CN206632531U - double-head laser cutter - Google Patents
double-head laser cutter Download PDFInfo
- Publication number
- CN206632531U CN206632531U CN201720391513.9U CN201720391513U CN206632531U CN 206632531 U CN206632531 U CN 206632531U CN 201720391513 U CN201720391513 U CN 201720391513U CN 206632531 U CN206632531 U CN 206632531U
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- Prior art keywords
- laser
- cutting head
- laser cutting
- guide rail
- sliding block
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- 230000005540 biological transmission Effects 0.000 claims abstract description 94
- 238000003698 laser cutting Methods 0.000 claims abstract description 86
- 238000005520 cutting process Methods 0.000 claims abstract description 32
- 238000009434 installation Methods 0.000 claims description 9
- 230000003287 optical effect Effects 0.000 claims description 9
- 230000001360 synchronised effect Effects 0.000 claims description 9
- 230000008878 coupling Effects 0.000 claims description 6
- 238000010168 coupling process Methods 0.000 claims description 6
- 238000005859 coupling reaction Methods 0.000 claims description 6
- 238000013500 data storage Methods 0.000 claims description 4
- 239000000758 substrate Substances 0.000 claims description 3
- 230000005611 electricity Effects 0.000 claims 1
- 238000004519 manufacturing process Methods 0.000 abstract description 4
- 239000000463 material Substances 0.000 description 6
- 238000010586 diagram Methods 0.000 description 4
- 238000000034 method Methods 0.000 description 2
- 230000009286 beneficial effect Effects 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 238000010147 laser engraving Methods 0.000 description 1
- 238000010330 laser marking Methods 0.000 description 1
- 238000003466 welding Methods 0.000 description 1
Abstract
It the utility model is related to a kind of double-head laser cutter, it is be arranged in parallel on the table to transmission device, Y-direction transmission device, laser tube I, laser tube II, laser cutting head I, laser cutting head II and controller, two Y-direction guide rails to sliding block II, Y-direction sliding block, X to slider I, X including workbench, X direction guiding rails, Y-direction guide rail, X;Guide X is arranged in Y-direction guide rail;Laser cutting head I, II it is arranged on respectively by X to slider I, II on X direction guiding rails;X, Y-direction transmission device is connected with X, Y-direction guide rail respectively;The focus lamp that the laser that laser tube I, II exports is refracted on laser cutting head I, II by reflective mirror I, II respectively;The utility model is by increasing the innovation structure of laser cutting head, control system and drive mechanism in common laser cutting machine, and control system controls two laser cutting heads cuttings during work, so as to greatly improve production efficiency and reduce cost of labor.
Description
Technical field
Laser process equipment technical field is the utility model is related to, more particularly to a kind of double-head laser cutter.
Background technology
Laser it is more and more ripe at present as a kind of new instrument apply to various industries, comprising laser cutting machine,
Laser engraving machine, laser marking machine, laser welding etc..So-called laser cutting discharges when being exactly and laser beam being irradiated into workpiece surface
Energy the workpiece is melted and is evaporated, to reach the purpose of cutting and engraving, have precision high, cutting is quick, is not limited to
The features such as cutting pattern limitation, Automatic Typesetting save material, and otch is smooth, and processing cost is low, gradually will improve or be replaced in biography
The cutting technique equipment of system.
The laser cutting machine of prior art, generally single cutting head, cutting big flower-shape(Graphic width is more than 1/2 width
Face)When more convenient practicality.But found in practical application, cutting pattern is small design when most(Length and width are small
In 1/4 breadth), it is low that single head cuts obvious efficiency, it is difficult to meets to require.And it can cause if thus new equipment is added
Production cost is substantially increased.
The content of the invention
The purpose of this utility model is to provide a kind of double-head laser cutter, and the double-head laser cutter can improve life
Producing efficiency reduces production cost.
