CN215145778U - Laser cutting equipment for polaroid - Google Patents

Abstract

The application provides a polaroid laser cutting equipment includes: the device comprises a base, a portal frame and a first cutting processing module; the portal frame is fixedly arranged on the base; the first cutting and processing module is correspondingly arranged on the front side of the portal frame and comprises a Y-axis moving assembly, a first X-axis moving assembly, a second X-axis moving assembly, a workbench and a laser cutting assembly; the Y-axis moving assembly is arranged on the base, and the first X-axis moving assembly is arranged on the Y-axis moving assembly; the workbench is arranged on the first X-axis moving assembly; the laser cutting assembly comprises a laser assembly and a plurality of laser cutting heads, the laser assembly corresponds to the laser cutting heads, and the laser assembly is fixedly arranged on the portal frame; the laser cutting heads are arranged on the portal frame along the X-axis direction, and the second X-axis moving assembly is connected with the laser cutting heads. The technical problems that the processing cost of the existing cutting mode is high, the processing efficiency is low, and the polaroid with the special shape is difficult to cut are solved.

Description

Laser cutting equipment for polaroid

Technical Field

The application relates to a polaroid cutting equipment field especially relates to a polaroid laser cutting equipment.

Background

The polaroids are all called as polaroids, and the imaging of the liquid crystal display is dependent on polarized light, so that all liquid crystals have front and rear polaroids which are attached to liquid crystal glass, and the liquid crystal plate with the total thickness of about 1mm is formed. If any one of the polarizers is omitted, the liquid crystal sheet cannot display an image.

The raw and other materials of polaroid are the coil stock membrane material of width about 1.5 meters, through pulling out the diaphragm of this coil stock membrane material to thereby correspond on the diaphragm and excise the processing and obtain the polaroid that adapts to cell-phone screen size, however, present cutting means adopts mechanical stamping processing or mechanical type break bar to rule mostly, and not only the processing cost is high, and machining efficiency is slow, and is difficult to according to the comparatively special-shaped polaroid of cutting.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a polaroid laser cutting equipment for it is high to solve its processing cost of present cutting means, and machining efficiency is slow, and is difficult to according to the technical problem of the comparatively special-shaped polaroid of cutting.

In order to solve the above problem, the present application provides a polarizer laser cutting apparatus, including: the device comprises a base, a portal frame and a first cutting processing module;

the portal frame is fixedly arranged on the base;

the first cutting processing module is correspondingly arranged on the front side of the portal frame and comprises a Y-axis moving assembly, a first X-axis moving assembly, a second X-axis moving assembly, a workbench and a laser cutting assembly;

the Y-axis moving assembly is arranged on the base, the first X-axis moving assembly is arranged on the Y-axis moving assembly, and the Y-axis moving assembly is used for driving the first X-axis moving assembly to slide along the Y axis;

the workbench is arranged on the first X-axis moving assembly, the first X-axis moving assembly is used for driving the workbench to slide along the X-axis direction, and the workbench is used for bearing the diaphragm;

the laser cutting assembly comprises a laser assembly and a plurality of laser cutting heads, the laser assembly corresponds to the plurality of laser cutting heads, and the laser assembly is fixedly arranged on the portal frame;

the laser cutting heads are arranged on the portal frame along the X-axis direction, and the second X-axis moving assembly is connected with the laser cutting heads so that the laser cutting heads can slide along the X-axis direction.

Further, the number of the laser cutting heads is 10.

Furthermore, the laser cutting head is also connected with a Z-axis moving assembly;

the Z-axis moving assembly is used for driving the laser cutting head to slide along the Z axis.

Further, the laser component is specifically CO₂A laser assembly.

Furthermore, the device also comprises a dust removal device;

the dust removal device is arranged on the portal frame and used for adsorbing smoke dust generated during cutting and machining.

Further, the workbench is provided with a negative pressure adsorption device;

the negative pressure adsorption device is used for adsorbing and fixing the membrane.

