CN204039709U - A kind of laser embroidery machine - Google Patents

Abstract

The utility model discloses a kind of laser embroidery machine, comprise column, crossbeam, laser module, smoking protection assembly and transmission component, wherein, above-mentioned column comprises two, two column intervals are arranged, above-mentioned crossbeam is arranged between two columns, and the bottom of crossbeam is provided with embroidery platform, and on embroidery platform, at least two embroidery product are placed at interval; Laser module is arranged on crossbeam, and transmission component driving laser assembly moves around along crossbeam, to carry out laser engraving to the embroidery product on embroidery platform successively; Above-mentioned smoking assembly is arranged on the bottom of laser module, and smoking assembly moves up and down embroidery product to be covered, and extracts the smog of laser engraving generation out.The utility model, by embroidery machine and laser machine integrated design, realize embroidery and laser engraving function, and transmission is precisely stablized simultaneously, and laser work area is large, and safety coefficient is high and little on working environment impact.

Description

A kind of laser embroidery machine

Technical field

The utility model relates to laser equipment, refers in particular to a kind of laser embroidery machine.

Background technology

Embroidery is the general name of the various decorative patterns embroidered on fabric of needlework.Embroidery point silk thread embroidery and feather embroider two kinds.Be exactly with pin by the puncture on embroidery material with certain pattern and color of silk thread or other fibers, yarn, to stitch the drapery that mark is formed decorative pattern.It is the one art be added on the designing and making of pin and bundle of lines people on the fabric of any existence.Embroidery is one of folks of china traditional handicraft, has 2000 or three thousand years history at least in China.Along with the progress of science and technology, traditional hand embroidering gradually by machine embroider replace, the machine that can carry out embroidering is embroidery machine, and embroidery machine achieves the high speed of embroidery, high efficiency.

After stinging pattern by embroidery operation on fabric, pattern is carved by the laser machine separately established by general needs, in practical operation, fabric is needed to take off from embroidery workbench, again the fabric taken off is placed on the workbench of laser machine, carry out laser engraving, because embroidery machine is generally embroider to reaching tens fabrics simultaneously, therefore above-mentioned production technology is very large for the labour intensity of operator, and production efficiency is low, fabric carries fragile in moving process making dirty, is not suitable for modern industrialization and produces.

In addition, laser engraving machine and laser marking machine carry out carving on material and mark work time, it is generally the operating path by prior setting laser head, and then by laser instrument, laser marking or laser engraving are carried out to object, the travel paths of laser instrument is comparatively accurate, existing equipment lacks laser protector, to protect laser works; And during laser head work, often produce smog, smog enters in working environment, the normal operating affecting operator is produced, and pollutes working environment.Further, conventional laser only can move up and down, and moves down material to carry out work, on move away material to carry out lower task, the mobile accuracy of laser instrument is poor, and transmission is unstable, and can only move up and down, the work area of laser instrument is fixed, and work area is little.

Utility model content

The technical problems to be solved in the utility model is for above-mentioned the deficiencies in the prior art, there is provided a kind of by embroidery machine and laser machine integrated design, realize embroidery and laser engraving function simultaneously, and transmission is precisely stablized, laser work area is large, and safety coefficient is high and affect little laser embroidery machine to working environment.

The technical scheme that the utility model is taked is as follows: a kind of laser embroidery machine, comprise column, crossbeam, laser module, smoking protection assembly and transmission component, wherein, above-mentioned column comprises spaced two, above-mentioned crossbeam is arranged between two columns, the bottom of crossbeam is provided with embroidery platform, and on embroidery platform, at least two embroidery product are placed at interval; Laser module is arranged on crossbeam, and transmission component driving laser assembly moves around along crossbeam, to carry out laser engraving to the embroidery product on embroidery platform successively; Above-mentioned smoking assembly is arranged on the bottom of laser module, and smoking assembly moves up and down embroidery product to be covered, and extracts the smog of laser engraving generation out.

Preferably, described crossbeam anterior end surface is provided with linear guide, and the rear side end face of laser module is provided with line slideway, and line slideway embeds in linear guide, and linearly guide moves around.

