CN109049866B

CN109049866B - Creative glass with digital printing three-dimensional effect

Info

Publication number: CN109049866B
Application number: CN201811263748.5A
Authority: CN
Inventors: 王印; 周鹏华; 苗晓荣
Original assignee: Guangzhou Miaotai New Material Technology Co ltd
Current assignee: Guangzhou Miaotai New Material Technology Co ltd
Priority date: 2018-10-28
Filing date: 2018-10-28
Publication date: 2023-07-07
Anticipated expiration: 2038-10-28
Also published as: CN109049866A

Abstract

The invention discloses creative glass with a three-dimensional effect for digital printing, which comprises bottom glass, wherein a cover plate component is arranged on one side of the bottom glass, and a protection component is arranged on one side of the cover plate component.

Description

Creative glass with digital printing three-dimensional effect

Technical Field

The invention relates to the technical field of glass, in particular to creative glass with a digital printing three-dimensional effect.

Background

The glass is amorphous inorganic nonmetallic material, generally uses a plurality of inorganic minerals as main raw materials, is added with a small amount of auxiliary raw materials to prepare the glass, is widely applied to buildings, is used for isolating wind and transmitting light, belongs to a mixture, is additionally mixed with oxides or salts of certain metals to display color, and is also used as tempered glass prepared by a physical or chemical method, the glass can also be used as an advertising board to display images, the common glass is used for displaying by adding one image into two layers of glass, and a viewer can only watch planar images, the display effect is general and can not generate visual shock and the like for the viewer, so that the glass creative in digital printing three-dimensional effect is urgently needed to solve the problems.

Disclosure of Invention

The invention provides creative glass with a three-dimensional effect through digital printing, which can effectively solve the problems that the common glass provided in the background art is displayed by adding one image into two layers of glass, a viewer can only watch a planar image, the display effect is general, visual shock cannot be generated for the viewer, and the like.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a digital creative glass who prints three-dimensional stereoeffect, includes bottom glass, the carborundum layer is installed to bottom glass bottom, metal bottom plate is installed to carborundum layer bottom, it has the film layer to fill between metal bottom plate and the carborundum layer, image layer is installed on bottom glass top, medium glass is installed on the image layer top, install the silicon nitride layer between medium glass and the bottom glass, the grating subassembly is installed on medium glass top, the grating subassembly includes grating rete, first super transparent double faced adhesive coating, cylindrical lines and slit, the medium glass top is attached to the grating rete, install first super transparent double faced adhesive coating between grating rete and the medium glass, cylindrical lines has been seted up the slit between the cylindrical lines, the apron subassembly is installed on medium glass top, the apron subassembly includes apron glass, connecting lug, shrinkage pool, second super transparent double faced adhesive coating and recess, apron glass is installed on the top, a connecting lug is installed to apron glass side, connecting lug one side is equipped with grating layer, first super transparent double faced adhesive coating is installed to glass cushion, protective sleeve is installed to one side, protective cover protection sleeve is connected with glass bottom one side, protective sleeve is connected with glass protective cover pad, protective sleeve is installed to one side, protective sleeve is connected with glass bottom, protective sleeve is equipped with one side.

According to the technical scheme, the bottom end of the metal bottom plate is provided with the connecting hole.

According to the technical scheme, the image layer is internally filled with eight pictures.

According to the technical scheme, the thickness of the grating film is 12-20 um.

According to the technical scheme, the number of lines of the grating film is thirty-two lines.

According to the technical scheme, the thickness of the groove is larger than that of the grating film.

