CN210207933U - Processing equipment for removing printing ink - Google Patents

Abstract

The utility model relates to a get rid of processing equipment of printing ink, including removing the subassembly, being used for the transmitter of transmitting laser and the carrier that is used for placing the test piece, carrier and transmitter all are connected with removing the subassembly to remove under the drive that removes the subassembly, so that the laser that the transmitter sent shines on the test piece surface. The utility model provides a processing equipment of getting rid of printing ink only needs to shine laser beam to the processing position of test piece through the relative position of removing subassembly adjustment transmitter and carrier, can accomplish printing ink and get rid of, and production simple process, production efficiency is high to do not injecive the test piece kind, satisfy the demand of getting rid of multiple glass apron surface printing ink, have higher practicality.

Description

Processing equipment for removing printing ink

Technical Field

The utility model relates to a surface treatment and processing technology field especially relate to a get rid of processing equipment of printing ink.

Background

Along with the development of science and technology and economy, the application of mobile terminal equipment is increasingly wide, and the use amount and the requirement on a glass cover plate in a mobile terminal equipment accessory are gradually increased. In the processing process of the glass cover plate, an ink spraying process is needed, and because ink molecules are easy to diffuse, redundant ink is remained on the surface of the glass cover plate, the display effect of a visual area is affected, and the ink needs to be removed.

The ink removal can be realized by adopting solvent cleaning or soaking and manual scraping, but the process flow of solvent removal is complex, the cost is higher, the efficiency and consistency of manual removal are low, the glass panel is easily scratched, defective products are generated, and the using adverse effect of electronic equipment is influenced.

SUMMERY OF THE UTILITY MODEL

The invention aims to provide processing equipment for removing printing ink, which overcomes the defects of low printing ink removing efficiency and poor practicability of the existing production equipment.

The existing device has the defects of poor ink removing effect and influence on product performance.

The utility model provides a technical scheme that above-mentioned technical problem adopted is:

the utility model provides a get rid of processing equipment of printing ink, includes the removal subassembly, is used for the transmitter of transmission laser and is used for placing the carrier of test piece, carrier and transmitter all are connected with the removal subassembly to move under the drive of removal subassembly, so that the laser that the transmitter sent shines on the test piece surface.

In a preferred embodiment, the moving assembly includes an X-axis moving module, a Y-axis moving module, and a Z-axis moving module, the transmitter is connected to the Z-axis moving module, and the carrier is connected to the Y-axis moving module.

In a preferred embodiment, the X-axis moving module includes a first slide rail and a first slider movable along the first slide rail, and the Y-axis moving module includes a second slide rail and a second slider movable along the second slide rail, and the second slide rail is connected to the first slider.

In a preferred embodiment, the Z-axis moving module includes a third slide rail and a third slide block movable along the third slide rail, and the transmitter is connected to the third slide block.

In a preferred embodiment, the laser device further comprises a galvanometer assembly, wherein the galvanometer assembly is connected with the emitter, and laser light emitted from the emitter passes through the galvanometer assembly and is emitted from the galvanometer assembly.

In a preferred embodiment, the positioning device further comprises a positioning assembly, wherein the positioning assembly comprises a CCD camera, and the CCD camera is connected with the galvanometer assembly.

In a preferred embodiment, the laser marking device further comprises a marking card module, wherein the marking card module is connected with the galvanometer component and adjusts the state of laser emitted from the galvanometer component.

In a preferred embodiment, the laser emitted by the emitter is an infrared laser.

In a preferred embodiment, the wavelength of the infrared laser is not less than 1 μm, and the focal length of the infrared laser is not less than 300 mm.

In a preferred embodiment, still include the adsorption plate, the adsorption plate with the removal subassembly is connected and removes under the drive of removal subassembly, the carrier install in on the adsorption plate, the adsorption plate is equipped with connecting portion, connecting portion pass the carrier and adsorb the test piece.

The utility model has the advantages that:

the utility model provides a processing equipment of getting rid of printing ink only needs to shine laser beam to the processing position of test piece through the relative position of removing subassembly adjustment transmitter and carrier, can accomplish printing ink and get rid of, and production simple process, production efficiency is high to do not injecive the test piece kind, satisfy the demand of getting rid of multiple glass apron surface printing ink, have higher practicality.

Drawings

The present invention will be further explained with reference to the drawings and examples.

FIG. 1 is a schematic diagram of an embodiment of a processing apparatus for removing ink;

FIG. 2 is a schematic view of the other direction of the ink removing processing apparatus.

Detailed Description

The conception, specific structure and technical effects of the present invention will be described clearly and completely with reference to the accompanying drawings and embodiments, so as to fully understand the objects, aspects and effects of the present invention. It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict.

It should be noted that, unless otherwise specified, when a feature is referred to as being "fixed" or "connected" to another feature, it may be directly fixed or connected to the other feature or indirectly fixed or connected to the other feature. Furthermore, the description of the upper, lower, left, right, etc. used in the present invention is only relative to the mutual positional relationship of the components of the present invention in the drawings.

