CN205650954U - Saw blade laser cutting machine - Google Patents

Abstract

The utility model discloses a saw blade laser cutting machine, including workstation subassembly, laser instrument, laser instrument lathe bed, wherein the workstation subassembly is in the same place with the aggregate erection of laser instrument lathe bed. The laser instrument lathe bed includes the laser cutting head and can drive X kinematic axis, Z kinematic axis, the Y kinematic axis that the laser cutting head carries out three -dimensional moving that the workstation subassembly includes working table frame frame, preceding vice pincers, manual hold -down mechanism, the vice pincers in back, saw blade drive assembly, cutting locating component and saw blade locating component. Preceding vice pincers and back pair pincers have been installed to the both ends of working table frame frame, have installed cutting locating component, manual hold -down mechanism, saw blade locating component in proper order between pair pincers of vice pincers and back in the front, still install the saw blade drive assembly that can stimulate the saw blade on the working table frame frame. Realized to the saw blade automize, the cutting of high accuracy, high efficiency.

Description

A kind of saw blade laser cutting machine

Technical field

The present invention relates to laser cutting machine technical field, especially a kind of saw blade laser cutting machine.

Background technology

Published Chinese patent application " the laser cutting device of bands for band material " (application number: 201220636573.X) discloses the sawtooth laser cutting device of a kind of saw blade, its main defect is that automaticity is relatively low, for different size saw blade sawtooth be cut with certain difficulty, not to waste gas, waste residue etc. propose system solution.

In actual production, need the saw blade sawtooth laser cutting machine that a kind of machining accuracy, working (machining) efficiency, automaticity are high.

Utility model content

This utility model provides a kind of machining accuracy, working (machining) efficiency, saw blade laser cutting machine that automaticity is high, including following technology contents.

A kind of saw blade laser cutting machine, including table assembly, laser instrument, laser instrument lathe bed, wherein table assembly is combined and installed together with laser instrument lathe bed；

Described laser instrument lathe bed includes laser cutting head and the X kinematic axis that laser cutting head can be driven to carry out three-dimensional motion, Z kinematic axis, Y motion axle, and X kinematic axis is installed on Y motion axle, and Z kinematic axis is installed on X kinematic axis, and laser cutting head is installed on Z kinematic axis；

Described table assembly includes that table frame, front secondary pincers, manual compression mechanism, rear secondary pincers, saw blade drive assembly, cutting positioning component and saw blade positioning component；

The two ends of described table frame are equiped with front secondary pincers and rear secondary pincers, are equiped with cutting positioning component, manual compression mechanism, saw blade positioning component successively between front secondary pincers and rear secondary pincers, and the saw blade that table frame is also equiped with stretchy saw blade drives assembly.

Further, described saw blade drives assembly to include the first main pincers, the second main pincers, slide unit kinematic axis and slide unit；

Described slide unit kinematic axis is installed on table frame, and described slide unit is installed on slide unit kinematic axis, and described first main pincers and the second main pincers are fixed on slide unit.

Further, described first main pincers include on the first main pincers fixed frame, the first main pincers binder cylinder, the first main pincers binder block under binder block and the first main pincers；

Under first main pincers binder cylinder and the first main pincers, binder block is fixed in the first main pincers fixed frame, binder block and the first main pincers binder cylinders on the first main pincers；

The structure of described second main pincers and the first main pincers is identical.

Further, described cutting positioning component includes auxiliary positioning mechanism and pneumatic clamping mechanism；

Described auxiliary positioning mechanism includes auxiliary positioning mechanism body, the first locating fork, the second locating fork, the first location wheel, the second location wheel；

Being machined with the first locating fork and the second locating fork in described auxiliary positioning mechanism body, be equiped with the first location wheel in the first locating fork, the second locating fork is equiped with the second location wheel；

Described pneumatic clamping mechanism includes pneumatic clamping cylinder, pneumatic clamping mechanism gathering sill, pneumatic clamping mechanism slide block and Pneumatic pressure bearing up pulley；

Described pneumatic clamping mechanism slide block be installed in pneumatic clamping mechanism gathering sill and with pneumatic clamping cylinders, described Pneumatic pressure bearing up pulley is installed on pneumatic clamping mechanism slide block.

Further, being machined with projection in described pneumatic clamping mechanism gathering sill, described pneumatic clamping mechanism gathering sill both sides are equiped with the raised line of hard alloy.

