CN204771137U

CN204771137U - Automatic laser cutting machine constructs

Info

Publication number: CN204771137U
Application number: CN201520264984.4U
Authority: CN
Inventors: 金克宁; 吴桂伟
Original assignee: Dongguan Dare Laser Science And Technology Ltd
Current assignee: Dongguan Dare Laser Science And Technology Ltd
Priority date: 2015-04-28
Filing date: 2015-04-28
Publication date: 2015-11-18
Anticipated expiration: 2025-04-28

Abstract

The utility model provides an automatic laser cutting machine constructs, includes Y spindle guide rail, cutting X spindle guide rail, laser head, laser generation system, controller, Y spindle guide rail is followed Y axle direction and is set up parallelly on the horizontal plane, cutting X spindle guide rail sets up on Y spindle guide rail along X axle direction, cutting X spindle guide rail is equipped with synchronizing wheel, cutting X axle hold -in range, the both ends of cutting X spindle guide rail are located to the synchronizing wheel, cutting X axle hold -in range cover is established on the synchronizing wheel at cutting X spindle guide rail both ends, and the one end of cutting X spindle guide rail is equipped with cutting step motor, and the cutting step motor be connected with the synchronizing wheel, the laser head sets up on cutting X spindle guide rail through cutting X axle slider, laser transmission to the laser head that laser generation system located the both sides in the frame and generated, cutting step motor, laser generation system are connected with the controller. The utility model discloses can realize that the laser head simultaneously automatically along X direction and Y direction motion cutting, reduces the processing cost, improve machining efficiency and precision.

Description

Automatic laser cutting mechanism

Technical field

The utility model relates to cutting equipment, espespecially a kind of automatic laser cutting mechanism.

Background technology

For goods such as leather, paper, clothes in cutting processing, be all generally need, by the artificial mark first drawing cutting on rapidoprint surface, cut on mark by artificial mode.This processing mode is owing to needing to draw mark at material surface, cut by artificial mode, and processing step is many, and needs the number of processing many, and processing cost is high, and efficiency is low, and precision is low.

Utility model content

For solving the problem, the utility model provides one effectively to improve working (machining) efficiency, reduces the use of manpower, can carry out the automatic laser cutting mechanism of surface trimming to rapidoprint surface.

For achieving the above object, the technical solution adopted in the utility model is: a kind of automatic laser cutting mechanism, comprise Y-axis guide rail, cutting X-axis guide rail, laser head, laser generation system, controller, Y-axis guide rail is arranged in the horizontal plane abreast along Y direction, described cutting X-axis guide rail is arranged on Y-axis guide rail along X-direction, wherein cut below X-axis guide rail two ends and be provided with Y-axis transmission component, described Y-axis transmission component is arranged on Y-axis guide rail, described cutting X-axis guide rail is provided with synchronizing wheel, cutting X-axis Timing Belt, described synchronizing wheel is located at the two ends of cutting X-axis guide rail, described cutting X-axis Timing Belt is set on the synchronizing wheel at cutting X-axis guide rail two ends, one end of cutting X-axis guide rail is provided with cutting stepper motor, cutting stepper motor is connected with synchronizing wheel, described cutting X-axis guide rail is provided with cutting lifting mechanism, cutting lifting mechanism is connected with cutting X-axis Timing Belt, described laser head is fixedly installed on cutting lifting mechanism, the Laser Transmission that described laser generation system generates is to laser head, described cutting stepper motor is connected with controller.

Particularly, described cutting lifting mechanism comprises X-axis slide block, lifting stepper motor, initiatively eccentric wheel, by movable eccentric wheel, laser head gripper shoe, described X-axis slide block is arranged on and cuts on X-axis guide rail and be connected with cutting X-axis Timing Belt, described lifting stepper motor is arranged on the upside of X-axis slide block and is connected with active eccentric wheel, describedly be arranged on the upside of X-axis slide block by movable eccentric wheel by bearing and be connected with described active eccentric wheel by Timing Belt, the lower end of described X-axis slide block is provided with guide rod, the lower end correspondence of described laser head gripper shoe is provided with guide rod slide block, described guide rod slide block is arranged on guide rod, described active eccentric wheel and be equipped with connecting rod by movable eccentric wheel, described connecting rod is fixedly connected with guide rail slide block, described laser head gripper shoe is provided with laser head seat, described laser head is arranged in laser head seat, described lifting stepper motor is connected with controller.