Preferably, described transmission component comprises servomotor, reductor, gear and tooth bar, and wherein, above-mentioned servomotor is arranged on the upper end of laser module, and the bottom of servomotor is connected with reductor; Said gear is connected with the output shaft of reductor, and servomotor is rotated by reductor driven wheel; Above-mentioned tooth bar is arranged on the top of crossbeam, and arranges along the axis of crossbeam, and rack and pinion engages, and gear rotarily drives laser module and moves back and forth along the axial direction of crossbeam.

Preferably, described laser module comprises installing plate, sliding seat, guide, laser instrument, lifting assembly and housing, and wherein, above-mentioned enclosure interior is cavity structure; Above-mentioned installing plate is fixed on housing; Sliding seat is arranged on the bottom of installing plate, and the biside plate of sliding seat is provided with guide rail, and guide rail is embedded with guide; Above-mentioned guide is obliquely installed, and is fixed on housing, and guide rail slidably reciprocates along guide, to drive sliding seat to move; Above-mentioned laser instrument is arranged in sliding seat, and moves with sliding seat; Above-mentioned lifting assembly comprises fixation kit and movable component, fixation kit is fixing on a mounting board, and movable component is fixed in sliding seat, is connected between fixation kit and movable component by screw mandrel, screw mandrel rotarily drives movable component and moves back and forth along screw mandrel, to drive sliding seat to move back and forth.

Preferably, described movable component comprises nut seat installing plate, nut seat and screw, and wherein, above-mentioned nut seat installing plate is fixedly installed in sliding seat; Above-mentioned nut seat is arranged on nut seat installing plate; Above-mentioned screw is fixed on nut seat;

Described fixation kit comprises bearing mounting plate, bearing block, encoder, stepper motor seat and stepper motor, and wherein, above-mentioned bearing block mount pad is fixing on a mounting board, and bearing block is arranged on bearing mounting plate; Above-mentioned stepper motor seat is arranged on bearing block, and stepper motor is arranged on stepper motor seat, the lower end connection wire rod of stepper motor, the lower end of screw mandrel is stretched in screw, stepper motor drives screw mandrel to rotate, so that screw mandrel slides in screw, drives sliding seat to move up and down; Above-mentioned encoder is arranged on the bottom of stepper motor seat, and control step machine operation.

Preferably, described laser instrument is arranged on the rear portion of sliding seat, and the front portion of sliding seat arranges laser galvanometer scanning head, and the laser that laser instrument is launched is passed in laser galvanometer scanning head by refracted component.

Preferably, described refracted component comprises laser refraction mirror and laser refraction microscope base, and wherein, above-mentioned laser refraction microscope base is arranged on laser instrument, and laser refraction mirror is arranged on laser refraction microscope base, and can rotate around laser refraction microscope base, to adjust refraction angle.

Preferably, described smoking protection assembly comprises movable guard, fixed cover, mounting base, smoking assembly and driven unit, and wherein, above-mentioned mounting base is fixed on the housing of laser module, and mounting base has through hole; Above-mentioned fixed cover is fixed on the bottom of mounting base through hole, and is communicated with through hole; Above-mentioned smoking assembly is arranged on the top of mounting base through hole, and is connected with fixed cover; Above-mentioned movable guard is arranged on the bottom of fixed cover; movable guard is connected on mounting base by driven unit; driven unit drives movable guard to move up and down, to protect laser works, the cigarette that laser works produces enters in smoking assembly through movable guard and fixed cover and is discharged.

Preferably, described smoking assembly comprises large end joint guard shield, middle joint guard shield, small end joint guard shield and smoke exhaust pipe, and wherein, above-mentioned large end joint guard shield, middle joint guard shield and small end joint guard shield set gradually from the bottom to top; Above-mentioned smoke exhaust pipe is arranged on the top of small end joint guard shield; Above-mentioned large end joint guard shield is arranged on mounting base; The opening of above-mentioned large end joint guard shield, middle joint guard shield and small end joint guard shield is descending, and opening is arranged all down; The lower end of large end joint guard shield covers on the through hole of mounting base, and the smog that laser work produces enters in the guard shield of large end joint through this through hole, and upwards successively moves to the discharge of smoke exhaust pipe place.