Further, manual compression mechanism includes manual compression mechanism body, screw, upper roller and bottom roller；

Described upper roller and bottom roller are installed in manual compression mechanism body, and described screw is through manual compression mechanism body and can prop up upper roller.

Further, described saw blade positioning component includes the first detent mechanism and the second detent mechanism；

Described first detent mechanism includes positioning cylinder, detent mechanism gathering sill, detent mechanism slide block and detent mechanism pulley；

In described detent mechanism slide block is installed in detent mechanism gathering sill and being connected with positioning cylinder, described detent mechanism pulley is installed on detent mechanism slide block；

The structure of the second detent mechanism and the first detent mechanism is identical.

Further, before described secondary pincers before including secondary pincers fixed frame, front secondary pincers binder cylinder, the front upper binder block of secondary pincers, the front lower binder block of secondary pincers and auxiliary draw material cylinder；

Described front secondary pincers fixed frame is installed in auxiliary and draws on material cylinder；

Secondary pincers binder cylinder and the lower binder block of front secondary pincers before being fixed with in secondary pincers fixed frame before described, the front upper binder block of secondary pincers and front secondary pincers binder cylinders；

The structure of rear secondary pincers is identical with front secondary pincers.

Further, described table frame is also equiped with waste material bucket and waste gas drawing mechanism；

Described waste gas drawing mechanism is installed in below cutting positioning component, and described waste material bucket is installed in below waste gas drawing mechanism；

It is provided with garbage collection car below described waste material bucket.

Compared with prior art, this utility model has the advantage that

This saw blade laser cutting machine includes table assembly, laser instrument, laser instrument lathe bed, wherein table assembly is combined and installed together with laser instrument lathe bed, cut can not only be realized increasingly automated, and can need to cut out the sawtooth of different sizes and shapes according to concrete.Before being equiped with on the table frame of this saw blade laser cutting machine, secondary pincers, manual compression mechanism, rear secondary pincers, saw blade drive assembly, cutting positioning component and saw blade positioning component, can realize being accurately positioned saw blade, ensure the precision of cutting.

Accompanying drawing explanation

Fig. 1 is the overview of this utility model a kind of saw blade laser cutting machine.

Fig. 2 is the laser instrument lathe bed structural map of this utility model a kind of saw blade laser cutting machine.

Fig. 3 is the table assembly structural map of this utility model a kind of saw blade laser cutting machine.

Fig. 4 is the front secondary pincers structural map of this utility model a kind of saw blade laser cutting machine.

Fig. 5 is the first main pincers structural map of this utility model a kind of saw blade laser cutting machine.

Fig. 6 is auxiliary positioning mechanism and the structural map of pneumatic clamping mechanism of this utility model a kind of saw blade laser cutting machine.

Fig. 7 is the structural map of the manual compression mechanism of this utility model a kind of saw blade laser cutting machine.

Fig. 8 is the structural map of the first detent mechanism of this utility model a kind of saw blade laser cutting machine.

Description of reference numerals: 100 table assemblies, 200 laser instrument, 300 laser instrument lathe beds, 400 saw blades；

310 X kinematic axiss, 320 Z kinematic axiss, 330 Y motion axles, 340 laser cutting heads；

101 table frames, secondary pincers before 103,104 first main pincers, 105 auxiliary positioning mechanisms, 106 pneumatic clamping mechanisms, 107 manual compression mechanisms, 108 second main pincers, 109 first detent mechanisms, 110 second detent mechanisms, secondary pincers after 111,113 slide unit kinematic axiss, 114 slide units, 115 garbage collection cars, 116 waste material buckets, 117 waste gas drawing mechanisms, 3844 saw blades driving assemblies, 0605 cut positioning component, 0910 saw blade positioning component；

Secondary pincers fixed frame before 1031, secondary pincers binder cylinder before 1032, the upper binder block of secondary pincers before 1033, the lower binder block of secondary pincers, 1035 auxiliary draw material cylinder before 1034；

Binder block under binder block, 1,044 first main pincers on 1041 first main pincers fixed frames, 1,042 first main pincers binder cylinders, 1,043 first main pincers；

1051 auxiliary positioning mechanism body, 1,052 first locating forks, 1,053 second locating forks, 1,054 second location wheels, 1,055 first location wheels；

1061 pneumatic clamping cylinders, 1062 pneumatic clamping mechanism gathering sills, 1063 pneumatic clamping mechanism slide blocks, 1064 Pneumatic pressure bearings up pulley, 1065 projections, 1066 raised lines；

1071 manual compression mechanism body, 1072 screws, 1073 upper rollers, 1074 bottom rollers；

1091 positioning cylinders, 1092 detent mechanism gathering sills, 1093 detent mechanism slide blocks, 1094 detent mechanism pulleys.