Particularly, also comprise regulating wheel, described regulating wheel is arranged on described X-axis slide block, described regulating wheel by Timing Belt with described active eccentric wheel be connected by movable eccentric wheel.

Particularly, described laser generation system comprises Laser Power Devices, laser tube, speculum group, described Laser Power Devices to be located in frame and to be connected with laser tube, described laser tube is located at the both sides of Y-axis guide rail, described speculum is separately positioned on the both sides of cutting X-axis guide rail, described laser tube by speculum group by generate light sources transmit to laser head, described Laser Power Devices are connected with described controller.

Particularly, described laser tube comprises high laser tube, short laser tube, and the height that described high laser tube is arranged is higher than the height of described short laser tube, and the height of described speculum group, laser head is corresponding with the height of described high laser tube, short laser tube respectively.

Particularly, described Y-axis transmission component comprises Y-axis slide, y-axis stepper motor, synchronizing wheel, synchronizing wheel support, Y-axis Timing Belt, described synchronizing wheel is arranged on the two ends of Y-axis guide rail, described Y-axis Timing Belt is set on the synchronizing wheel at Y-axis guide rail two ends, described synchronizing wheel props up the both sides being set up in Y-axis slide, described synchronizing wheel is arranged between synchronizing wheel support, described y-axis stepper motor to be arranged on Y-axis slide and to be connected with the described synchronizing wheel being located at synchronizing wheel support, described Y-axis Timing Belt is set on the synchronizing wheel of synchronizing wheel support, described Y-axis slide is arranged on described Y-axis guide rail, described y-axis stepper motor is connected with described controller.

The beneficial effects of the utility model are: the utility model can realize laser head and automatically cut with Y-direction motion in X direction simultaneously, can effectively reduce artificial use, realize replacing artificial with machine, cut down finished cost, substantially increase the precision of working (machining) efficiency and processing.

Accompanying drawing explanation

Fig. 1 is the structural representation of automatic laser cutting mechanism;

Fig. 2 is elevating mechanism structural representation;

Fig. 3 is the signals of elevating mechanism parts.

Drawing reference numeral illustrates: 41-Y axis rail; 43-cuts X-axis guide rail; 431-synchronizing wheel; 432-cuts stepper motor; 44-laser head; 45-Laser Power Devices; 46-laser tube; 47-reflective mirror group; 48-cutting lifting mechanism; 481-X axle slide block; 4811-guide rod; 482-is elevated stepper motor; 483-is eccentric wheel initiatively; 484-is by movable eccentric wheel, 485-laser head gripper shoe; 4851-guide rod slide block; 4852-laser head seat; 486-regulating wheel; 487-connecting rod.

Detailed description of the invention

Refer to shown in Fig. 1-3, the utility model is about a kind of automatic laser cutting mechanism, comprise Y-axis guide rail 41, cutting X-axis guide rail 43, laser head 44, laser generation system, controller, described Y-axis guide rail 41 is arranged on the both sides on frame 1 surface along Y direction, described cutting X-axis guide rail 43 is arranged on Y-axis guide rail 41 along X-direction, wherein cut below X-axis guide rail 43 two ends and be provided with Y-axis transmission component, described Y-axis transmission component is arranged on Y-axis guide rail 41, described cutting X-axis guide rail 43 is provided with synchronizing wheel 431, cutting X-axis Timing Belt, described synchronizing wheel 431 is located at the two ends of cutting X-axis guide rail 43, described cutting X-axis Timing Belt is set on the synchronizing wheel 431 at cutting X-axis guide rail 43 two ends, one end of cutting X-axis guide rail 43 is provided with cutting stepper motor 432, cutting stepper motor 432 is connected with synchronizing wheel 431, described cutting X-axis guide rail 43 is provided with cutting X-axis slide block 433, cutting X-axis slide block 433 is connected with cutting X-axis Timing Belt, described laser head 44 is fixedly installed on cutting X-axis slide block 433, the Laser Transmission that described laser generation system generates is to laser head 44, described cutting stepper motor 432, laser generation system is connected with controller.

The utility model can realize laser head and automatically cut with Y-direction motion in X direction simultaneously, can effectively reduce artificial use, realizes replacing artificial with machine, cuts down finished cost, substantially increase the precision of working (machining) efficiency and processing.

