CN213163738U - Vacuum adsorption movable laser processing device - Google Patents

Abstract

The utility model discloses a portable laser beam machining device of vacuum adsorption, include: the device comprises a workbench, a material roller device, a vacuum adsorption platform, an X-axis driving sliding module, a Y-axis driving sliding module, a laser processing module and a Z-axis driving sliding module, wherein the material roller device comprises a feeding roller module and a feeding roller module which have the same structure; the feeding roller module is arranged at the front end of the workbench, and the feeding roller module is arranged at the rear end of the workbench; the vacuum adsorption platform is arranged on the workbench and is positioned between the feeding roller module and the feeding roller module; the X-axis driving sliding module is arranged on one side of the vacuum adsorption platform; the Y-axis driving sliding module is installed on the X-axis driving sliding module, and the laser processing module is installed on the Y-axis driving sliding module through the Z-axis driving sliding module. The utility model relates to a portable laser beam machining device of vacuum adsorption, laser beam machining precision is high, effectual, and application scope is wide, improves machining efficiency.

Description

Vacuum adsorption movable laser processing device

Technical Field

The utility model relates to a laser beam machining equipment field, in particular to portable laser beam machining device of vacuum adsorption.

Background

Laser processing equipment can be divided into three major categories: laser marking machine, laser-beam welding machine, laser cutting machine. The laser marking machine comprises a semiconductor laser marking machine, a CO2 laser marking machine, a fiber laser marking machine, an ultraviolet laser marking machine and the like; the laser welding machine comprises a YAG laser automatic welding machine, an optical fiber transmission automatic laser welding machine and the like at present; the laser cutting machine includes a YAG laser cutting machine, an optical fiber laser cutting machine, and the like. Laser processing equipment can utilize the laser beam to shine the object to realize functions such as marking, welding, cutting.

At present, for some thin film processing materials in the prior art, a roll-to-roll mode is often adopted for receiving and discharging materials, the laser processing position is determined by stopping at a fixed point of a receiving and discharging mechanism, but the laser processing position is deviated due to the vibration of a machine and the accumulated error of the operation of the receiving and discharging mechanism, so that the laser processing effect is not ideal, the laser processing efficiency is low, and the requirements for processing materials with finer and higher precision cannot be met, so that the invention needs to provide a laser processing device with high precision and good effect.

Disclosure of Invention

The utility model aims to solve the problem that a portable laser beam machining device of vacuum adsorption is provided to overcome the unsatisfactory, the laser beam machining efficiency of prior art laser beam machining effect low, can not satisfy the defect that requires more meticulous, the higher processing material of precision.

The utility model discloses a solve the technical scheme that its technical problem adopted and be: a vacuum chucking movable laser processing apparatus comprising:

a work table;

the material roller device is arranged on the workbench and comprises a feeding roller module and a feeding roller module which have the same structure; the feeding roller module is arranged at the front end of the workbench and used for conveying materials to be processed; the feeding roller module is arranged at the rear end of the workbench and used for conveying the processed materials;

the vacuum adsorption platform is arranged on the workbench, is positioned between the feeding roller module and is used for adsorbing a material to be processed;

the X-axis driving sliding module is arranged on one side of the vacuum adsorption platform;

the Y-axis driving sliding module is arranged on the X-axis driving sliding module and is driven by the X-axis driving sliding module to horizontally move along the X-axis direction;

the laser processing module is arranged on the Y-axis driving sliding module through a Z-axis driving sliding module and is driven by the Y-axis driving sliding module to horizontally move along the Y-axis direction; and the laser processing module is driven by the Z-axis driving sliding module to vertically move along the Z-axis direction.

As a further improvement of the utility model, the feed roll module includes that two fixed bolsters, the rotation that the interval set up are installed two material roller, floating roll and floating roll drive arrangement between the fixed bolster, all be provided with waist type hole on the fixed bolster, the floating roll both ends are run through respectively waist type hole is connected with floating roll drive arrangement, the floating roll drive arrangement drive the floating roll rebound with the material roller cooperation is used and is pressed from both sides tight material.

As a further improvement, the floating roller driving device comprises a movable plate and a lifting cylinder, the end part of the floating roller is installed in the movable plate through the rotation of a bearing, the movable plate is installed on the fixed support through the sliding of a linear slider, and the lifting cylinder is connected with the movable plate.

As a further improvement, the material roller driving motor is installed on the feeding roller module, the material roller driving motor pass through the speed reducer with the material roller is connected.