Furthermore, unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art. The terminology used in the description herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any combination of one or more of the associated listed items.

Referring to fig. 1 to 2, the processing apparatus for removing ink in this embodiment includes a base 10, a moving assembly 20 mounted on an upper surface of the base 10, and an emitter 30, wherein the emitter 30 is connected to the moving assembly 20 and can be driven by the moving assembly 20 to move; the device also comprises a carrier 40 for placing a test piece to be processed, wherein the carrier 40 is connected with the moving assembly 20 and can be driven by the moving assembly 20 to move; the positions of the emitter 30 and the carrier 40 are adjusted by the moving assembly 20, so that the laser emitted by the emitter 30 is aligned to the position to be processed of the test piece, and the ink at the processing position of the test piece is removed by irradiating the test piece with the laser.

The test piece to be processed can be other light-transmitting materials such as a common glass cover plate, a 3D glass cover plate and the like, and ink on the surface of the test piece is peeled off under the irradiation of a laser beam, so that the ink is removed. Above-mentioned processing only needs to adjust the relative position of transmitter 30 and carrier 40 through removing subassembly 20, shines the processing position of laser beam to the test piece, can accomplish printing ink and get rid of, and production simple process, production efficiency is high to do not inject the test piece kind, satisfy the demand of getting rid of multiple glass apron surface printing ink, have higher practicality.

Preferably, the emitter 30 adopts an infrared laser, so that the emergent laser of the emitter 30 is an infrared laser, the infrared laser has the characteristics of high stability, low noise and high output power, and can ensure that the laser stably and accurately irradiates the processing position of the test piece, so that the laser beam can remove the ink on the surface of the test piece under weaker energy, and the phenomenon that the test piece is damaged or damaged due to overhigh intensity of the laser beam is avoided. The laser wavelength is not less than 1 μm, the laser focal length is not less than 300mm, and the long-focus and long-wavelength infrared laser has extremely high output energy percentage and high repetition frequency, can well improve the efficiency of removing ink, and protects a test piece from being damaged.

Specifically, the moving assembly 20 includes an X-axis moving module 21 and a Y-axis moving module 22, the X-axis moving module 21 includes a first guide rail 211 and a first slider 212 capable of sliding along the first guide rail 211, and the first guide rail 211 is mounted on the upper surface of the base 10; the Y-axis moving module 22 includes a second guide rail 221 and a second slider (not shown due to being hidden) movable along the second guide rail 221, the second guide rail 221 is connected to the first slider 212, so that the second guide rail 221 can move along the first guide rail 211 along with the first slider 212, and the carrier 40 is mounted above the second slider, so that the carrier 40 can move along with the second slider.

The first slider 212 and the second slider can be driven by an air cylinder, and the two air cylinders respectively connected with the first slider 212 and the second slider are arranged, so that the first slider 212 moves along the first guide rail 211 under the driving of the air cylinder, and the second slider moves along the second guide rail 221 under the driving of the air cylinder. First guide rail 211 intersects second guide rail 221 at an angle such that first slider 212 and second slider are movable in different directions, increasing the range of movement at carrier 40. Because the second guide rail 221 is connected with the first slider 212, the second slider can move along the direction pointed by the first guide rail 211 and the second guide rail 221, and drives the carrier 40 to translate, so that the position of the carrier 40 relative to the laser can be adjusted, the laser can irradiate different processing positions of the test piece, and the processing requirement for removing ink at different positions of the test piece is met.

The moving assembly 20 further includes a Z-axis moving module 23, the Z-axis moving module 23 includes a third guide rail 231 and a third slider 232 movable along the third guide rail 231, and the emitter 30 is connected to the third slider 232 and moves along the third guide rail 231 along with the third slider 232. The third guide rail 231 is vertically installed on the base 10 through a mounting seat, the third slider 232 drives the emitter 30 to move along the vertical direction, and the relative distance between the laser emitter 30 and the carrier 40 is adjusted, so that the surface of the test piece is just located at the focal position of laser emitted by the laser, and the accuracy of ink removal and the processing efficiency are improved.

The adsorption plate 50 is positioned between the second slider 222 and the carrier 40, the adsorption plate 50 is connected with the second slider 222 and moves along with the second slider 222, and the carrier 40 is arranged above the adsorption plate 50 and is relatively fixed with the adsorption plate 50; a protruding connection portion 51 is disposed at the center of the adsorption plate 50, and the connection portion 51 protrudes upward based on the center of the adsorption plate 50 and penetrates out of the center of the carrier 40, so that when a test piece is placed on the carrier 40, the surface of the test piece can contact with the connection portion 51, the test piece is relatively fixed to the carrier 40 under the adsorption action of the adsorption plate 50, and the test piece and the carrier 40 can move along with the third sliding block 232.