Detailed description of the invention

For the ease of understanding this utility model, below with reference to relevant drawings, this utility model is comprehensively described.But, this utility model can also use other multiple different forms to realize, however it is not limited to embodiment described herein.

Unless otherwise defined, the implication that terminology used herein is generally understood that with those skilled in the art is identical.

With reference to Fig. 1, a kind of saw blade laser cutting machine, including table assembly 100, laser instrument 200, laser instrument lathe bed 300, wherein table assembly 100 is combined and installed together with laser instrument lathe bed 300.Laser instrument 200 and laser instrument lathe bed 300 are for cutting saw blade 400.Table assembly 100 is used for being accurately positioned saw blade 400, and pulls saw blade 400 at the appropriate speed.

With reference to Fig. 2, laser instrument lathe bed 300 includes laser cutting head 340 and laser cutting head 340 can be driven to carry out the X kinematic axis 310 of three-dimensional motion, Z kinematic axis 320, Y motion axle 330.X kinematic axis 310 is installed on Y motion axle 330, and Z kinematic axis 320 is installed on X kinematic axis 310, and laser cutting head 340 is installed on Z kinematic axis 320.Cutting needs according to variety classes saw blade, X kinematic axis 310, Z kinematic axis 320 and Y motion axle 330 can drive laser cutting head 340 to carry out corresponding three-dimensional motion.

With reference to Fig. 3, table assembly 100 includes that table frame 101, front secondary pincers 103, manual compression mechanism 107, rear secondary pincers 111, saw blade drive assembly 3844, cutting positioning component 0605 and saw blade positioning component 0910.

The two ends of table frame 101 are equiped with front secondary pincers 103 and rear secondary pincers 111, being equiped with cutting positioning component 0605, manual compression mechanism 107, saw blade positioning component 0910 successively between front secondary pincers 103 and rear secondary pincers 111, the saw blade that table frame 101 is also equiped with stretchy saw blade 400 drives assembly 3844.

Wherein, saw blade drives assembly 3844 to include first main pincers the 104, second main pincers 108, slide unit kinematic axis 113 and slide unit 114.

Slide unit kinematic axis 113 is installed on table frame 101, and slide unit 114 is installed on slide unit kinematic axis 113, and the first main pincers 104 and the second main pincers 108 are fixed on slide unit 114.First main pincers 104 and the second main pincers 108 vise different parts at the two of saw blade 400 respectively, and when slide unit 114 moves on slide unit kinematic axis 113, the first main pincers 104 and the second main pincers 108 pull saw blade 400 to move.

Cutting positioning component 0605 includes auxiliary positioning mechanism 105 and pneumatic clamping mechanism 106, for being accurately positioned the cutting position of saw blade 400.

Saw blade positioning component 0910 includes the first detent mechanism 109 and the second detent mechanism 110, for positioning to saw blade 400.

Waste material bucket 116 and waste gas drawing mechanism 117 also it is equiped with on table frame 101.Waste gas drawing mechanism 117 is installed in below cutting positioning component 0605, for extracting the waste gas produced because of cut out.Waste material bucket 116 is installed in below waste gas drawing mechanism 117.Garbage collection car 115 it is provided with below waste material bucket 116.Waste material bucket 116 and garbage collection car 115 are for collecting the waste residue produced because of cut.

With reference to Fig. 4, front secondary pincers 103 include that under front secondary pincers fixed frame 1031, front secondary pincers binder cylinder 1032, the front upper binder block 1033 of pair pincers, front secondary pincers, binder block 1034 and auxiliary draw material cylinder 1035.

Front secondary pincers fixed frame 1031 is installed in auxiliary and draws on material cylinder 1035.Secondary pincers binder cylinder 1032 and the lower binder block 1034 of front secondary pincers before being fixed with in front secondary pincers fixed frame 1031, the front upper binder block 1033 of secondary pincers is connected with front secondary pincers binder cylinder 1032.

Front secondary pincers fixed frame 1031 can move along a straight line under auxiliary draws the pulling of material cylinder 1035.Before front secondary pincers binder cylinder 1032 can push down on, pair clamps upper binder block 1033, secondary above binder block 1033 and the spacing of binder block 1034 under front secondary pincers of clamping before reducing, and then compression saw blade 400.