As a further improvement of the utility model, Z axle drive module of sliding sets up along vertical direction, including Z axle servo motor, by Z axle servo motor driven Z axle ball screw module is in with the setting the Z axle guide rail of Z axle ball screw module both sides, the laser beam machining module is connected with Z axle ball screw module to through the slider sliding fit on Z axle guide rail.

As a further improvement of the utility model, the Y axle drive module perpendicular to material direction of delivery that slides sets up, including Y axle servo motor, by Y axle servo motor driven Y axle ball screw module is in with the setting the Y axle guide rail of Y axle ball screw module both sides, the Z axle drive module that slides is connected with Y axle ball screw module to through the slider sliding fit on Y axle guide rail.

As the utility model discloses a further improvement, X axle drive slides module perpendicular to Y axle drive slides the module setting, including X axle servo motor, by X axle servo motor driven X axle ball screw module is in with the setting the X axle guide rail of X axle ball screw module both sides, Y axle drive slides the module and is connected with X axle ball screw module to through the slider sliding fit on X axle guide rail.

As a further improvement, the laser processing module includes a laser and a field lens, the laser emitted by the laser passes through the field lens processes the material below.

The utility model has the advantages that:

1. the utility model provides a vacuum adsorption movable laser processing device, which is provided with a feed roller module and a feed roller module respectively at the front and the back of a workbench, a floating roller is driven by a floating roller driving device to move upwards to be matched with a material roller to use a clamping material, so as to ensure that the phenomena of fold, curl and the like can not be generated in the process of conveying the processing material, and a vacuum adsorption platform for adsorbing the processing material is arranged on the feed roller module and the feed roller module, thereby ensuring the flatness of the processing material and ensuring good processing effect;

2. install X axle drive on the workstation and slide module, Y axle drive and slide module and Z axle drive and slide the module, can drive the laser beam machining module and remove at X, Y, Z triaxial direction, can realize laser beam machining module automatic focusing, improve laser beam machining precision and effect to applicable processing material in different specifications, application scope is wide, and machining efficiency is high.

Drawings

Fig. 1 is a perspective view of the present invention;

fig. 2 is a perspective view of the feeding roller module of the present invention;

fig. 3 is a perspective view of the laser processing module, the Z-axis driving sliding module and the Y-axis driving sliding module of the present invention;

fig. 4 is the structure diagram of the Y-axis driving sliding module, the X-axis driving sliding module and the workbench of the present invention.

The following description is made with reference to the accompanying drawings:

1-a work bench; 2-feeding roller module;

3-feeding roller module; 301-fixed support;

3011-kidney shaped hole; 302-material roller;

303-floating roll; 4-vacuum adsorption platform;

5-X-axis driving sliding module; 501-X axis servomotor;

502-X axis ball screw module; 503-X-axis guideway;

6-Y axis drives the sliding module; 601-Y axis servomotor;

602-Y-axis ball screw module; 603-Y-axis guide;

7-laser processing module; 701 — laser;

702-a field lens; 8-Z-axis driving sliding module;

801-Z axis servo motor; 802-Z axis ball screw module;

803-Z-axis guideway; 9-floating roll drive;

901-movable plate; 902-lifting cylinder;

903-linear slide; and 10, a material roller driving motor.

Detailed Description

The following description of the preferred embodiments of the present invention will be made in conjunction with the accompanying drawings.

Referring to fig. 1, the utility model provides a portable laser beam machining device of vacuum adsorption, include: workstation 1, material roller device, vacuum adsorption platform 4, X axle drive module 5, Y axle drive module 6, laser beam machining module 7 and Z axle drive module 8 that slides. The workbench 1 is used for bearing each part, and the processing material is transmitted to the workbench 1 for laser processing.

Referring to fig. 1 and 2, a material roller device is installed on a worktable 1, and the material roller device comprises a feed roller module 2 and a feed roller module 3 which have the same structure. The feeding roller module 2 is arranged at the front end of the workbench 1 and used for conveying materials to be processed. The feed roller module 3 is arranged at the rear end of the workbench 1 and used for conveying the processed materials. The feeding roller module 2 and the feeding roller module 3 respectively comprise two fixing supports 301 arranged at intervals, a material roller 302 rotatably installed between the two fixing supports 301, a floating roller 303 and a floating roller driving device 9, waist-shaped holes 3011 are formed in the fixing supports 301, two ends of the floating roller 303 respectively penetrate through the waist-shaped holes 3011 to be connected with the floating roller driving device 9, and the floating roller driving device 9 drives the floating roller 303 to move upwards to be matched with the material roller 302 to clamp materials. The floating roller driving device 9 comprises a movable plate 901 and a lifting cylinder 902, and the two end parts of the floating roller 303 are respectively rotatably installed in the left and right movable plates 901 through bearings. Sliding rails are arranged on two sides of the waist-shaped hole 3011 of the fixed support 301, the movable plate 901 is slidably mounted on the sliding rails through linear sliders 903, and the lifting cylinder 902 is connected with the movable plate 901. The lifting cylinder 902 drives the movable plate 901 to drive the floating roller 303 to move upwards synchronously, so that the processing material passing through between the material roller 302 and the floating roller 303 is clamped, the phenomena of wrinkling, curling and the like are avoided in the conveying process of the processing material, and a good processing effect is ensured.