To achieve the above object, the technical solution adopted in the utility model is as follows:A kind of double-head laser cutter, including work
Make platform, X direction guiding rails, Y-direction guide rail, X to slider I, X to sliding block II, Y-direction sliding block, X to transmission device, Y-direction transmission device, laser
Pipe I, laser tube II, laser cutting head I, laser cutting head II and controller, described Y-direction guide rail quantity are two, and in work
Make to be arranged in parallel on platform;The both ends of described X direction guiding rails are arranged in Y-direction guide rail by Y-direction sliding block;
Described laser cutting head I is arranged on X direction guiding rails by X to slider I, and one is fitted with laser cutting head I
Follow-up motor, the output shaft on follow-up motor are provided with travelling gear(31), described travelling gear(31)With X to transmission device
X be meshed to the tooth on transmission belt;
Described laser cutting head II is arranged on X direction guiding rails by X to sliding block II;
Described X is connected to transmission device with X direction guiding rails, and described Y-direction transmission device is connected with Y-direction guide rail;
On the table, the output end of corresponding laser tube I is provided with instead for installation side by side for described laser tube I, laser tube II
Light microscopic I, the output end of corresponding laser tube II are provided with reflective mirror II, and described reflective mirror I, reflective mirror II are filled by rotating respectively
Put I, tumbler II to be installed on workbench, the laser that laser tube I, laser tube II export passes through reflective mirror I, reflective mirror respectively
II refracts to laser cutting head I, the focus lamp on laser cutting head II;
Described X is to transmission device, Y-direction transmission device, laser cutting head I, laser cutting head II, follow-up motor, rotation
Device I, tumbler II are electrically connected with the controller respectively.
Preferably, described controller controls X to be controlled simultaneously to transmission device, the transmission of Y-direction drive mechanism
Tumbler I, tumbler II rotate so that the focus lamp, reflective mirror II and laser cutting of reflective mirror I and laser cutting head I
Focus lamp on first II remains synchronous, remains synchronous laser energy interrupted transmission to focus lamp.
Preferably, described X includes X to transmission belt, motor I, rotating shaft I to transmission device, and X is corresponded on described workbench
The opening position at the both ends of direction guiding rail sets two rotating shafts I, and described X is arranged on two rotating shafts I to transmission belt parallel to X direction guiding rails
On, X is connected with X to transmission belt to slider I, X to sliding block II;Described motor I is arranged on one end of X direction guiding rails, and output shaft leads to
Cross shaft coupling to be connected with rotating shafts I of the X to transmission belt one end, drive rotating shaft I to rotate, and then drive X to be rotated to transmission belt, drive X
Moved to slider I, X to sliding block II along X direction guiding rails direction.
Preferably, described Y-direction transmission device includes Y-direction transmission belt, motor II, rotating shaft II, optical axis, described workbench
The opening position at the both ends of upper corresponding Y-direction guide rail sets two rotating shafts II, and described Y-direction transmission belt sets two parallel to Y-direction guide rail
In root rotating shaft II, Y-direction transmission belt is connected with Y-direction sliding block;Described motor II is arranged on optical axis, and the both ends of optical axis pass through respectively
Shaft coupling is connected with the rotating shaft II of Y-direction transmission belt one end, drives rotating shaft II to rotate, and then drives Y-direction transmission belt to rotate, and drives Y
Moved to sliding block along Y-direction guide rail direction.
Preferably, workpiece mounting plate and drive device are set on described workbench, and drive device is arranged on workbench
Inner side, workpiece mounting plate is arranged on the upper plane of workbench by drive device, positioned at laser cutting head I, laser cutting head II
Underface;Workpiece mounting plate moves forward and backward under the driving of drive device.