A digital printing three-dimensional effect creative glass manufacturing method comprises the following steps:

s1, treating bottom glass: polishing and cleaning the bottom glass;

s2, image design: designing through images required by software;

s3, pre-browsing: arranging designed images through software, observing the stereoscopic effect in advance, and printing when meeting the requirement;

s4, sticking: coating the back of the printed picture with full transparent colloid, pasting the full transparent colloid on the upper surface of bottom glass, and carrying out film coating compaction through a cold mounting machine;

s5, selecting a grating film: selecting the type of the grating film according to the size and the position of the display picture;

s6, manufacturing a grating plate: coating ultra-transparent double faced adhesive tape on the top end of dielectric glass, and pressurizing a grating film by using a cold mounting machine to cool the surface;

s7, combining: fixedly combining the grating plate with bottom glass;

s8, capping: and polishing one side of the cover plate glass to manufacture a groove, and coating transparent double-sided adhesive tape on the periphery of the cover plate glass to be connected with the top end of the second layer of glass.

According to the above technical scheme, in step S1, polishing and cleaning the bottom glass means polishing the surface of the bottom glass, degreasing by a cleaning agent, cleaning with water, naturally drying, wiping with alcohol again, and air-drying.

According to the above technical solution, in the step S3, the designed images are arranged by software, the stereoscopic effect is observed in advance, and printing is performed when the requirement is met, which means that different designed images are stereoscopically encoded, image information with a certain dislocation interval is generated, and the images are subjected to cross processing, wherein the calculation of the dislocation should be met: the dislocation of the large image is larger than that of the small image, the dislocation of the layer with large scene size is larger than that of the layer with small scene size, and the dislocation of the whole scene is larger than that of the scattered scene.

According to the above technical scheme, in step S6, the ultra-transparent double sided adhesive tape is coated on the top end of the dielectric glass, and the pressurizing and cooling of the grating film by using the cold mounting machine means that the ultra-transparent double sided adhesive tape is firstly attached to one side of the dielectric glass by using the cold mounting machine, and then the grating film is attached to one side of the ultra-transparent double sided adhesive tape by using the cold mounting machine, wherein whether the positions of the grating film and the dielectric glass are parallel or not is observed in advance, whether magazine dust exists between the grating film and the dielectric glass or not is observed in advance, and the pressing wheel uniformly presses.

Bottom glass, silicon carbide layer, film layer, metal bottom plate, image layer, medium glass, silicon nitride layer, grating component, grating membrane layer, first super transparent double faced adhesive tape coating, cylindrical lines, slits, cover plate component, cover plate glass, connecting lugs, concave holes, second super transparent double faced adhesive tape coating, grooves, protective component, protective sleeve, connecting grooves, anti-slip pad and buffer pad.

Compared with the prior art, the invention has the beneficial effects that: the glass is scientific and reasonable, safe and convenient to use, the bottom glass is arranged, the wear-resisting effect of the glass is conveniently improved through the functions of the silicon carbide layer, the film layer and the metal bottom plate, the service life is prolonged, the metal bottom plate is utilized, the installation is more convenient, the grating film layer is conveniently protected through the function of the cover plate glass, the damage caused by friction between the grating film layer and an external object in the using process of the glass is avoided, the edge of the glass is conveniently protected through the functions of the protective sleeve, the connecting groove, the anti-skid pad and the buffer pad, the collision damage of the glass and the external object in the transporting process is avoided, the dislocation between the images is conveniently regulated through the pre-browsing function of the designed images, the image ghost is reduced, the watching comfort of an observer is improved, the dizzy is avoided when the observer watches is avoided, the grating plate is conveniently manufactured through the grating film, the cost of glass manufacturing is conveniently reduced, meanwhile, the grating film is more convenient to process, different shapes can be cut and processed according to practical conditions, and the operation is more convenient.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention.