Preferably, described driven unit comprises stepper motor, smoking screw, screw installing plate, smoking screw mandrel and optical axis, and wherein, above-mentioned optical axis comprises two, and two optical axises are through mounting base, and the lower end of optical axis is fixed in sliding seat; The two ends of above-mentioned screw installing plate are through two optical axises; Above-mentioned smoking screw mandrel through screw installing plate, and is connected by smoking screw with between screw installing plate, and smoking screw mandrel lower end arranges stepper motor, and driving stepper motor smoking screw mandrel rotates, and smoking screw is moved up and down along smoking screw mandrel, and drives movable guard to move; Be connected by shaft joint between above-mentioned stepper motor with smoking screw mandrel; Above-mentioned optical axis is respectively equipped with the first linear bearing and the second linear bearing.

The beneficial effects of the utility model are:

The utility model is a kind of innovative solution for prior art, embroidery workbench arranges crossbeam, the two ends of crossbeam are arranged on column, crossbeam is provided with laser module, fabric on the lower end aligned embroidery workbench of laser module, laser module moves back and forth along crossbeam under the driving of transmission component, to carry out laser engraving to fabric successively, thus avoid in traditional handicraft by fabric from embroidery workbench take off, be placed into the defect on laser machining process platform again, reduce the labour intensity of operator, improve operating efficiency, ensure that product quality.

In addition, laser module is by being arranged in mobilizable sliding seat by laser instrument and laser galvanometer scanning head, the biside plate of sliding seat is provided with slide rail, be embedded with guide respectively in slide rail, slide rail can move around along guide, thus sliding seat is moved along slide rail, and guide is obliquely installed, therefore sliding seat moves along favouring horizontal plane direction respectively, like this with regard to driving laser galvanometer scanning head also to move forward and backward while moving up and down, the scan area of probe is increased; Moved to drive sliding seat by the relative motion of screw mandrel and screw, screw mandrel connects stepper motor simultaneously, and driving stepper motor screw mandrel rotates, screw is slided along screw mandrel, and stepper motor connects encoder simultaneously, encoder control step machine operation, make transmission accurate, and there is stability.

Smoking protection assembly connects the mounting base of smoking guard shield on the housing of laser module, the bottom of mounting base arranges movable guard and fixed cover, the top of mounting base arranges smoking assembly, movable shield is connected on mounting base by transmission component, transmission component drives movable guard to slide up and down, when the laser module of laser machine works, under movable guard, general who has surrendered's laser module covers on its inside with processing object, to protect laser module work and to prevent smog leakage, the smog produced during laser module work is upwards discharged through movable guard, discharge through secure shroud and smoking assembly, reasonable in design, easy to operate, can ensure that laser module normally works, improve device security coefficient, and well can play smoke discharging effect, improve the quality of working environment.

Accompanying drawing explanation

Fig. 1 is perspective view of the present utility model.

Fig. 2 is side view of the present utility model.

Fig. 3 is one of perspective view of laser assembly in Fig. 1.

Fig. 4 is the perspective view two of laser assembly in Fig. 1.

Fig. 5 is one of perspective view of smoking protection assembly in Fig. 1.

Fig. 6 is the perspective view two of smoking protection assembly in Fig. 1.

Detailed description of the invention

Below in conjunction with accompanying drawing, the utility model is further described:

As shown in Figures 1 to 6, the technical scheme that the utility model is taked is as follows: a kind of laser embroidery machine, comprise column 1, crossbeam 2, laser module 3, smoking protection assembly 4 and transmission component, wherein, above-mentioned column 1 comprises spaced two, above-mentioned crossbeam 2 is arranged between two columns 1, and the bottom of crossbeam 2 is provided with embroidery platform, and on embroidery platform, at least two embroidery product are placed at interval; Laser module 3 is arranged on crossbeam 2, and transmission component driving laser assembly 3 moves around along crossbeam 2, to carry out laser engraving to the embroidery product on embroidery platform successively; Above-mentioned smoking assembly 4 is arranged on the bottom of laser module 3, and smoking assembly 4 moves up and down embroidery product to be covered, and extracts the smog of laser engraving generation out.