Preferably, described drive device includes guide rail, guide rail installing plate, sliding block, rack, gear, motor;It is described
Guide rail quantity be two, be installed in parallel in by guide rail installing plate at left and right sides of the inside of workbench;Described rack installation
The top of a guide rail wherein, parallel to the installation direction of guide rail;Described sliding block quantity is two pieces, is separately mounted to guide rail
On;Described motor be arranged on rack the same side, by motor mounting plate be arranged on sliding block on, motor output shaft is vertical
Set down in rack;Described gear is connected on the output shaft of motor, and is engaged with rack;Described workpiece installation
Plate is arranged on the sliding block of left and right by connecting plate.
Preferably, described double-head laser cutter, in addition to capacitance sensor, described capacitance sensor are set respectively
Inside laser cutting head I, laser cutting head II, and it is connected with controller;For sensing cut substrate and laser in cutting process
The distance between cutting head I, laser cutting head II, and range data is transferred to controller, controller is according to the number received
According to stored record, for more flat X and Y-axis so that integral cutting face is horizontal.
Preferably, described double-head laser cutter, in addition to threading drag chain, described threading drag chain are used to install each company
Cable is connect, and is set respectively along X to slider I, X to the motion track of sliding block II and Y-direction sliding block.
Preferably, described double-head laser cutter, in addition to laser tube power meter and laser tube power tuning knob, it is described
Laser tube power meter is used for the power data for showing laser tube, and described laser tube power tuning knob is used for the power for adjusting laser tube
Size.
Preferably, described double-head laser cutter, in addition to wireless control system, described wireless control system include
Wireless router, mobile phone control terminal;Described mobile phone control terminal is connected to wireless router, controller by wireless network
It is connected with wireless router, receives the control signal of mobile phone control terminal, control laser cutting head I, laser cutting head II is cut
Work.
Operation principle of the present utility model:Controller according to the cutting pattern information set, control X to transmission device and
Y-direction transmission device is driven so that laser cutting head I, laser cutting head II move with Y-direction in X direction;Controller simultaneously
Control tumbler I rotates so that reflective mirror I remains synchronous with the focus lamp on laser cutting head I, and laser can be uninterrupted
Transmit to focus lamp, controller control tumbler II and rotate so that reflective mirror II begins with the focus lamp on laser cutting head II
Keep synchronous eventually, laser energy interrupted transmission to focus lamp, focus lamp turns into light collection a bit, and this point can reach
Very high temperature, so as to be cut to material;In cutting process, capacitance sensor, sensing cutting material is with being cut by laser
The distance between head, and range data is transferred to controller, controller records according to the data storage received, for relatively putting down
X and Y-axis so that integral cutting face is horizontal;In addition, control signal can be passed through by wireless router transmission by mobile phone control terminal
To controller, control double-head laser cutter work.
Need to adjust laser cutting head I and laser cutting head II in X to spacing on transmission belt when, pass through controller
Control the follow-up motor on laser cutting head I, follow-up motor band nutating gear(31)Rotated and reverse, laser cutting head
In X to moving on transmission belt.
After the completion of cutting, motor drives pinion rotation, and driving sliding block drives part installing plate to be slided along guide rail direction
Go out workbench, facilitate staff to remove the workpiece of well cutting;After staff loads onto workpiece to be cut, drive device is with same
Workpiece mounting plate is moved on workbench by the operation principle of sample.
The beneficial effects of the utility model:
1st, by increasing the innovation structure of laser cutting head, control system and drive mechanism, work in common laser cutting machine
Control system controls two laser cutting head cuttings when making, so as to greatly improve production efficiency and reduce cost of labor.
2nd, follow-up motor is installed on a laser cutting head wherein, passes through servo-actuated electronic travelling gear(31)Rotate,
The laser cutting head is set to be moved on timing belt to adjust the spacing of two laser cutting heads, thus can be to different size
Material is cut, and can ensure the cutting accuracy of laser cutting machine.
3rd, workpiece mounting plate is electric control structure, facilitates pickup and puts part, improves operating efficiency.