In the drawings:

FIG. 1 is a block diagram of a stereoscopic glass of the present invention;

FIG. 2 is a block diagram of the underlying glass of the present invention;

FIG. 3 is a block diagram of a grating assembly of the present invention;

FIG. 4 is a block diagram of a cover plate assembly of the present invention;

FIG. 5 is a block diagram of a protective assembly of the present invention;

FIG. 6 is a flow chart of a method of making a stereoscopic glass of the present invention;

reference numerals in the drawings: 1. bottom layer glass; 2. a silicon carbide layer; 3. a film layer; 4. a metal base plate; 5. an image layer; 6. dielectric glass; 7. a silicon nitride layer; 8. a grating assembly; 801. a grating film layer; 802. a first ultra-transparent double sided tape coating; 803. a cylindrical line; 804. a slit; 9. a cover plate assembly; 901. cover glass; 902. a connection bump; 903. concave holes; 904. a second ultra-transparent double sided adhesive coating; 905. a groove; 10. a protection component; 1001. a protective sleeve; 1002. a connecting groove; 1003. an anti-slip pad; 1004. and a cushion pad.

Detailed Description

The preferred embodiments of the present invention will be described below with reference to the accompanying drawings, it being understood that the preferred embodiments described herein are for illustration and explanation of the present invention only, and are not intended to limit the present invention.

Example 1: as shown in fig. 1-5, a digital printing three-dimensional effect creative glass comprises bottom glass, the silicon carbide layer is installed to bottom glass bottom, metal bottom plate is installed to silicon carbide layer bottom, the film layer is filled between metal bottom plate and the silicon carbide layer, the image layer is installed on bottom glass top, medium glass is installed on the image layer top, install the silicon nitride layer between medium glass and the bottom glass, the grating subassembly is installed on medium glass top, the grating subassembly includes the grating rete, first super transparent double faced adhesive coating, cylindrical lines and slit, medium glass top is attached with the grating rete, install first super transparent double faced adhesive coating between grating rete and the medium glass, cylindrical lines are evenly installed on grating rete top, set up the slit between the cylindrical lines, medium glass top is installed on the apron subassembly, the apron subassembly includes apron glass, connecting lug, the shrinkage pool, second super transparent double faced adhesive coating and recess, medium glass installs on one side of connecting lug, install the second super transparent double faced adhesive coating between connecting lug and the medium glass, install protective sleeve at the central point of apron glass one side, protective pad is installed to protective sleeve, protective sleeve is installed to protective pad is installed to protective sleeve one side, protective sleeve is installed to protective sleeve is all the protective sleeve is installed to protective sleeve, protective sleeve is installed to bottom, protective sleeve is installed to protective sleeve is all inside the protective sleeve.

According to the technical scheme, the inside of the image layer is filled with eight pictures.

According to the technical scheme, the number of the lines of the grating film is thirty-two lines.

Example 2: as shown in fig. 6, a method for manufacturing creative glass with three-dimensional effect by digital printing includes the following steps:

s1, treating bottom glass: polishing and cleaning the bottom glass;

s2, image design: designing through images required by software;

s7, combining: fixedly combining the grating plate with bottom glass;

According to the technical scheme, in the step S1, polishing and cleaning the bottom glass means polishing the surface of the bottom glass, degreasing by a cleaning agent, cleaning by water, naturally drying, wiping again by alcohol, and air-drying.

According to the above technical solution, in step S3, the designed images are arranged by software, the stereoscopic effect is observed in advance, and printing is performed when the requirements are met, which means that different designed images are stereoscopically encoded, image information with a certain dislocation interval is generated, and the images are subjected to cross processing, wherein the calculation of the dislocation should be met: the dislocation of the large image is larger than that of the small image, the dislocation of the layer with large scene size is larger than that of the layer with small scene size, and the dislocation of the whole scene is larger than that of the scattered scene.

According to the technical scheme, in the step S6, the ultra-transparent double-sided adhesive tape is coated on the top end of the medium glass, the pressurizing cold surface of the grating film by using the cold mounting machine means that the ultra-transparent double-sided adhesive tape is firstly attached to one side of the medium glass by using the cold mounting machine, and then the grating film is attached to one side of the ultra-transparent double-sided adhesive tape by using the cold mounting machine, wherein whether the positions of the grating film and the medium glass are parallel or not is observed in advance, whether magazine dust exists between the grating film and the medium glass or not is observed in advance, and the pressing wheel is uniformly pressurized.