Crossbeam anterior end surface is provided with linear guide 8, and the rear side end face of laser module 3 is provided with line slideway 9, and line slideway 9 embeds in linear guide 8, and linearly guide 8 moves around.

Transmission component comprises servomotor 5, reductor 6, gear 10 and tooth bar 7, and wherein, above-mentioned servomotor 5 is arranged on the upper end of laser module 3, and the bottom of servomotor 5 is connected with reductor 6; Said gear 10 is connected with the output shaft of reductor 6, and servomotor 5 is rotated by reductor 6 driven wheel 10; Above-mentioned tooth bar 7 is arranged on the top of crossbeam 2, and arranges along the axis of crossbeam 2, and tooth bar 7 engages with gear 10, and gear 10 rotarily drives laser module 3 and moves back and forth along the axial direction of crossbeam 2.

Laser module 3 comprises installing plate 31, sliding seat 32, guide 33, laser instrument 34, lifting assembly and housing 310, and wherein, above-mentioned housing 310 inside is cavity structure; Above-mentioned installing plate 31 is fixing on the housing 310; Sliding seat 32 is arranged on the bottom of installing plate 31, the biside plate of sliding seat 32 is provided with guide rail 321, and guide rail 321 is embedded with guide 33; Above-mentioned guide 33 is obliquely installed, and fixes on the housing 310, and guide rail 321 slidably reciprocates along guide 33, to drive sliding seat 32 to move; Above-mentioned laser instrument 34 is arranged in sliding seat 32, and moves with sliding seat 32; Above-mentioned lifting assembly comprises fixation kit 37 and movable component 36, fixation kit 37 is fixed on installing plate 31, movable component 36 is fixed in sliding seat 32, connected by screw mandrel 39 between fixation kit 37 and movable component 36, screw mandrel 39 rotarily drives movable component 36 and moves back and forth along screw mandrel 39, to drive sliding seat 32 to move back and forth.

Movable component 36 comprises nut seat installing plate 361, nut seat 362 and screw 363, and wherein, above-mentioned nut seat installing plate 361 is fixedly installed in sliding seat 32; Above-mentioned nut seat 362 is arranged on nut seat installing plate 361; Above-mentioned screw 363 is fixed on nut seat 362;

Fixation kit 37 comprises bearing mounting plate 371, bearing block 372, encoder 373, stepper motor seat 374 and stepper motor 375, and wherein, above-mentioned bearing block mount pad 371 is fixed on installing plate 31, and bearing block 372 is arranged on bearing mounting plate 371; Above-mentioned stepper motor seat 374 is arranged on bearing block 372, stepper motor 375 is arranged on stepper motor seat 374, the lower end connection wire rod 39 of stepper motor 375, the lower end of screw mandrel 39 is stretched in screw 363, stepper motor 375 drives screw mandrel 39 to rotate, so that screw mandrel 39 slides in screw 363, sliding seat 32 is driven to move up and down; Above-mentioned encoder 373 is arranged on the bottom of stepper motor seat 374, and control step motor 375 works.

Laser instrument 34 is arranged on the rear portion of sliding seat 32, and the front portion of sliding seat 32 arranges laser galvanometer scanning head 35, and the laser that laser instrument 34 is launched is passed in laser galvanometer scanning head 35 by refracted component 38.

Refracted component 38 comprises laser refraction mirror 382 and laser refraction microscope base 381, wherein, above-mentioned laser refraction microscope base 381 is arranged on laser instrument 34, and laser refraction mirror 382 is arranged on laser refraction microscope base 381, and can rotate around laser refraction microscope base 381, to adjust refraction angle.