Wherein, install material roller driving motor 10 on the feed roller module 3, material roller driving motor 10 passes through the speed reducer and is connected with material roller 302. The material roller driving motor 10 is started, and the material roller 302 on the feed roller module 3 is driven to rotate through the speed reducer, so that the processed material passing between the material roller 302 and the floating roller 303 in the feed roller module 3 is pulled.

Referring to fig. 1, a vacuum adsorption platform 4 is installed on a workbench 1 and located between a feed roller module 2 and a feed roller module 3, and is used for adsorbing a material to be processed so as to perform subsequent laser processing. The X-axis driving sliding module 5 is arranged on one side of the vacuum adsorption platform 4. The Y-axis driving sliding module 6 is installed on the X-axis driving sliding module 5 and is driven by the X-axis driving sliding module 5 to move along the X-axis direction. The laser processing module 7 is arranged on the Y-axis driving sliding module 6 through the Z-axis driving sliding module 8 and is driven by the Y-axis driving sliding module 6 to move along the Y-axis direction; the laser processing module 7 is driven by the Z-axis driving sliding module 8 to move along the Z-axis direction. The laser processing module 7 is driven by the X-axis driving sliding module 5 and the Y-axis driving sliding module 6 to move to the position above the vacuum adsorption platform 4 and corresponds to a processing position of a processing material.

Referring to fig. 3, the laser processing module 7 includes a laser 701 and a field lens 702, and laser emitted from the laser 701 processes a material below through the field lens 702. The Z-axis driving sliding module 8 is arranged along the vertical direction and comprises a Z-axis servo motor 801, a Z-axis ball screw module 802 driven by the Z-axis servo motor 801 and Z-axis guide rails 803 arranged on two sides of the Z-axis ball screw module 802. The laser processing module 7 is provided with a laser carrier, and the laser 701 and the field lens 702 are both fixedly installed on the laser carrier. The laser stage is connected with the lead screw nut of the Z-axis ball screw module 802, and the laser stage is slidably fitted on the Z-axis guide rail 803 through a slider. The Z-axis servo motor 801 is started to drive the lead screw of the Z-axis ball screw module 802 to rotate, and the lead screw nut converts the rotary motion into linear motion to drive the laser processing module 7 to move up and down in the vertical direction for focusing, so that the laser processing precision is ensured, and the laser processing effect is improved.

Referring to fig. 4, the Y-axis driving sliding module 6 is disposed perpendicular to the material conveying direction, and includes a Y-axis servo motor 601, a Y-axis ball screw module 602 driven by the Y-axis servo motor 601, and Y-axis guide rails 603 disposed at two sides of the Y-axis ball screw module 602, and the Z-axis driving sliding module 8 is connected to the Y-axis ball screw module 602 and is slidably fitted on the Y-axis guide rails 603 through a slider. The Y-axis servo motor 601 is started to drive the lead screw of the Y-axis ball screw module 602 to rotate, and the lead screw nut on the lead screw converts the rotary motion into linear motion to drive the Z-axis driving sliding module 8 and the laser processing module 7 to horizontally move along the Y-axis direction together. The X-axis driving sliding module 5 is perpendicular to the Y-axis driving sliding module 6 and comprises an X-axis servo motor 501, an X-axis ball screw module 502 driven by the X-axis servo motor 501 and X-axis guide rails 503 arranged on two sides of the X-axis ball screw module 502, wherein the Y-axis driving sliding module 6 is connected with the X-axis ball screw module 502 and is in sliding fit on the X-axis guide rails 503 through a sliding block. The X-axis servo motor 501 is started to drive the screw rod of the X-axis ball screw module 502 to rotate, a screw nut on the screw rod converts rotary motion into linear motion, the Y-axis driving sliding module 6, the Z-axis driving sliding module 8 and the laser processing module 7 are driven to horizontally move along the X-axis direction, the laser processing module 7 can move in the X, Y, Z three-axis direction, automatic focusing of the laser processing module can be achieved, and laser processing precision and effect are improved.