Brief description of the drawings
Fig. 1 is the utility model three-dimensional structure diagram
Fig. 2 is the utility model three-dimensional structure diagram
Fig. 3 is X to transmission device partial enlarged drawing
Fig. 4 is Y-direction transmission device partial enlarged drawing
Fig. 5 is the schematic diagram of workpiece mounting plate installation on the drive means
Fig. 6 is driving device structure schematic diagram
In figure:1- workbench;2-X direction guiding rails;3-Y direction guiding rails;4-X is to slider I;5-X is to sliding block II;6-Y is to sliding block;7-
X is to transmission device;8-Y is to transmission device;9- laser tubes I;10- laser tubes II;11- laser cutting heads I;12- laser cutting heads
Ⅱ;13- follow-up motors;14-X is to transmission belt;15- reflective mirrors I;16- reflective mirrors II;17- tumblers I;18- tumblers
Ⅱ;19- motors I;20- rotating shafts I;21- Y-direction transmission belts;22- motors II;23- rotating shafts II;24- optical axises;25- workpiece mounting plates;
26- drive devices;27- guide rails;28- guide rail installing plates;29- sliding blocks;30- racks;31- gears;32- motors;33- motors
Installing plate;34- connecting plates.
Embodiment
The utility model is described in detail with reference to specific embodiments and the drawings.
Embodiment 1
As shown in Figure 1,2,3, 4, a kind of double-head laser cutter, including workbench 1, X direction guiding rails 2, Y-direction guide rail 3, X to
Slider I 4, X are to sliding block II 5, Y-direction sliding block 6, X to transmission device 7, Y-direction transmission device 8, laser tube I 9, laser tube II 10, laser
Cutting head I 11, laser cutting head II 12 and controller, the described quantity of Y-direction guide rail 3 is two, and parallel on workbench 1 is set
Put;The both ends of described X direction guiding rails 2 are arranged in Y-direction guide rail 3 by Y-direction sliding block 6;
Described laser cutting head I 11 is arranged on X direction guiding rails 2 by X to slider I 4, is equipped with laser cutting head I 11
There is a follow-up motor 13, the output shaft on follow-up motor 13 is provided with travelling gear(31), described travelling gear(31)With X
It is meshed to the X of transmission device 7 to the tooth on transmission belt 14;
Described laser cutting head II 12 is arranged on X direction guiding rails 2 by X to sliding block II 5;
Described X is connected to transmission device 7 with X direction guiding rails 2, and described Y-direction transmission device 8 is connected with Y-direction guide rail 3;
Described laser tube I 9, laser tube II 10 are arranged on workbench 1 side by side, the output end installation of corresponding laser tube I 9
There is reflective mirror I 15, the output end of corresponding laser tube II 10 is provided with reflective mirror II 16, described reflective mirror I 15, reflective mirror II 16
It is installed on respectively by tumbler I 17, tumbler II 18 on workbench 1, the laser that laser tube I 9, laser tube II 10 export
Laser cutting head I 11, the focus lamp on laser cutting head II 12 are refracted to by reflective mirror I 15, reflective mirror II 16 respectively;
Described X is to transmission device 7, Y-direction transmission device 8, laser cutting head I 11, laser cutting head II 12, follow-up motor
13rd, tumbler I 17, tumbler II 18 are electrically connected with the controller respectively.
Transmissions of the described controller control X to transmission device 7, the transmission mechanism of Y-direction transmission device 8, while control rotation
Device I 17, tumbler II 18 rotate so that the focus lamp of reflective mirror I 15 and laser cutting head I 11, reflective mirror II 16 are with swashing
Focus lamp on light cutting head II 12 remains synchronous, remains synchronous laser energy interrupted transmission to focus lamp.