Smoking protection assembly 4 comprises movable guard 41, fixed cover 42, mounting base 43, smoking assembly and driven unit, and wherein, above-mentioned mounting base 43 is fixed on the housing 310 of laser module 3, and mounting base 43 has through hole; Above-mentioned fixed cover 42 is fixed on the bottom of mounting base 43 through hole, and is communicated with through hole; Above-mentioned smoking assembly is arranged on the top of mounting base 43 through hole, and is connected with fixed cover 42; Above-mentioned movable guard 41 is arranged on the bottom of fixed cover 42; movable guard 41 is connected on mounting base 43 by driven unit; driven unit drives movable guard 41 to move up and down; to protect laser works, the cigarette that laser works produces enters in smoking assembly through movable guard 41 and fixed cover 42 and is discharged.

Smoking assembly comprises large end joint guard shield 44, middle joint guard shield 45, small end joint guard shield 46 and smoke exhaust pipe 49, and wherein, above-mentioned large end joint guard shield 44, middle joint guard shield 45 and small end joint guard shield 46 set gradually from the bottom to top; Above-mentioned smoke exhaust pipe 49 is arranged on the top of small end joint guard shield 46; Above-mentioned large end joint guard shield 44 is arranged on mounting base 43; The opening of above-mentioned large end joint guard shield 44, middle joint guard shield 45 and small end joint guard shield 46 is descending, and opening is arranged all down; The lower end of large end joint guard shield 44 covers on the through hole of mounting base 43, and the smog that laser work produces enters in large end joint guard shield 44 through this through hole, and upwards successively moves to the discharge of smoke exhaust pipe 49 place.

Driven unit comprises stepper motor 410, smoking screw 412, screw installing plate 413, smoking screw mandrel 414 and optical axis 415, and wherein, above-mentioned optical axis 415 comprises two, and two optical axises 415 are through mounting base 43, and the lower end of optical axis 415 is fixed in sliding seat 41; The two ends of above-mentioned screw installing plate 413 are through two optical axises 415; Above-mentioned smoking screw mandrel 414 is through screw installing plate 413, and be connected by smoking screw 412 with between screw installing plate 413, smoking screw mandrel 414 lower end arranges stepper motor 410, stepper motor 410 drives smoking screw mandrel 414 to rotate, smoking screw 412 is moved up and down along smoking screw mandrel 414, and drives movable guard 41 to move; Above-mentioned stepper motor 410 is connected by shaft joint 411 with between smoking screw mandrel 414; Above-mentioned optical axis 415 is respectively equipped with the first linear bearing 47 and the second linear bearing 48.

Further, the utility model arranges crossbeam on embroidery workbench, the two ends of crossbeam are arranged on column, crossbeam is provided with laser module, fabric on the lower end aligned embroidery workbench of laser module, laser module moves back and forth along crossbeam under the driving of transmission component, to carry out laser engraving to fabric successively, thus avoid in traditional handicraft by fabric from embroidery workbench take off, be placed into the defect on laser machining process platform again, reduce the labour intensity of operator, improve operating efficiency, ensure that product quality.

In addition, laser module is by being arranged in mobilizable sliding seat by laser instrument and laser galvanometer scanning head, the biside plate of sliding seat is provided with slide rail, be embedded with guide respectively in slide rail, slide rail can move around along guide, thus sliding seat is moved along slide rail, and guide is obliquely installed, therefore sliding seat moves along favouring horizontal plane direction respectively, like this with regard to driving laser galvanometer scanning head also to move forward and backward while moving up and down, the scan area of probe is increased; Moved to drive sliding seat by the relative motion of screw mandrel and screw, screw mandrel connects stepper motor simultaneously, and driving stepper motor screw mandrel rotates, screw is slided along screw mandrel, and stepper motor connects encoder simultaneously, encoder control step machine operation, make transmission accurate, and there is stability.

Smoking protection assembly connects the mounting base of smoking guard shield on the housing of laser module, the bottom of mounting base arranges movable guard and fixed cover, the top of mounting base arranges smoking assembly, movable shield is connected on mounting base by transmission component, transmission component drives movable guard to slide up and down, when the laser module of laser machine works, under movable guard, general who has surrendered's laser module covers on its inside with processing object, to protect laser module work and to prevent smog leakage, the smog produced during laser module work is upwards discharged through movable guard, discharge through secure shroud and smoking assembly, reasonable in design, easy to operate, can ensure that laser module normally works, improve device security coefficient, and well can play smoke discharging effect, improve the quality of working environment.