Example 3: a digital printing three-dimensional effect creative glass manufacturing method comprises the following steps:

s1, treating bottom glass: polishing and cleaning the bottom glass;

s2, image design: designing through images required by software;

s3, sticking: coating the back of the printed picture with full transparent colloid, pasting the full transparent colloid on the upper surface of bottom glass, and carrying out film coating compaction through a cold mounting machine;

s4, selecting a grating film: selecting the type of the grating film according to the size and the position of the display picture;

s5, manufacturing a grating plate: coating ultra-transparent double faced adhesive tape on the top end of dielectric glass, and pressurizing a grating film by using a cold mounting machine to cool the surface;

s6, combining: fixedly combining the grating plate with bottom glass;

s7, capping: and polishing one side of the cover plate glass to manufacture a groove, and coating transparent double-sided adhesive tape on the periphery of the cover plate glass to be connected with the top end of the second layer of glass.

According to the above technical scheme, in step 56, the ultra-transparent double sided adhesive tape is coated on the top end of the medium glass, and the pressurizing and cold surface of the grating film by using the cold mounting machine means that the ultra-transparent double sided adhesive tape is firstly attached to one side of the medium glass by using the cold mounting machine, and then the grating film is attached to one side of the ultra-transparent double sided adhesive tape by using the cold mounting machine, wherein whether the positions of the grating film and the medium glass are parallel or not is observed in advance, whether magazine dust exists between the grating film and the medium glass or not, and the pressing wheel uniformly presses.

Example 4: a digital printing three-dimensional effect creative glass manufacturing method comprises the following steps:

s1, treating bottom glass: polishing and cleaning the bottom glass;

s2, image design: designing through images required by software;

s5, selecting a grating plate: selecting the type of the grating plate according to the size and the position of the display picture;

s6, combining: fixedly combining the grating plate with bottom glass;

Data and analysis;

the invention was made as in examples 2-4 and the index of the finished stereoscopic glass was examined as follows:

inspection item	Example 1	Example 2	Example 3
				Cost of	Low and low	Low and low	High height
Whether or not the image has ghost	Without any means for	Partial ghost	Without any means for
				Difficulty of processing	Simple	Difficulty in	Simple

From the production index conditions of the industrial tests in the embodiments 2-4, the grating film is used as an optical material, the manufacturing cost is low, the post processing is simple and convenient, the software is used in advance to browse the images, the ghost of the finished images is reduced, the stereoscopic effect of the images is improved, and the viewing is more comfortable.

Based on the above, the invention has the advantages that: through the effect of carborundum layer, film layer and metal bottom plate, be convenient for improve glass's wear-resisting effect, increase of service life, utilize metal bottom plate's effect, it is more convenient to install, through cover glass's effect, be convenient for protect grating rete, avoid glass to rub with external object and cause the damage in the use, through the protective sheath, the spread groove, the effect of slipmat and buffer pad, be convenient for protect glass's edge, avoid glass to bump damage with external object in the transportation, through the effect of browsing in advance to the image of design, be convenient for adjust dislocation between the image, reduce image ghost test, improve observer's viewing comfort level, produce dizzy when avoiding the observer to watch, be convenient for reduce the cost of glass preparation, the processing of grating membrane is more convenient simultaneously, can cut the different shapes of processing according to actual conditions, the operation is more convenient.