Described X includes X to transmission belt 14, motor I 19, rotating shaft I 20 to transmission device 7, corresponding on described workbench 1
The opening position at the both ends of X direction guiding rails 2 sets two rotating shafts I 20, and described X is arranged on two to transmission belt 14 parallel to X direction guiding rails 2
In root rotating shaft I 20, X is connected with X to transmission belt 14 to slider I 4, X to sliding block II 5;Described motor I 19 is arranged on X direction guiding rails 2
One end, output shaft is connected by shaft coupling with rotating shafts I 20 of the X to the one end of transmission belt 14, drives rotating shaft I 20 to rotate, and then band
Dynamic X rotates to transmission belt 14, and driving X moves to slider I 4, X to sliding block II 5 along the direction of X direction guiding rails 2.
Described Y-direction transmission device 8 includes Y-direction transmission belt 21, motor II 22, rotating shaft II 23, optical axis 24, described work
The opening position that the both ends of Y-direction guide rail 3 are corresponded on platform 1 sets two rotating shafts II 23, and described Y-direction transmission belt 21 is led parallel to Y-direction
Rail 3 is set in two rotating shafts II 23, and Y-direction transmission belt 21 is connected with Y-direction sliding block 6;Described motor II 22 is arranged on optical axis 24,
The both ends of optical axis 24 are connected by shaft coupling with the rotating shaft II 23 of the one end of Y-direction transmission belt 21 respectively, are driven rotating shaft II 23 to rotate, are entered
And driving Y-direction transmission belt 21 to rotate, driving Y-direction sliding block 6 moves along the direction of Y-direction guide rail 3.
As shown in Figure 5,6, workpiece mounting plate 25 and drive device 26, drive device 26 is set to pacify on described workbench 1
Mounted in the inner side of workbench 1, workpiece mounting plate 25 is arranged on the upper plane of workbench 1 by drive device 26, is cut positioned at laser
Cut the first I 11, underface of laser cutting head II 12;Workpiece mounting plate 25 moves forward and backward under the driving of drive device 26.
Described drive device 26 includes guide rail 27, guide rail installing plate 28, sliding block 29, rack 30, gear 31, motor
32;The described quantity of guide rail 27 is two, is installed in parallel in by guide rail installing plate 28 at left and right sides of the inside of workbench;It is described
30 installed therein guide rails 27 of rack top, parallel to the installation direction of guide rail 27;The described quantity of sliding block 29 is
Two pieces, it is separately mounted on guide rail 27;Described motor 32 be arranged on rack the same side, installed by motor mounting plate
33 on sliding block 29, and motor output shaft is set down perpendicular to rack 30;Described gear 31 is connected to the defeated of motor 32
On shaft, and engaged with rack 30;Described workpiece mounting plate 25 is arranged on left and right sliding block 29 by connecting plate 34.
Described double-head laser cutter, in addition to capacitance sensor, described capacitance sensor are separately positioned on laser
Inside cutting head I 11, laser cutting head II 12, and it is connected with controller;Cut for sensing cut substrate in cutting process with laser
Cut the distance between first I 11, laser cutting head II 12, and range data is transferred to controller, controller is according to receiving
Data storage records, for more flat X and Y-axis so that integral cutting face is horizontal.
Described double-head laser cutter, in addition to threading drag chain, described threading drag chain are used to install each connecting cable,
And set respectively along X to slider I 4, X to the motion track of sliding block II 5 and Y-direction sliding block 6.
Described double-head laser cutter, in addition to laser tube power meter and laser tube power tuning knob, described laser tube
Power meter is used for the power data for showing laser tube, and described laser tube power tuning knob is used for the watt level for adjusting laser tube.
Described double-head laser cutter, in addition to wireless control system, described wireless control system are included without circuit
By device, mobile phone control terminal;Described mobile phone control terminal is connected to wireless router by wireless network, controller with it is wireless
Router connects, and receives the control signal of mobile phone control terminal, control laser cutting head I 11, the cutter of laser cutting head II 12
Make.