In the previous description, numerous specific details were set forth in order to provide a thorough understanding of the invention. The foregoing description is only illustrative of the preferred embodiments of the invention, which can be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted for elements thereof without departing from the scope of the invention. All the contents that do not depart from the technical solution of the present invention, any simple modification, equivalent change and modification made to the above embodiments according to the technical substance of the present invention all still belong to the protection scope of the technical solution of the present invention.

Claims (8)

1. A vacuum adsorption movable laser processing device is characterized by comprising:

a table (1);

the material roller device is arranged on the workbench (1) and comprises a feeding roller module (2) and a feeding roller module (3) which have the same structure; the feeding roller module (2) is arranged at the front end of the workbench (1) and is used for conveying a material to be processed; the feeding roller module (3) is arranged at the rear end of the workbench (1) and is used for conveying the processed materials;

the vacuum adsorption platform (4) is arranged on the workbench (1), is positioned between the feeding roller module (2) and the feeding roller module (3), and is used for adsorbing a material to be processed;

the X-axis driving sliding module (5) is arranged on one side of the vacuum adsorption platform (4);

the Y-axis driving sliding module (6) is arranged on the X-axis driving sliding module (5) and is driven by the X-axis driving sliding module (5) to horizontally move along the X-axis direction;

the laser processing module (7) is arranged on the Y-axis driving sliding module (6) through a Z-axis driving sliding module (8), and is driven by the Y-axis driving sliding module (6) to horizontally move along the Y-axis direction; and the laser processing module (7) is driven by the Z-axis driving sliding module (8) to vertically move along the Z-axis direction.

2. The vacuum adsorption movable laser processing apparatus according to claim 1, wherein: pay-off roller module (3) are installed two including two fixed bolster (301), the rotation that the interval set up material roller (302), floating roll (303) and floating roll drive arrangement (9) between fixed bolster (301), all be provided with waist type hole (3011) on fixed bolster (301), floating roll (303) both ends run through respectively waist type hole (3011) are connected with floating roll drive arrangement (9), floating roll drive arrangement (9) drive floating roll (303) rebound with material roller (302) cooperation is used and is pressed from both sides tight material.

3. The vacuum adsorption movable laser processing apparatus according to claim 2, wherein: the floating roller driving device (9) comprises a movable plate (901) and a lifting cylinder (902), the end part of the floating roller (303) is rotatably installed in the movable plate (901) through a bearing, the movable plate (901) is slidably installed on the fixed support (301) through a linear sliding block (903), and the lifting cylinder (902) is connected with the movable plate (901).

4. The vacuum adsorption movable laser processing apparatus according to claim 2, wherein: the feeding roller module (3) is provided with a material roller driving motor (10), and the material roller driving motor (10) is connected with the material roller (302) through a speed reducer.

5. The vacuum adsorption movable laser processing apparatus according to claim 1, wherein: z axle drive module (8) that slides sets up along vertical direction, including Z axle servo motor (801), by Z axle ball screw module (802) of Z axle servo motor (801) driven and setting are in Z axle guide rail (803) of Z axle ball screw module (802) both sides, laser beam machining module (7) are connected with Z axle ball screw module (802) to through slider sliding fit on Z axle guide rail (803).

6. The vacuum adsorption movable laser processing apparatus according to claim 1, wherein: y axle drive slides module (6) perpendicular to material direction of delivery setting, including Y axle servo motor (601), by Y axle ball screw module (602) of Y axle servo motor (601) drive and setting are in Y axle guide rail (603) of Y axle ball screw module (602) both sides, Z axle drive slides module (8) and is connected with Y axle ball screw module (602) to through slider sliding fit on Y axle guide rail (603).

7. The vacuum adsorption movable laser processing apparatus according to claim 1, wherein: x axle drive slides module (5) perpendicular to Y axle drive slides module (6) and sets up, including X axle servo motor (501), by X axle ball screw module (502) of X axle servo motor (501) drive and setting are in X axle guide rail (503) of X axle ball screw module (502) both sides, Y axle drive slides module (6) and is connected with X axle ball screw module (502) to through slider sliding fit on X axle guide rail (503).

8. The vacuum adsorption movable laser processing apparatus according to claim 1, wherein: the laser processing module (7) comprises a laser (701) and a field lens (702), and laser emitted by the laser (701) is processed on a material below through the field lens (702).

Images