Embodiment of the present utility model just introduces its detailed description of the invention, does not lie in and limits its protection domain.The technical staff of the industry can make some amendment under the inspiration of the present embodiment, therefore all equivalences done according to the utility model the scope of the claims change or modify, and all belong within the scope of the utility model Patent right requirement.

Claims (10)

1. a laser embroidery machine, it is characterized in that: comprise column (1), crossbeam (2), laser module (3), smoking protection assembly (4) and transmission component, wherein, above-mentioned column (1) comprises spaced two, above-mentioned crossbeam (2) is arranged between two columns (1), the bottom of crossbeam (2) is provided with embroidery platform, and on embroidery platform, at least two embroidery product are placed at interval; Laser module (3) is arranged on crossbeam (2), and transmission component driving laser assembly (3) moves around along crossbeam (2), to carry out laser engraving to the embroidery product on embroidery platform successively; Above-mentioned smoking assembly (4) is arranged on the bottom of laser module (3), and smoking assembly (4) moves up and down embroidery product to be covered, and extracts the smog of laser engraving generation out.

2. a kind of laser embroidery machine according to claim 1, it is characterized in that: described crossbeam anterior end surface is provided with linear guide (8), the rear side end face of laser module (3) is provided with line slideway (9), line slideway (9) embeds in linear guide (8), and linearly guide (8) moves around.

3. a kind of laser embroidery machine according to claim 2, it is characterized in that: described transmission component comprises servomotor (5), reductor (6), gear (10) and tooth bar (7), wherein, above-mentioned servomotor (5) is arranged on the upper end of laser module (3), and the bottom of servomotor (5) is connected with reductor (6); Said gear (10) is connected with the output shaft of reductor (6), and servomotor (5) is rotated by reductor (6) driven wheel (10); Above-mentioned tooth bar (7) is arranged on the top of crossbeam (2), and arranges along the axis of crossbeam (2), and tooth bar (7) engages with gear (10), and gear (10) rotarily drives laser module (3) and moves back and forth along the axial direction of crossbeam (2).

4. a kind of laser embroidery machine according to claim 3, it is characterized in that: described laser module (3) comprises installing plate (31), sliding seat (32), guide (33), laser instrument (34), lifting assembly and housing (310), wherein, above-mentioned housing (310) inside is cavity structure; Above-mentioned installing plate (31) is fixed on housing (310); Sliding seat (32) is arranged on the bottom of installing plate (31), the biside plate of sliding seat (32) is provided with guide rail (321), and guide rail (321) is embedded with guide (33); Above-mentioned guide (33) is obliquely installed, and is fixed on housing (310), and guide rail (321) slidably reciprocates along guide (33), to drive sliding seat (32) to move; Above-mentioned laser instrument (34) is arranged in sliding seat (32), and moves with sliding seat (32); Above-mentioned lifting assembly comprises fixation kit (37) and movable component (36), fixation kit (37) is fixed on installing plate (31), movable component (36) is fixed in sliding seat (32), connected by screw mandrel (39) between fixation kit (37) and movable component (36), screw mandrel (39) rotarily drives movable component (36) and moves back and forth along screw mandrel (39), to drive sliding seat (32) to move back and forth.

5. a kind of laser embroidery machine according to claim 4, it is characterized in that: described movable component (36) comprises nut seat installing plate (361), nut seat (362) and screw (363), wherein, above-mentioned nut seat installing plate (361) is fixedly installed in sliding seat (32); Above-mentioned nut seat (362) is arranged on nut seat installing plate (361); Above-mentioned screw (363) is fixed on nut seat (362);

Described fixation kit (37) comprises bearing mounting plate (371), bearing block (372), encoder (373), stepper motor seat (374) and stepper motor (375), wherein, above-mentioned bearing block mount pad (371) is fixed on installing plate (31), and bearing block (372) is arranged on bearing mounting plate (371); Above-mentioned stepper motor seat (374) is arranged on bearing block (372), stepper motor (375) is arranged on stepper motor seat (374), the lower end connection wire rod (39) of stepper motor (375), the lower end of screw mandrel (39) is stretched in screw (363), stepper motor (375) drives screw mandrel (39) to rotate, so that screw mandrel (39) slides in screw (363), sliding seat (32) is driven to move up and down; Above-mentioned encoder (373) is arranged on the bottom of stepper motor seat (374), and control step motor (375) work.