Operation principle of the present utility model:Controller controls X to transmission device 7 according to the cutting pattern information set
It is driven with Y-direction transmission device 8 so that laser cutting head I 11, laser cutting head II 12 move with Y-direction in X direction;Together
When controller control tumbler I 17 rotate so that reflective mirror I 15 remains same with the focus lamp on laser cutting head I 11
Step, laser energy interrupted transmission to focus lamp, controller control tumbler II 18 are rotated so that reflective mirror II 16 is cut with laser
Cut the focus lamp on first II 12 and remain synchronous, laser energy interrupted transmission to focus lamp, focus lamp turns into light collection
A bit, and this point can reach very high temperature, so as to be cut to material;In cutting process, capacitance sensor, sense
It should cut the distance between material and laser cutting head, and range data is transferred to controller, controller is according to receiving
Data storage records, for more flat X and Y-axis so that integral cutting face is horizontal;In addition, it be able to will be controlled by mobile phone control terminal
Signal is transferred to controller, control double-head laser cutter work by wireless router.
Need to adjust laser cutting head I 11 and laser cutting head II 12 in X to spacing on transmission belt 14 when, pass through
Follow-up motor 13 on controller control laser cutting head I 11, follow-up motor 13 is with nutating gear(31)Rotate forward and anti-
Turn, laser cutting head I 11 is in X to moving on transmission belt 14.
After the completion of cutting, motor 32 rotates with moving gear 31, and driving sliding block 29 drives part installing plate 25 along leading
The direction of rail 27 skids off workbench 1, facilitates staff to remove the workpiece of well cutting;After staff loads onto workpiece to be cut,
Workpiece mounting plate 28 is moved on workbench 1 by drive device 26 with same operation principle.
Claims (10)
1. a kind of double-head laser cutter, including workbench(1), X direction guiding rails(2), Y-direction guide rail(3), X is to slider I(4), X to
Sliding block II(5), Y-direction sliding block(6), X is to transmission device(7), Y-direction transmission device(8), laser tube I(9), laser tube II(10), swash
Light cutting head I(11), laser cutting head II(12)And controller, it is characterised in that:Described Y-direction guide rail(3)Quantity is two,
And in workbench(1)On be arranged in parallel;Described X direction guiding rails(2)Both ends pass through Y-direction sliding block(6)Installed in Y-direction guide rail(3)
On;
Described laser cutting head I(11)By X to slider I(4)Installed in X direction guiding rails(2)On, laser cutting head I(11)On
It is fitted with a follow-up motor(13), follow-up motor(13)On output shaft be provided with travelling gear(31), described driving cog
Wheel(31)With X to transmission device(7)X to transmission belt(14)On tooth be meshed;
Described laser cutting head II(12)By X to sliding block II(5)Installed in X direction guiding rails(2)On;
Described X is to transmission device(7)With X direction guiding rails(2)Connection, described Y-direction transmission device(8)With Y-direction guide rail(3)Even
Connect;
Described laser tube I(9), laser tube II(10)It is arranged on workbench side by side(1)On, corresponding laser tube I(9)Output end
Reflective mirror I is installed(15), corresponding laser tube II(10)Output end reflective mirror II is installed(16), described reflective mirror I
(15), reflective mirror II(16)Pass through tumbler I respectively(17), tumbler II(18)It is installed on workbench(1)On, laser tube
Ⅰ(9), laser tube II(10)The laser of output passes through reflective mirror I respectively(15), reflective mirror II(16)Refract to laser cutting head I
(11), laser cutting head II(12)On focus lamp;
Described X is to transmission device(7), Y-direction transmission device(8), laser cutting head I(11), laser cutting head II(12), it is servo-actuated
Motor(13), tumbler I(17), tumbler II(18)It is electrically connected with the controller respectively.
2. double-head laser cutter according to claim 1, it is characterised in that:Described controller controls X to be filled to transmission
Put(7), Y-direction transmission device(8)The transmission of transmission mechanism, while control tumbler I(17), tumbler II(18)Rotate,
So that reflective mirror I(15)With laser cutting head I(11)Focus lamp, reflective mirror II(16)With laser cutting head II(12)On it is poly-
Burnt mirror remains synchronous, remains synchronous laser energy interrupted transmission to focus lamp.