Finally, it should be noted that: the foregoing is merely a preferred example of the present invention, and the present invention is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present invention has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The creative glass with the digital printing three-dimensional effect comprises bottom glass (1), and is characterized in that: the bottom layer glass (1) bottom is provided with a silicon carbide layer (2), the bottom end of the silicon carbide layer (2) is provided with a metal bottom plate (4), a film layer (3) is filled between the metal bottom plate (4) and the silicon carbide layer (2), the top end of the bottom layer glass (1) is provided with an image layer (5), the top end of the image layer (5) is provided with a dielectric glass (6), the top end of the dielectric glass (6) is provided with a silicon nitride layer (7) between the dielectric glass (6) and the bottom layer glass (1), the top end of the dielectric glass (6) is provided with a grating component (8), the grating component (8) comprises a grating film layer (801), a first ultra-transparent double-sided adhesive coating (802), cylindrical lines (803) and slits (804), the novel optical fiber composite material is characterized in that a grating film layer (801) is attached to the top end of the medium glass (6), a first ultra-transparent double-sided adhesive coating (802) is arranged between the grating film layer (801) and the medium glass (6), cylindrical lines (803) are uniformly arranged on the top end of the grating film layer (801), slits (804) are formed between the cylindrical lines (803), a cover plate assembly (9) is arranged on the top end of the medium glass (6), and the cover plate assembly (9) comprises cover plate glass (901), connecting convex blocks (902), concave holes (903), the second ultra-transparent double-sided adhesive coating (904) and the groove (905), cover glass (901) is installed on the top of grating film layer (801), connecting lug (902) is installed at one side of cover glass (901), shrinkage pool (903) are seted up to connecting lug (902) one side, install second ultra-transparent double-sided adhesive coating (904) between connecting lug (903) and medium glass (6), groove (905) are seted up in cover glass (901) one side central point department, protection component (10) are installed to bottom glass (1) one side, protection component (10) include protective sheath (1001), spread groove (1002), slipmat (1003) and cushion (1004), protective sheath (1001) are all installed at bottom glass (1) limit, spread groove (1002) are seted up to protective sheath (1001) one side, spread groove (1002) internally mounted has slipmat (1003), blotter (1004) are all installed at protective sheath (1001) both ends;

s1, treating bottom glass: polishing and cleaning the bottom glass;

s2, image design: designing through images required by software;

s7, combining: fixedly combining the grating plate with bottom glass;

s8, capping: polishing one side of the cover plate glass to form a groove, and coating transparent double-sided adhesive tape on the periphery of the groove to connect with the top end of the second layer of glass;

in the step S3, the designed images are arranged by software, the stereoscopic effect is observed in advance, and printing is performed when the requirements are met, namely, different designed images are subjected to stereoscopic encoding, image information with a certain dislocation interval is generated, and the images are subjected to cross processing, wherein the requirements are met when calculating the dislocation: the dislocation of the large image is larger than that of the small image, the dislocation of the layer with large scene size is larger than that of the layer with small scene size, and the dislocation of the whole scene is larger than that of the scattered scene.

2. The digitally printed three dimensional creative glass of claim 1, wherein: and the bottom end of the metal bottom plate (4) is provided with a connecting hole.

3. The digitally printed three dimensional creative glass of claim 1, wherein: the image layer (5) is internally filled with eight pictures.

4. The digitally printed three dimensional creative glass of claim 1, wherein: the thickness of the grating film (801) is 12-20 um.

5. The digitally printed three dimensional creative glass of claim 1, wherein: the number of lines of the grating film (801) is thirty-two lines.

6. The digitally printed three dimensional creative glass of claim 1, wherein: the thickness of the grooves (905) is greater than the thickness of the grating film (801).

7. The digitally printed three dimensional creative glass of claim 1, wherein: in the step S1, polishing and cleaning the bottom glass refers to polishing and cleaning the surface of the bottom glass, degreasing by a cleaning agent, cleaning by water, naturally drying, wiping again by alcohol, and air-drying.

8. The digitally printed three dimensional creative glass of claim 1, wherein: in the step S6, the ultra-transparent double faced adhesive tape is coated on the top end of the medium glass, the pressurizing and cooling surface of the grating film by using the cold mounting machine means that the ultra-transparent double faced adhesive tape is firstly attached on one side of the medium glass by using the cold mounting machine, and then the grating film is attached on one side of the ultra-transparent double faced adhesive tape by using the cold mounting machine, wherein whether the positions of the grating film and the medium glass are parallel or not is observed in advance, whether magazine dust exists between the grating film and the medium glass or not is observed, and the pressing wheel uniformly presses.