Still include mirror assembly 60 that shakes, mirror assembly 60 that shakes is connected with transmitter 30, and the laser beam that transmitter 30 sent jets out through mirror assembly 60 that shakes, and laser beam sends from transmitter 30 along the horizontal direction, and the laser beam direction through mirror assembly 60 that shakes deflects, shines perpendicularly downwards along vertical direction, and laser beam focuses on behind mirror assembly 60 that shakes, makes laser beam form the facula on the surface of test piece, shines the laser facula on the test piece surface and can get rid of the printing ink on the test piece.

The positioning assembly 70 in this embodiment includes two CCD cameras 71, the two CCD cameras 71 are respectively installed on two sides of the galvanometer assembly 60, the two CCD cameras 71 can respectively photograph and position different positions of the test piece, and adjust the relative position of the test piece on the carrier 40, so that the laser beam can accurately irradiate the processing position of the test piece, and the accuracy of removing ink from the test piece is improved. A backlight source is further arranged below the adsorption plate 50 to ensure the accuracy of photographing the test piece by the CCD camera 71 and improve the positioning accuracy of the test piece.

Still include marking card module 80, marking card module 80 is connected with the mirror subassembly 60 that shakes through software system (not shown), marking card module 80 can adjust the mirror that shakes in the mirror subassembly 60 and rotate, carry out printing ink with the corresponding processing parameter of adjustment (such as laser frequency, laser power, scanning speed, focus position etc.) and get rid of, through marking card module 80 adjustment back, the outgoing state (such as outgoing direction, laser facula position) of the laser beam who sends from mirror subassembly 60 that shakes changes, make laser beam be applicable to the printing ink of the test piece of different grade type and get rid of, the practicality of the processing equipment of getting rid of printing ink has been improved.

The working flow of the processing equipment for removing the printing ink comprises the following steps: placing a test piece to be processed at a corresponding position of the carrier 40, and adsorbing the test piece by the adsorption plate 50 to relatively fix the test piece with the carrier 40 and the adsorption plate 50; adjusting the X-axis moving module 21 and the Y-axis moving module 22 to move the carrier 40 and the test piece to the laser processing area; adjusting the Z-axis moving module to enable the emitter 30 to vertically move, so as to realize focusing, and enabling the focus of the laser beam emitted by the emitter 30 to be just positioned on the surface of the test piece; photographing and positioning the test piece by using a CCD camera 71; the galvanometer deflects the laser beam direction and emits laser, and the laser irradiates the position to be processed of the test piece to remove the ink on the surface of the test piece; adjusting the X-axis moving module 21 and the Y-axis moving module 22 to move the carrier 40 to the blanking area, and the adsorption plate 50 is disconnected from adsorbing the test piece, so as to take out the processed test piece.

While the preferred embodiments of the present invention have been described, the present invention is not limited to the embodiments, and those skilled in the art can make various equivalent modifications or substitutions without departing from the spirit of the present invention, and such equivalent modifications or substitutions are intended to be included within the scope of the present invention as defined by the appended claims.

Claims (10)

1. The processing equipment for removing the printing ink is characterized by comprising a moving assembly, a transmitter for transmitting laser and a carrier for placing a test piece, wherein the carrier and the transmitter are both connected with the moving assembly and move under the driving of the moving assembly so that the laser emitted by the transmitter irradiates the surface of the test piece.

2. The de-inking processing apparatus according to claim 1, wherein the moving assembly includes an X-axis moving module, a Y-axis moving module, and a Z-axis moving module, the transmitter is connected to the Z-axis moving module, and the carrier is connected to the Y-axis moving module.

3. The ink removing processing device according to claim 2, wherein the X-axis moving module includes a first slide rail and a first slider movable along the first slide rail, and the Y-axis moving module includes a second slide rail and a second slider movable along the second slide rail, and the second slide rail is connected to the first slider.

4. The ink removing processing apparatus according to claim 2, wherein the Z-axis moving module includes a third slide rail and a third slide block movable along the third slide rail, and the emitter is connected to the third slide block.

5. The de-inking processing apparatus of claim 1, further comprising a galvanometer assembly coupled to the emitter, wherein the laser light emitted from the emitter passes through the galvanometer assembly and exits the galvanometer assembly.

6. The de-inking processing apparatus of claim 5, further comprising a positioning assembly including a CCD camera coupled to the galvanometer assembly.

7. The ink removal processing device of claim 5, further comprising a marking card module coupled to the galvanometer assembly and configured to regulate the state of the laser emitted from the galvanometer assembly.

8. The de-inking apparatus according to claim 1, wherein the laser emitted by the emitter is an infrared laser.

9. The ink-removing processing apparatus according to claim 8, wherein the infrared laser has a wavelength of not less than 1 μm and a focal length of not less than 300 mm.

10. The processing equipment for removing the printing ink according to claim 1, further comprising an adsorption plate connected with the moving assembly and driven by the moving assembly to move, wherein the carrier is mounted on the adsorption plate, the adsorption plate is provided with a connecting portion, and the connecting portion penetrates through the carrier and adsorbs the test piece.

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