3. double-head laser cutter according to claim 1, it is characterised in that:Described X is to transmission device(7)Including X
To transmission belt(14), motor I(19), rotating shaft I(20), described workbench(1)Upper corresponding X direction guiding rails(2)Both ends position
Place sets two rotating shafts I(20), described X is to transmission belt(14)Parallel to X direction guiding rails(2)It is arranged on two rotating shafts I(20)On,
X is to transmission belt(14)With X to slider I(4), X is to sliding block II(5)Connection;Described motor I(19)Installed in X direction guiding rails(2)'s
One end, output shaft is by shaft coupling and X to transmission belt(14)The rotating shaft I of one end(20)Connection, drive rotating shaft I(20)Rotate, enter
And X is driven to transmission belt(14)Rotate, drive X to slider I(4), X is to sliding block II(5)Along X direction guiding rails(2)Move in direction.
4. double-head laser cutter according to claim 1, it is characterised in that:Described Y-direction transmission device(8)Including Y
To transmission belt(21), motor II(22), rotating shaft II(23), optical axis(24), described workbench(1)Upper corresponding Y-direction guide rail(3)'s
The opening position at both ends sets two rotating shafts II(23), described Y-direction transmission belt(21)Parallel to Y-direction guide rail(3)Two are set to turn
Axle II(23)On, Y-direction transmission belt(21)With Y-direction sliding block(6)Connection;Described motor II(22)Installed in optical axis(24)On, light
Axle(24)Both ends pass through shaft coupling and Y-direction transmission belt respectively(21)The rotating shaft II of one end(23)Connection, drive rotating shaft II(23)
Rotate, and then drive Y-direction transmission belt(21)Rotate, drive Y-direction sliding block(6)Along Y-direction guide rail(3)Move in direction.
5. double-head laser cutter according to claim 1, it is characterised in that:Described workbench(1)Upper setting workpiece
Installing plate(25)And drive device(26), drive device(26)Installed in workbench(1)Inner side, workpiece mounting plate(25)Pass through
Drive device(26)Installed in workbench(1)Upper plane, positioned at laser cutting head I(11), laser cutting head II(12)Just
Lower section;Workpiece mounting plate(25)In drive device(26)Driving under move forward and backward.
6. double-head laser cutter according to claim 5, it is characterised in that:Described drive device(26)Including guide rail
(27), guide rail installing plate(28), sliding block(29), rack(30), gear(31), motor(32);Described guide rail(27)Number
Measure as two, pass through guide rail installing plate(28)It is installed in parallel at left and right sides of the inside of workbench;Described rack(30)Installation
A guide rail wherein(27)Top, parallel to guide rail(27)Installation direction;Described sliding block(29)Quantity is two pieces, point
An Zhuan not guide rail(27)On;Described motor(32)Installed in rack the same side, pass through motor mounting plate(33)Peace
Mounted in sliding block(29)On, motor output shaft is perpendicular to rack(30)Set down;Described gear(31)It is connected to motor
(32)Output shaft on, and and rack(30)Engagement;Described workpiece mounting plate(25)Pass through connecting plate(34)Installed in left and right
Sliding block(29)On.
7. double-head laser cutter according to claim 1, it is characterised in that:Also include capacitance sensor, described electricity
Hold sensor and be separately positioned on laser cutting head I(11), laser cutting head II(12)Inside, and be connected with controller;For cutting
Cut substrate and laser cutting head I are sensed during cutting(11), laser cutting head II(12)The distance between, and range data is passed
Controller is handed to, controller records according to the data storage received, for more flat X and Y-axis so that integral cutting face is horizontal.
8. double-head laser cutter according to claim 1, it is characterised in that:Also include threading drag chain, described threading
Drag chain is used to install each connecting cable, and respectively along X to slider I(4), X is to sliding block II(5)With Y-direction sliding block(6)Motion track
Set.