As Figure 2-3, described cutting lifting mechanism 48 comprises X-axis slide block 481, lifting stepper motor 482, initiatively eccentric wheel 483, by movable eccentric wheel 484, laser head gripper shoe 485, described X-axis slide block 481 is arranged on and cuts on X-axis guide rail 43 and be connected with cutting X-axis Timing Belt, described lifting stepper motor 482 is arranged on the upside of X-axis slide block 481 and is connected with active eccentric wheel 483, describedly be arranged on the upside of X-axis slide block 481 by movable eccentric wheel 484 by bearing and be connected with described active eccentric wheel 483 by Timing Belt, the lower end of described X-axis slide block 481 is provided with guide rod 4811, the lower end correspondence of described laser head gripper shoe 485 is provided with guide rod slide block 4851, described guide rod slide block 4851 is arranged on guide rod 4811, described active eccentric wheel 483 and be equipped with connecting rod 487 by movable eccentric wheel 484, described connecting rod 487 is fixedly connected with guide rail slide block 4851, described laser head gripper shoe 485 is provided with laser head seat 4852, described laser head 44 is arranged in laser head seat 4852, described lifting stepper motor 482 is connected with controller.

Adopt such scheme, for the rapidoprint that thickness is different, by cutting upgrading, mechanism 48 makes laser head 44 be in best cutting position, control lifting stepper motor 482 in particular by controller to rotate, because lifting stepper motor 482 connects initiatively eccentric wheel 483, the initiatively lifting of eccentric wheel 483 then drivening rod 487 when rotated, and then drive laser head gripper shoe 485 to be elevated along the guide rod 4811 in X-axis slide block 481, finally drive laser head 44 to be elevated; And be connected with active eccentric wheel 483 by movable eccentric wheel 484, its motion process is with initiatively eccentric wheel 483 is synchronous.

Particularly, also comprise regulating wheel 486, described regulating wheel 486 is arranged on described X-axis slide block 433, described regulating wheel 486 by Timing Belt with described active eccentric wheel 483 be connected by movable eccentric wheel 484.

Adopt such scheme, by arranging regulating wheel 486 by Timing Belt with initiatively eccentric wheel 483 be connected by movable eccentric wheel 484, effectively can improve the rate of tension of Timing Belt, and then improve active eccentric wheel 483 and by the synchronism of movable eccentric wheel 484, be conducive to improving machining accuracy.

As shown in Figure 1, described laser generation system comprises Laser Power Devices 45, laser tube 46, speculum group 47, described Laser Power Devices 45 to be located in frame 1 and to be connected with laser tube 46, described laser tube 46 is located at the both sides of Y-axis guide rail 41, described speculum group 47 is separately positioned on the both sides of cutting X-axis guide rail 43, described laser tube 46 by speculum group 47 by generate light sources transmit to laser head 44, described Laser Power Devices 45 are connected with described controller.

Adopt such scheme, Laser Power Devices 45 produce laser and enter laser tube 46 under High Pressure, and Laser Transmission is carried out laser cutting to laser head 44 by speculum group 47 by laser tube 46.

Particularly, described Y-axis transmission component comprises Y-axis slide, y-axis stepper motor, synchronizing wheel, synchronizing wheel support, Y-axis Timing Belt, described synchronizing wheel is arranged on the two ends of Y-axis guide rail 41, described Y-axis Timing Belt is set on the synchronizing wheel at Y-axis guide rail 41 two ends, described synchronizing wheel props up the both sides being set up in Y-axis slide, described synchronizing wheel is arranged between synchronizing wheel support, described y-axis stepper motor to be arranged on Y-axis slide and to be connected with the described synchronizing wheel being located at synchronizing wheel support, described Y-axis Timing Belt is set on the synchronizing wheel 423 of synchronizing wheel support, described Y-axis slide is arranged on described Y-axis guide rail 41, described y-axis stepper motor is connected with described controller.

Adopt such scheme, by arranging Y-axis transmission component, realize controlling cutting X-axis guide rail 43 to move along on Y-axis guide rail 41, when needs cutting X-axis guide rail 43 is when moving along Y-axis guide rail 41, controller controls y-axis stepper motor and rotates, y-axis stepper motor drives and is arranged on synchronizing wheel on synchronizing wheel support and rotates, and Y-axis Timing Belt is set on the synchronizing wheel on synchronizing wheel support, thus realizes Y-axis transmission component and move at Y-axis guide rail 41.

Below by specific embodiment, the utility model is further described.

1. will need cutting profile and Position input controller, and rapidoprint will be placed on machining area;

2. laser head 44 moves to corresponding by controller control cutting stepper motor 432 and y-axis stepper motor

Cutting position, control lifting stepper motor 482 rotate makes laser head 44 drop to optimum Cutting

Position, the Laser Transmission controlling Laser Power Devices 45 generation is subsequently cut to laser head 44, cuts

Controlling lifting stepper motor 482 after having cut again makes laser head 44 rise.

