platform (203), supporting block (202) and upper mounting plate (201), lower platform (203) are equipped with supporting block (202), and supporting block (202) is equipped with Upper mounting plate (201), it is characterised in that: upper mounting plate (201) is equipped with Z axis movement mould group (12) and refracting telescope fixed plate (11), Z axis It moving mould group (12) and is equipped with bracket (14), bracket (14) is equipped with laser scanning galvanometer (13) and cylinder slide unit component (15), Cylinder slide unit component (15) is equipped with the second reflecting mirror (17), and refracting telescope fixed plate (11) is equipped with the first reflecting mirror (16), on Laser (10) and reflection microscope group (18) are additionally provided on platform (201), reflection microscope group (18) is for receiving laser (10) transmitting Laser, the first reflecting mirror (16) be used for receives reflection microscope group (18) reflected light, the second reflecting mirror (17) for reception first The reflected light of reflecting mirror (16), laser scanning galvanometer (13) are used to receive the reflected light of the second reflecting mirror (17).

2. laser scribing all-in-one machine according to claim 1, it is characterised in that: cylinder slide unit component (15) includes slide (1503), cylinder (1502) and sliding block (1501), slide (1503) are equipped with cylinder (1502), and cylinder (1502) drives sliding block (1501) it is moved on slide (1503), sliding block (1501) is equipped with the second reflecting mirror (17)；Bracket (14) includes the first plate body (1401) and the second plate body (1403), laser scanning galvanometer (13) and cylinder slide unit component (15) are separately positioned on the first plate body (1401) both ends, the first plate body (1401) are equipped with the second plate body (1403), and the second plate body (1403) is equipped with circular hole (1402), the reflected light of the second reflecting mirror (17) is received after passing through circular hole (1402) by laser scanning galvanometer (13).

3. laser scribing all-in-one machine according to claim 1, it is characterised in that: it is fixed to be additionally provided in Z axis movement mould group (12) Position plate (6), positioning plate (6) are equipped with laser cutting head (7), are additionally provided with through-hole (601), the first reflecting mirror on positioning plate (6) (16) reflected light is received after passing through through-hole (601) by laser cutting head (7).

4. laser scribing all-in-one machine according to claim 1, it is characterised in that: reflection microscope group (18) includes third reflecting mirror (4) and the 4th reflecting mirror (5), third reflecting mirror (4) are used to receive the laser of laser (10) transmitting, and the 4th reflecting mirror (5) is used In the reflected light for receiving third reflecting mirror (4), the first reflecting mirror (16) is used to receive the reflected light of the 4th reflecting mirror (5).

5. laser scribing all-in-one machine according to claim 1, it is characterised in that: lower platform (203) is moved equipped with X/Y axis Mould group (9), X/Y axis move mould group (9) and are equipped with objective table (8), and objective table (8) is located at laser scanning galvanometer (13) and laser is cut Cut the lower section of head (7).

6. laser scribing all-in-one machine according to claim 1, it is characterised in that: workbench (2) is equipped with steel structure rack (3), Steel Structure structure includes feet (305), lower frame (304), bottom plate (303), column (302) and upper frame (301), feet (305) lower frame (304) are equipped with, lower frame (304) is connect by column (302) with upper frame (301), upper frame (301) It is connect with workbench (2), lower frame (304) is equipped with bottom plate (303)；Workbench (2) is workbench (2) made of marble, The quantity of feet (305) is 4, and the quantity of column (302) is 4.

7. laser scribing all-in-one machine according to claim 1, it is characterised in that: cabinet (1) includes case lid (101), top box Body (102) and lower box (103), hingedly, upper box (102) is equipped with opening (1021) for case lid (101) and upper box (102), In upper box (102), upper box (102) is connect with lower box (103) for workbench (2) setting.