9. double-head laser cutter according to claim 1, it is characterised in that:Also include laser tube power meter and laser tube
Power tuning knob, described laser tube power meter are used for the power data for showing laser tube, and described laser tube power tuning knob is used for
Adjust the watt level of laser tube.
10. double-head laser cutter according to claim 1, it is characterised in that:Also include wireless control system, it is described
Wireless control system includes wireless router, mobile phone control terminal;Described mobile phone control terminal is connected to by wireless network
Wireless router, controller are connected with wireless router, receive the control signal of mobile phone control terminal, control laser cutting head I
(11), laser cutting head II(12)Cut work.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201720391513.9U CN206632531U (en) | 2017-04-14 | 2017-04-14 | double-head laser cutter |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201720391513.9U CN206632531U (en) | 2017-04-14 | 2017-04-14 | double-head laser cutter |
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Publication Number | Publication Date |
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CN206632531U true CN206632531U (en) | 2017-11-14 |
Family
ID=60245612
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CN201720391513.9U Expired - Fee Related CN206632531U (en) | 2017-04-14 | 2017-04-14 | double-head laser cutter |
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CN108031982A (en) * | 2017-12-11 | 2018-05-15 | 合肥右传媒科技有限公司 | A kind of track auxiliary device of laser cutting machine |
CN108620889A (en) * | 2018-05-16 | 2018-10-09 | 宁波安美达数控科技有限公司 | A kind of Double-head cutting machine mechanism |
CN109877465A (en) * | 2019-03-29 | 2019-06-14 | 浙江辛子精工机械股份有限公司 | A kind of steel pipe cutting device |
CN110524124A (en) * | 2019-10-10 | 2019-12-03 | 浙江泰好科技股份有限公司 | A kind of multistation laser cutting device convenient for adjusting angle |
CN110744207A (en) * | 2018-07-20 | 2020-02-04 | 天津宝盈电脑机械有限公司 | Double-vibrating-mirror laser cutting machine |
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2017
- 2017-04-14 CN CN201720391513.9U patent/CN206632531U/en not_active Expired - Fee Related
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CN108031982A (en) * | 2017-12-11 | 2018-05-15 | 合肥右传媒科技有限公司 | A kind of track auxiliary device of laser cutting machine |
CN108620889A (en) * | 2018-05-16 | 2018-10-09 | 宁波安美达数控科技有限公司 | A kind of Double-head cutting machine mechanism |
CN110744207A (en) * | 2018-07-20 | 2020-02-04 | 天津宝盈电脑机械有限公司 | Double-vibrating-mirror laser cutting machine |
CN109877465A (en) * | 2019-03-29 | 2019-06-14 | 浙江辛子精工机械股份有限公司 | A kind of steel pipe cutting device |
CN110524124A (en) * | 2019-10-10 | 2019-12-03 | 浙江泰好科技股份有限公司 | A kind of multistation laser cutting device convenient for adjusting angle |
CN113118647A (en) * | 2021-04-20 | 2021-07-16 | 海峡(晋江)伞业科技创新中心有限公司 | Use method of full-automatic umbrella cloth small cutting machine |
CN116618851A (en) * | 2023-05-15 | 2023-08-22 | 江苏卡米特激光智能科技有限公司 | Automatic change double-end saw bit cutting machine |
CN116618851B (en) * | 2023-05-15 | 2024-02-09 | 江苏卡米特激光智能科技有限公司 | Automatic change double-end saw bit cutting machine |
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Assignee: GUANGXI KAIZONG MACHINERY MANUFACTURING CO.,LTD. Assignor: GUANGXI BOCHEN AUTOMATION EQUIPMENT Co.,Ltd. Contract record no.: 2018450000039 Denomination of utility model: Double-end laser cutting machine with movable beamsplitter Granted publication date: 20171114 License type: Common License Record date: 20180921 |
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