Above embodiment is only be described preferred embodiment of the present utility model; not scope of the present utility model is limited; under the prerequisite not departing from the utility model design spirit; the various distortion that the common engineers and technicians in this area make the technical solution of the utility model and improvement, all should fall in protection domain that claims of the present utility model determine.

Claims

1. an automatic laser cutting mechanism, it is characterized in that, comprise Y-axis guide rail, cutting X-axis guide rail, laser head, laser generation system, controller, Y-axis guide rail is arranged in the horizontal plane abreast along Y direction, described cutting X-axis guide rail is arranged on Y-axis guide rail along X-direction, wherein cut below X-axis guide rail two ends and be provided with Y-axis transmission component, described Y-axis transmission component is arranged on Y-axis guide rail, described cutting X-axis guide rail is provided with synchronizing wheel, cutting X-axis Timing Belt, described synchronizing wheel is located at the two ends of cutting X-axis guide rail, described cutting X-axis Timing Belt is set on the synchronizing wheel at cutting X-axis guide rail two ends, one end of cutting X-axis guide rail is provided with cutting stepper motor, cutting stepper motor is connected with synchronizing wheel, described cutting X-axis guide rail is provided with cutting lifting mechanism, cutting lifting mechanism is connected with cutting X-axis Timing Belt, described laser head is fixedly installed on cutting lifting mechanism, the Laser Transmission that described laser generation system generates is to laser head, described cutting stepper motor is connected with controller.

2. a kind of automatic laser cutting mechanism according to claim 1, it is characterized in that, described cutting lifting mechanism comprises X-axis slide block, lifting stepper motor, initiatively eccentric wheel, by movable eccentric wheel, laser head gripper shoe, described X-axis slide block is arranged on and cuts on X-axis guide rail and be connected with cutting X-axis Timing Belt, described lifting stepper motor is arranged on the upside of X-axis slide block and is connected with active eccentric wheel, describedly be arranged on the upside of X-axis slide block by movable eccentric wheel by bearing and be connected with described active eccentric wheel by Timing Belt, the lower end of described X-axis slide block is provided with guide rod, the lower end correspondence of described laser head gripper shoe is provided with guide rod slide block, described guide rod slide block is arranged on guide rod, described active eccentric wheel and be equipped with connecting rod by movable eccentric wheel, described connecting rod is fixedly connected with guide rail slide block, described laser head gripper shoe is provided with laser head seat, described laser head is arranged in laser head seat, described lifting stepper motor is connected with controller.

3. a kind of automatic laser cutting mechanism according to claim 2, is characterized in that, also comprise regulating wheel, and described regulating wheel is arranged on described X-axis slide block, described regulating wheel by Timing Belt with described active eccentric wheel be connected by movable eccentric wheel.

4. a kind of automatic laser cutting mechanism according to claim 1, it is characterized in that, described laser generation system comprises Laser Power Devices, laser tube, speculum group, described Laser Power Devices to be located in frame and to be connected with laser tube, described laser tube is located at the both sides of Y-axis guide rail, described speculum is separately positioned on the both sides of cutting X-axis guide rail, described laser tube by speculum group by the light sources transmit that generates to laser head, described Laser Power Devices are connected with described controller.

5. a kind of automatic laser cutting mechanism according to claim 4, it is characterized in that, described laser tube comprises high laser tube, short laser tube, the height that described high laser tube is arranged is higher than the height of described short laser tube, and the height of described speculum group, laser head is corresponding with the height of described high laser tube, short laser tube respectively.

6. a kind of automatic laser cutting mechanism according to claim 1, it is characterized in that, described Y-axis transmission component comprises Y-axis slide, y-axis stepper motor, synchronizing wheel, synchronizing wheel support, Y-axis Timing Belt, described synchronizing wheel is arranged on the two ends of Y-axis guide rail, described Y-axis Timing Belt is set on the synchronizing wheel at Y-axis guide rail two ends, described synchronizing wheel props up the both sides being set up in Y-axis slide, described synchronizing wheel is arranged between synchronizing wheel support, described y-axis stepper motor to be arranged on Y-axis slide and to be connected with the described synchronizing wheel being located at synchronizing wheel support, described Y-axis Timing Belt is set on the synchronizing wheel of synchronizing wheel support, described Y-axis slide is arranged on described Y-axis guide rail, described y-axis stepper motor is connected with described controller.