Furthermore, the device also comprises a second cutting and processing module;

the structure of the second cutting processing module is the same as that of the first cutting processing module;

the second cutting and processing module is correspondingly arranged on the rear side of the portal frame.

Further, the base specifically is the marble base.

Compared with the prior art, the embodiment of the application has the advantages that:

the application provides a polaroid laser cutting equipment includes: the device comprises a base, a portal frame and a first cutting processing module; the portal frame is fixedly arranged on the base; the first cutting processing module is correspondingly arranged on the front side of the portal frame and comprises a Y-axis moving assembly, a first X-axis moving assembly, a second X-axis moving assembly, a workbench and a laser cutting assembly; the Y-axis moving assembly is arranged on the base, the first X-axis moving assembly is arranged on the Y-axis moving assembly, and the Y-axis moving assembly is used for driving the first X-axis moving assembly to slide along the Y axis; the workbench is arranged on the first X-axis moving assembly, the first X-axis moving assembly is used for driving the workbench to slide along the X-axis direction, and the workbench is used for bearing the diaphragm; the laser cutting assembly comprises a laser assembly and a plurality of laser cutting heads, the laser assembly corresponds to the plurality of laser cutting heads, and the laser assembly is fixedly arranged on the portal frame; the laser cutting heads are arranged on the portal frame along the X-axis direction, and the second X-axis moving assembly is connected with the laser cutting heads so that the laser cutting heads can slide along the X-axis direction.

The laser cutting equipment for the polaroid provided by the application has the advantages that by arranging the Y-axis moving assembly and the first X-axis moving assembly, the worktable can flexibly move along the Y axis and the X axis, the laser cutting head can also move along the X axis by arranging the second X axis moving component, because the laser cutting heads are provided with a plurality of laser cutting heads, the plurality of laser cutting heads can simultaneously cut and process the membrane and are matched with the movement of the worktable in the X-axis direction and the Y-axis direction, thereby cutting the membrane into any preset pattern, simultaneously processing a plurality of laser cutting heads and improving the cutting processing efficiency, the distance of each laser cutting head is adjustable under the action of the second X-axis moving assembly, so that the laser cutting head can adapt to different spaced machining modes, the processing mode is diversified, the technical problems that the processing cost is high, the processing efficiency is low and the polaroid with the special shape is difficult to cut in the current cutting mode are solved.

Drawings

In order to more clearly illustrate the detailed description of the present application or the technical solutions in the prior art, the drawings needed to be used in the detailed description of the present application or the prior art description will be briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present application, and other drawings can be obtained by those skilled in the art without creative efforts.

Fig. 1 is a schematic structural diagram of polarizer laser cutting equipment provided in an embodiment of the present application.

Wherein the reference numerals are: the device comprises a base 1, a portal frame 2, a first cutting and processing module 3, a Y-axis moving component 4, a first X-axis moving component 5, a workbench 6, a laser cutting component 7, a laser component 8, a laser cutting head 9, a dust removal device 10 and a second cutting and processing module 11.

Detailed Description

The technical solutions of the present application will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are only some embodiments of the present application, but not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

In the description of the present application, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present application. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Unless expressly stated or limited otherwise, the terms "mounted," "connected," and "connected" are intended to be inclusive and mean, for example, that they may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present application can be understood in a specific case by those of ordinary skill in the art.

For easy understanding, please refer to fig. 1, in which fig. 1 is a schematic structural diagram of a polarizer laser cutting apparatus according to an embodiment of the present disclosure.

The embodiment of the application provides a polaroid laser cutting equipment, includes: the device comprises a base 1, a portal frame 2 and a first cutting and processing module 3;

the portal frame 2 is fixedly arranged on the base 1;

the first cutting processing module 3 is correspondingly arranged on the front side of the portal frame 2, and the first cutting processing module 3 comprises a Y-axis moving component 4, a first X-axis moving component 5, a second X-axis moving component, a workbench 6 and a laser cutting component 7;

the Y-axis moving assembly 4 is arranged on the base 1, the first X-axis moving assembly 5 is arranged on the Y-axis moving assembly 4, and the Y-axis moving assembly 4 is used for driving the first X-axis moving assembly 5 to slide along the Y axis;