The structure of rear secondary pincers 111 is identical with front secondary pincers 103.

With reference to Fig. 5, the first main pincers 104 include on first main pincers fixed frame 1041, first main pincers binder cylinder the 1042, first main pincers binder block 1044 under binder block 1043 and the first main pincers.

Under first main pincers binder cylinder 1042 and the first main pincers, binder block 1044 is fixed in the first main pincers fixed frame 1041, and on the first main pincers, binder block 1043 is connected with the first main pincers binder cylinder 1042.First main pincers binder cylinder 1042 can push down on binder block 1043 on the first main pincers, thus can reduce on the first main pincers the spacing of binder block 1044 under binder block 1043 and the first main pincers, plays the effect compressing saw blade 400.

Second main pincers (108) are identical with the structure of the first main pincers (104).

With reference to Fig. 6, cutting positioning component 0605 includes auxiliary positioning mechanism 105 and pneumatic clamping mechanism 106.

Auxiliary positioning mechanism 105 includes that auxiliary positioning mechanism body the 1051, first locating fork the 1052, second locating fork 1053, first positions wheel 1055, second and positions wheel 1054.

Being machined with the first locating fork 1052 and the second locating fork 1053 in auxiliary positioning mechanism body 1051, be equiped with the first location wheel 1055 in the first locating fork 1052, the second locating fork 1053 is equiped with the second location wheel 1054.

Pneumatic clamping mechanism 106 includes pneumatic clamping cylinder 1061, pneumatic clamping mechanism gathering sill 1062, pneumatic clamping mechanism slide block 1063 and Pneumatic pressure bearing up pulley 1064.

In pneumatic clamping mechanism slide block 1063 is installed in pneumatic clamping mechanism gathering sill 1062 and being connected with pneumatic clamping cylinder 1061, Pneumatic pressure bearing up pulley 1064 is installed on pneumatic clamping mechanism slide block 1063.

Auxiliary positioning mechanism 105 and pneumatic clamping mechanism 106 are arranged on the both sides of saw blade 400 side by side.Auxiliary positioning mechanism 105 maintains static, and the first locating fork 1052 thereon and the second locating fork 1053 fork the side of saw blade 400, and saw blade 400 props up the first location wheel 1055 and the second location wheel 1054.The pneumatic clamping cylinder 1061 of pneumatic clamping mechanism 106 can promote pneumatic clamping mechanism slide block 1063 to slide at pneumatic clamping mechanism gathering sill 1062.Pneumatic pressure bearing up pulley 1064 on pneumatic clamping mechanism slide block 1063 can prop up saw blade 400.Coordinated by auxiliary positioning mechanism 105 and pneumatic clamping mechanism 106, it is achieved saw blade 400 cutting part is accurately positioned.

Being machined with projection 1065 in pneumatic clamping mechanism gathering sill 1062, pneumatic clamping mechanism gathering sill 1062 both sides are equiped with raised line 1066.Projection 1065 is for limiting the moving range of slide block.Adding man-hour, saw blade 400 slides on raised line 1066.Raised line 1066 uses hard alloy, Wear-resistant, high-temperature resistant, it is to avoid saw blade 400 weares and teares pneumatic clamping mechanism gathering sill 1062.

With reference to Fig. 7, manual compression mechanism 107 includes manual compression mechanism body 1071, screw 1072, upper roller 1073 and bottom roller 1074.

Upper roller 1073 and bottom roller 1074 are installed in manual compression mechanism body 1071, and screw 1072 is through manual compression mechanism body 1071 and can prop up upper roller 1073.Saw blade 400 slides between upper roller 1073 and bottom roller 1074.Screw 1072 is used for locking upper roller 1073 so that produce suitable frictional force between saw blade 400 and upper roller 1073 and bottom roller 1074.

With reference to Fig. 8, saw blade positioning component 0910 includes the first detent mechanism 109 and the second detent mechanism 110.

First detent mechanism 109 includes positioning cylinder 1091, detent mechanism gathering sill 1092, detent mechanism slide block 1093 and detent mechanism pulley 1094.In detent mechanism slide block 1093 is installed in detent mechanism gathering sill 1092 and being connected with positioning cylinder 1091, detent mechanism pulley 1094 is installed on detent mechanism slide block 1093.The structure of rear secondary pincers 111 is identical with front secondary pincers 103.