6. a kind of laser embroidery machine according to claim 5, it is characterized in that: described laser instrument (34) is arranged on the rear portion of sliding seat (32), the front portion of sliding seat (32) arranges laser galvanometer scanning head (35), and the laser that laser instrument (34) is launched is passed in laser galvanometer scanning head (35) by refracted component (38).

7. a kind of laser embroidery machine according to claim 6, it is characterized in that: described refracted component (38) comprises laser refraction mirror (382) and laser refraction microscope base (381), wherein, above-mentioned laser refraction microscope base (381) is arranged on laser instrument (34), laser refraction mirror (382) is arranged on laser refraction microscope base (381), and can rotate around laser refraction microscope base (381), to adjust refraction angle.

8. a kind of laser embroidery machine according to claim 7, it is characterized in that: described smoking protection assembly (4) comprises movable guard (41), fixed cover (42), mounting base (43), smoking assembly and driven unit, wherein, above-mentioned mounting base (43) is fixed on the housing (310) of laser module (3), and (43) have through hole to mounting base; Above-mentioned fixed cover (42) is fixed on the bottom of mounting base (43) through hole, and is communicated with through hole; Above-mentioned smoking assembly is arranged on the top of mounting base (43) through hole, and is connected with fixed cover (42); Above-mentioned movable guard (41) is arranged on the bottom of fixed cover (42); movable guard (41) is connected on mounting base (43) by driven unit; driven unit drives movable guard (41) to move up and down; to protect laser works, the cigarette that laser works produces enters in smoking assembly through movable guard (41) and fixed cover (42) and is discharged.

9. a kind of laser embroidery machine according to claim 8, it is characterized in that: described smoking assembly comprises large end joint guard shield (44), middle joint guard shield (45), small end joint guard shield (46) and smoke exhaust pipe (49), wherein, above-mentioned large end joint guard shield (44), middle joint guard shield (45) and small end joint guard shield (46) set gradually from the bottom to top; Above-mentioned smoke exhaust pipe (49) is arranged on the top in small end joint guard shield (46); Above-mentioned large end joint guard shield (44) is arranged on mounting base (43); The opening in above-mentioned large end joint guard shield (44), middle joint guard shield (45) and small end joint guard shield (46) is descending, and opening is arranged all down; The lower end of large end joint guard shield (44) covers on the through hole of mounting base (43), and the smog that laser work produces enters in large end joint guard shield (44) through this through hole, and upwards successively moves to the discharge of smoke exhaust pipe (49) place.

10. a kind of laser embroidery machine according to claim 9, it is characterized in that: described driven unit comprises stepper motor (410), smoking screw (412), screw installing plate (413), smoking screw mandrel (414) and optical axis (415), wherein, above-mentioned optical axis (415) comprises two, two optical axises (415) are through mounting base (43), and the lower end of optical axis (415) is fixed in sliding seat (41); The two ends of above-mentioned screw installing plate (413) are through two optical axises (415); Above-mentioned smoking screw mandrel (414) is through screw installing plate (413), and be connected by smoking screw (412) with between screw installing plate (413), smoking screw mandrel (414) lower end arranges stepper motor (410), stepper motor (410) drives smoking screw mandrel (414) to rotate, smoking screw (412) is moved up and down along smoking screw mandrel (414), and drives movable guard (41) to move; Be connected by shaft joint (411) between above-mentioned stepper motor (410) with smoking screw mandrel (414); Above-mentioned optical axis (415) is respectively equipped with the first linear bearing (47) and the second linear bearing (48).