the workbench 6 is arranged on the first X-axis moving assembly 5, the first X-axis moving assembly 5 is used for driving the workbench 6 to slide along the X-axis direction, and the workbench 6 is used for bearing the diaphragm;

the laser cutting assembly 7 comprises a laser assembly 8 and a plurality of laser cutting heads 9, the laser assembly 8 corresponds to the plurality of laser cutting heads, and the laser assembly 8 is fixedly arranged on the portal frame 2;

a plurality of laser cutting heads 9 are arranged on the portal frame 2 along the X-axis direction, and the second X-axis moving assembly is connected with the laser cutting heads 9, so that the laser cutting heads 9 can slide along the X-axis direction.

It should be noted that the first X-axis moving assembly 5, the Y-axis moving assembly 4, and the second X-axis moving assembly may be linear motor assemblies, and the drivers thereof are linear motors, and the respective movements are realized by the cooperation of a lead screw and a lead screw nut;

the Y-axis moving component 4 drives the first X-axis moving component 5 to move along the Y-axis direction, the first X-axis moving component 5 drives the processing table to move along the X-axis direction, so that the processing table can move along the Y-axis direction and the X-axis direction simultaneously, thereby being capable of walking out any pattern on the horizontal plane and reaching any position within the forming range, a plurality of laser cutting heads 9 are arranged on the portal frame 2 along the X axial direction, thereby cutting the material sheet on the worktable 6 in an array way, obtaining a plurality of polaroids with the same preset pattern at one time, and, the laser cutting head 9 is connected with the second X axle and moves the subassembly, makes the distance between the laser cutting head 9 each other adjust according to the required condition through the control of second X axle removal subassembly, has adapted to the cutting of the polaroid of different width sizes, and wherein, a laser cutting head 9 corresponds a slice polaroid.

The polaroid laser cutting equipment provided by the application enables the workbench 6 to flexibly move along the Y axis and the X axis by arranging the Y axis moving component 4 and the first X axis moving component 5, enables the laser cutting heads 9 to also move along the X axis by arranging the second X axis moving component, and improves the cutting efficiency by simultaneously processing the laser cutting heads 9 because the laser cutting heads 9 are provided with a plurality of laser cutting heads 9, so that the diaphragms can be simultaneously cut and processed, the distance of each laser cutting head 9 can be adjusted under the action of the second X axis moving component, thereby being suitable for processing modes with different intervals, enabling the processing modes to be more diversified, and solving the problem that the current cutting mode has high processing cost, the processing efficiency is slow, and the technical problem of difficult according to the comparatively special-shaped polaroid of cutting is solved.

As a further improvement, the number of the laser cutting heads 9 of the polarizer laser cutting apparatus provided in the embodiment of the present application is specifically 10, so that 10 identical shape patterns can be cut at one time, and the efficiency of polarizer cutting processing is improved.

As a further improvement, the laser cutting head 9 of the polarizer laser cutting device provided in the embodiment of the present application is further connected with a Z-axis moving assembly, and the Z-axis moving assembly is used for driving the laser cutting head 9 to slide along the Z-axis, so that the focal height of the laser emitted by the laser cutting head 9 is adjustable, and the cutting processing effect is further improved.

As a further improvement, the embodiment of the application providesThe laser component 8 of the polaroid laser cutting equipment is specifically CO₂ A laser assembly 8.

As a further improvement, the polarizer laser cutting apparatus provided in the embodiment of the present application further includes a dust removing device 10; the dust removal device 10 is arranged on the portal frame 2, and the dust removal device 10 is used for adsorbing smoke dust generated during cutting and processing. Specifically, the dust removing device 10 may be a device such as a dust remover commonly used in laser cutting, and as long as the function of adsorbing smoke dust and the like can be satisfied, the protection range of the dust removing device 10 can be within the present application.