First detent mechanism 109 props up the side of saw blade 400, and the second detent mechanism 110 props up the opposite side of saw blade 400.First detent mechanism 109 coordinates with the second detent mechanism 110, for the location of saw blade 400.

The workflow of this saw blade laser cutting machine is:

S1, saw blade 400 are through front secondary pincers the 103, first main pincers 104, manual compression mechanism the 107, second main pincers 108 and rear secondary pincers 111.

S2, turn the screw 1072 of manual compression mechanism 107 so that saw blade 400 is by suitable frictional force.

S3, on the basis of the first of auxiliary positioning mechanism 105 the location wheel 1055 and the second location wheel 1054, pneumatic clamping cylinder 1061 promotes the Pneumatic pressure bearing up pulley 1064 on pneumatic clamping mechanism slide block 1063, positions to the cutting part 400 of saw blade.

S4, the first detent mechanism 109 coordinate with the second detent mechanism 110, the benchmark of orientating as to saw blade 400 with auxiliary positioning mechanism 105 and pneumatic clamping mechanism 106, the afterbody of location saw blade 400 so that saw blade 400 can keep linear motion.

Before S5, locking, secondary pincers 103 and rear secondary pincers 111, front secondary pincers 103 and rear secondary pincers 111 move round about so that saw blade 400 tensioning, in order to it is accurately fixed by the first main pincers 104 and the second main pincers 108.

S6, locking the first main pincers 104 and the second main pincers 108, accurately fix saw blade.

S7, front secondary pincers 103 and rear secondary pincers 111 loosen, but keep the suitable frictional force to saw blade 400.

S8, startup laser cutting system, laser cutting head 340 carries out the three-dimensional motion that program is preset under the driving of X kinematic axis 310, Z kinematic axis 320 and Y motion axle 330, laser cutting head 340 cutting saw blade 400, slide unit 114 moves on slide unit kinematic axis 113 simultaneously, first main pincers 104 and the second main pincers 108 pull saw blade 400 to move, and laser cutting head 340 is that saw blade 400 cuts out the sawtooth closing rule continuously.

This utility model mainly has a following beneficial effect:

1, this saw blade laser cutting machine is equiped with and laser cutting head 340 can be driven to carry out the X kinematic axis 310 of three-dimensional motion, Z kinematic axis 320 and Y motion axle 330, cut can not only be realized increasingly automated, and can need to cut out the sawtooth of different sizes and shapes according to concrete.

2, before being equiped with on the table frame 101 of this saw blade laser cutting machine, secondary pincers 103, manual compression mechanism 107, rear secondary pincers 111, saw blade drive assembly 3844, cutting positioning component 0605 and saw blade positioning component 0910, can realize saw blade is accurately positioned, ensure the precision of cutting.

3, waste material bucket 116 and waste gas drawing mechanism 117 also it are equiped with on table frame 101 so that produce more safely and convenient.

Above-described embodiment is this utility model preferably embodiment; but embodiment of the present utility model is also not restricted to the described embodiments; other any without departing from the change made under spirit of the present utility model and principle, modify, substitute, combine, simplify; all should be the substitute mode of equivalence, within being included in protection domain of the present utility model.

Claims (9)

1. a saw blade laser cutting machine, it is characterized in that: including table assembly (100), laser instrument (200), laser instrument lathe bed (300), wherein table assembly (100) is combined and installed together with laser instrument lathe bed (300)；

Described laser instrument lathe bed includes laser cutting head and the X kinematic axis that laser cutting head can be driven to carry out three-dimensional motion, Z kinematic axis, Y motion axle, and X kinematic axis is installed on Y motion axle, and Z kinematic axis is installed on X kinematic axis, and laser cutting head is installed on Z kinematic axis；

Described table assembly (100) includes table frame (101), front secondary pincers (103), manual compression mechanism (107), rear secondary pincers (111), saw blade drives assembly (3844), cutting positioning component (0605) and saw blade positioning component (0910), the two ends of described table frame (101) are equiped with front secondary pincers (103) and rear secondary pincers (111), cutting positioning component (0605) it is equiped with successively between front secondary pincers (103) and rear secondary pincers (111), manual compression mechanism (107), saw blade positioning component (0910), the saw blade being also equiped with stretchy saw blade on table frame (101) drives assembly (3844).