As further improvement, the workstation 6 of polaroid laser cutting equipment that this application embodiment provided is provided with negative pressure adsorption equipment, and negative pressure adsorption equipment is used for adsorbing fixed diaphragm for the diaphragm can fix a position and fix on workstation 6, has made things convenient for laser cutting head 9 to carry out the accurate cutting.

As a further improvement, the polarizer laser cutting apparatus provided in the embodiment of the present application further includes a second cutting processing module 11;

the second cutting processing module 11 has the same structure as the first cutting processing module 3;

the second cutting and processing module 11 is correspondingly arranged at the rear side of the portal frame 2.

Specifically, the second cutting module 11 has the same structure as the first cutting module 3, namely, the second cutting module also comprises a Y-axis moving assembly 4, a first X-axis moving assembly 5, a second X-axis moving assembly, a worktable 6 and a laser cutting assembly 7; its Y axle movable part 4 corresponds to on setting up the base 1 of portal frame 2 rear side, and first X axle movable part 5 corresponds and sets up on Y axle movable part 4, and workstation 6 corresponds and sets up on first X axle movable part 5, and the laser cutting subassembly 7 of second cutting process module 11 includes laser instrument subassembly 8 and a plurality of laser cutting head 9, and laser instrument subassembly 8 sets up on portal frame 2, and a plurality of laser cutting head 9 correspond and set up on the trailing flank of portal frame 2. Therefore, the double-channel cutting of the polaroid can be realized, and the cutting efficiency is further improved.

As a further improvement, the base 1 of the polarizer laser cutting apparatus provided in the embodiment of the present application is specifically a marble base 1.

The above embodiments are only used for illustrating the technical solutions of the present application, and not for limiting the same; although the present application has been described in detail with reference to the foregoing embodiments, it should be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present application.

Claims (8)

1. A laser cutting apparatus for a polarizer, comprising: the device comprises a base, a portal frame and a first cutting processing module;

the portal frame is fixedly arranged on the base;

the first cutting processing module is correspondingly arranged on the front side of the portal frame and comprises a Y-axis moving assembly, a first X-axis moving assembly, a second X-axis moving assembly, a workbench and a laser cutting assembly;

the Y-axis moving assembly is arranged on the base, the first X-axis moving assembly is arranged on the Y-axis moving assembly, and the Y-axis moving assembly is used for driving the first X-axis moving assembly to slide along the Y axis;

the workbench is arranged on the first X-axis moving assembly, the first X-axis moving assembly is used for driving the workbench to slide along the X-axis direction, and the workbench is used for bearing the diaphragm;

the laser cutting assembly comprises a laser assembly and a plurality of laser cutting heads, the laser assembly corresponds to the plurality of laser cutting heads, and the laser assembly is fixedly arranged on the portal frame;

the laser cutting heads are arranged on the portal frame along the X-axis direction, and the second X-axis moving assembly is connected with the laser cutting heads so that the laser cutting heads can slide along the X-axis direction.

2. The polarizer laser cutting apparatus of claim 1, wherein the number of the laser cutting heads is 10 in particular.

3. The polarizer laser cutting apparatus of claim 1, wherein the laser cutting head is further connected with a Z-axis moving assembly;

the Z-axis moving assembly is used for driving the laser cutting head to slide along the Z axis.

4. The laser cutting apparatus for polarizers according to claim 1, wherein the laser assembly is specifically CO₂A laser assembly.

5. The polarizer laser cutting apparatus according to claim 1, further comprising a dust removing device;

the dust removal device is arranged on the portal frame and used for adsorbing smoke dust generated during cutting and machining.

6. The polarizer laser cutting apparatus according to claim 1, wherein the worktable is provided with a negative pressure adsorption device;

the negative pressure adsorption device is used for adsorbing and fixing the membrane.

7. The polarizer laser cutting apparatus of claim 1, further comprising a second cutting processing module;

the structure of the second cutting processing module is the same as that of the first cutting processing module;

the second cutting and processing module is correspondingly arranged on the rear side of the portal frame.

8. The polarizer laser cutting apparatus of claim 1, wherein the base is specifically a marble base.

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