2. saw blade laser cutting machine as claimed in claim 1, it is characterised in that: described saw blade drives assembly (3844) to include the first main pincers (104), the second main pincers (108), slide unit kinematic axis (113) and slide unit (114)；

Described slide unit kinematic axis (113) is installed on table frame (101), described slide unit (114) is installed on slide unit kinematic axis (113), and described first main pincers (104) and the second main pincers (108) are fixed on slide unit (114).

3. saw blade laser cutting machine as claimed in claim 2, it is characterised in that: described first main pincers (104) include on the first main pincers fixed frame (1041), the first main pincers binder cylinder (1042), the first main pincers binder block (1044) under binder block (1043) and the first main pincers；

In under first main pincers binder cylinder (1042) and the first main pincers, binder block (1044) is fixed on the first main pincers fixed frame (1041), on the first main pincers, binder block (1043) is connected with the first main pincers binder cylinder (1042)；

Described second main pincers (108) are identical with the structure of the first main pincers (104).

4. saw blade laser cutting machine as claimed in claim 1, it is characterised in that: described cutting positioning component (0605) includes auxiliary positioning mechanism (105) and pneumatic clamping mechanism (106)；

Described auxiliary positioning mechanism (105) includes auxiliary positioning mechanism body (1051), the first locating fork (1052), the second locating fork (1053), the first location wheel (1055), the second location wheel (1054)；

The first locating fork (1052) and the second locating fork (1053) it is machined with on described auxiliary positioning mechanism body (1051), being equiped with the first location wheel (1055) in first locating fork (1052), the second locating fork (1053) is equiped with the second location wheel (1054)；

Described pneumatic clamping mechanism (106) includes pneumatic clamping cylinder (1061), pneumatic clamping mechanism gathering sill (1062), pneumatic clamping mechanism slide block (1063) and Pneumatic pressure bearing up pulley (1064)；

In described pneumatic clamping mechanism slide block (1063) is installed in pneumatic clamping mechanism gathering sill (1062) and being connected with pneumatic clamping cylinder (1061), described Pneumatic pressure bearing up pulley (1064) is installed in pneumatic clamping mechanism slide block (1063).

5. saw blade laser cutting machine as claimed in claim 4, it is characterized in that: be machined with projection (1065) in described pneumatic clamping mechanism gathering sill (1062), described pneumatic clamping mechanism gathering sill (1062) both sides are equiped with the raised line (1066) of hard alloy.

6. saw blade laser cutting machine as claimed in claim 1, it is characterised in that: manual compression mechanism (107) includes manual compression mechanism body (1071), screw (1072), upper roller (1073) and bottom roller (1074)；

Described upper roller (1073) and bottom roller (1074) are installed in manual compression mechanism body (1071), and described screw (1072) is through manual compression mechanism body (1071) and can prop up upper roller (1073).

7. saw blade laser cutting machine as claimed in claim 1, it is characterised in that: described saw blade positioning component (0910) includes the first detent mechanism (109) and the second detent mechanism (110)；

Described first detent mechanism (109) includes positioning cylinder (1091), detent mechanism gathering sill (1092), detent mechanism slide block (1093) and detent mechanism pulley (1094)；

In described detent mechanism slide block (1093) is installed in detent mechanism gathering sill (1092) and being connected with positioning cylinder (1091), described detent mechanism pulley (1094) is installed on detent mechanism slide block (1093)；

Second detent mechanism (110) is identical with the structure of the first detent mechanism (109).

8. saw blade laser cutting machine as claimed in claim 1, it is characterised in that: under before described, secondary pincers (103) include front secondary pincers fixed frame (1031), front secondary pincers binder cylinder (1032), the front upper binder block (1033) of pair pincers, front secondary pincers, binder block (1034) and auxiliary draw material cylinder (1035)；

Described front secondary pincers fixed frame (1031) are installed in auxiliary and draw on material cylinder (1035)；

Secondary pincers binder cylinder (1032) and the lower binder block (1034) of front secondary pincers before being fixed with in secondary pincers fixed frame (1031) before described, the front upper binder block (1033) of secondary pincers is connected with front secondary pincers binder cylinder (1032)；

The structure of rear secondary pincers (111) is identical with front secondary pincers (103).

9. saw blade laser cutting machine as claimed in claim 1, it is characterised in that: described table frame (101) is also equiped with waste material bucket (116) and waste gas drawing mechanism (117)；

Described waste gas drawing mechanism (117) is installed in cutting positioning component (0605) lower section, and described waste material bucket (116) is installed in waste gas drawing mechanism (117) lower section；

Described waste material bucket (116) lower section is provided with garbage collection car (115).