CN106891633A - Glass panel typography - Google Patents

Abstract

The present invention relates to the technical field of panel printing, a kind of glass panel typography is disclosed, comprised the following steps：Glass panel is cleaned；Photosensitive-ink is sprayed in the area of the pattern of glass panel；The glass panel that photosensitive-ink spraying will be completed is positioned over without prebake conditions in the environment of ultraviolet light；The glass panel for completing prebake conditions is positioned under ultraviolet light and is exposed；The glass panel for completing exposure is cleaned using weak alkaline aqueous solution；The glass panel for completing will be cleaned to be dried.Glass panel typography proposed by the present invention, the pattern accuracy for printing is high, ink stability is good, ink film thickness is low, do not allow to be also easy to produce bubble, can efficiently solve in existing glass panel typography and there is a problem of that ink film thickness high, easy generation bubble and production precision are low, the production efficiency of glass panel typography is improve, the production precision of whole typography is improved.

Description

Glass panel typography

Technical field

The present invention relates to the technical field of panel printing, more particularly to a kind of glass panel typography.

Background technology

With developing rapidly for science and technology, electronic product also develops towards lightening and personalized direction, to electronic product Quality requirement also more and more higher.By taking smart mobile phone as an example, glass panel is one of essential component of smart mobile phone, existing The glass panel for having smart mobile phone has been not limited solely to plane, and solid surface glass panel gradually comes into vogue, therefore, Wish to capture leading position in this market, it is necessary to trend of going with the tide of historical development, improve electronic product lightening, personalized and Quality.

At present, the glass panel of electronic product realizes pattern printing typically by following two schemes：The first is silk Net typography, will the pattern of glass panel be exposed on half tone by the film, then by ink by being screen printed onto face On plate, by after baking-curing, the pattern that ink is formed is fixed on glass panels, the advantage of this scheme be technical maturity, into This is low, but has the disadvantage that the thickness of ink is high, easily produces bubble, low production efficiency, yields is low, cannot be applied to solid surface On glass；For second silk-screen printing or printing or plating plus attaching process, will the pattern of glass panel pass through silk-screen printing On rupture pressure disc, or it is printed upon on rupture pressure disc, or plating then sticks OCA (Optically Clear on rupture pressure disc Adhesive, i.e. Optical transparent adhesive), the patch material matched with glass panel size is then cut into, then with glass panel Fitted, this scheme advantage can be suitable on solid surface glass, but to have the disadvantage that technological requirement is high, easily produce gas Bubble, the thickness for rebounding and glass panel being increased；And the dimensional accuracy of above two typography and being completely covered for ink Property is poor, for very fine print lines, hence it is evident that can not meet requirement.

The content of the invention

It is an object of the invention to provide a kind of glass panel typography, it is intended to solve in the prior art, glass panel Typography has that ink film thickness high, easy generation bubble and production precision are low.

A kind of glass panel typography is the embodiment of the invention provides, is comprised the following steps：S100：Glass panel is entered Row cleaning；S200：Photosensitive-ink is sprayed in the area of the pattern of glass panel；S300：The glass surface of photosensitive-ink spraying will be completed Plate is positioned over without prebake conditions in the environment of ultraviolet light；S400：The glass panel for completing prebake conditions is positioned under ultraviolet light to be carried out Exposure；S500：The glass panel for completing exposure is cleaned using weak alkaline aqueous solution；S600：The glass for completing will be cleaned Panel is dried.

Further, in the step S200, the thickness range of the photosensitive-ink is 1-3 μm.

Further, in the step S300, the glass panel that will complete photosensitive-ink spraying is positioned under no light conditions Prebake conditions, and baking temperature control, at 120-140 DEG C, baking time is set as 10-20min.

Further, in the step S300, the glass panel that will complete photosensitive-ink spraying is positioned over infrared radiation In the environment of prebake conditions.

Further, in the step S300, baking temperature is controlled at 120-140 DEG C, and baking time is set as 2-4min.

Further, in the step S400, the glass panel for completing prebake conditions is positioned under ultraviolet light and is irradiated, work as purple Outside line irradiation energy terminates exposure when reaching 80-400mj.

Further, in the step S500, the glass exposed to completion for the weak alkaline aqueous solution of 8-10 using pH value Panel is rinsed.

Further, the weak alkaline aqueous solution is the solution of potassium carbonate or sodium carbonate liquor of 1% mass ratio.

Further, in the step S100, glass panel is put into rinse water, and in the ultrasound of 20-40kHz frequencies Cleaning 2-4min is carried out to glass panel under ripple.

Further, in the step S600, drying temperature is controlled at 120-140 DEG C, and drying time is set as 20- 40min。

Based on above-mentioned technical proposal, glass panel typography proposed by the present invention, the pattern accuracy for printing is high, Ink stability is good, and ink film thickness is low, do not allow to be also easy to produce bubble, and can efficiently solve deposit in existing glass panel typography Ink film thickness is high, the easy production effect for producing bubble and the production low problem of precision, improve glass panel typography Rate, improves the production precision of whole typography.

Brief description of the drawings

Fig. 1 is the flow chart of the glass panel typography that the embodiment of the present invention is proposed；

Fig. 2 is the partial schematic diagram of area of the pattern in the glass panel typography that the embodiment of the present invention is proposed；

Fig. 3 is the profile in I-I directions in Fig. 2.

Label involved by above-mentioned accompanying drawing is detailed as follows：1-glass panel, 2-area of the pattern, 3-photosensitive-ink.

Specific embodiment

In order to make the purpose , technical scheme and advantage of the present invention be clearer, it is right below in conjunction with drawings and Examples The present invention is further elaborated.It should be appreciated that the specific embodiments described herein are merely illustrative of the present invention, and It is not used in the restriction present invention.

It should be noted that when element is referred to as " being fixed on " or " being arranged at " another element, it can be directly another On one element or may be simultaneously present centering elements.When an element is known as " being connected to " another element, it can be with It is directly to another element or may be simultaneously present centering elements.

In addition, also, it should be noted that the orientation term such as front, back, left, right, up, down in the embodiment of the present invention, is only Relative concept or be reference with the normal operating condition of product, and should not be regarded as restrictive each other.Below Realization of the invention is described in detail in conjunction with specific embodiments.

Embodiment one：

Fig. 1 to Fig. 3 is referred to, the embodiment of the present invention proposes a kind of glass panel typography, comprises the following steps：

S100：Glass panel 1 is cleaned；

S200：Photosensitive-ink 3 is sprayed in the area of the pattern 2 of glass panel 1；

S300：The glass panel 1 that sprays of photosensitive-ink 3 will be completed to be placed on without prebake conditions under ultraviolet light environments；

S400：The glass panel 1 for completing prebake conditions is placed and is exposed under ultraviolet light；

S500：The glass panel 1 for completing exposure is cleaned using weak alkaline aqueous solution；

S600：The glass panel 1 for completing will be cleaned to be dried.

First to need printing glass panel 1 clean, the spot on the surface of glass panel 1 is cleaned up, then to The area of the pattern 2 of glass panel 1 sprays one layer of photosensitive-ink 3, then will complete the glass panel 1 that photosensitive-ink 3 sprays and place Prebake conditions are carried out in the environment of without ultraviolet light so that photosensitive-ink 3 is still in area of the pattern 2, will then complete prebake conditions Glass panel 1 place and irradiate under ultraviolet light, there is UV light permeability the film of predetermined pattern to be radiated on area of the pattern 2, So that there is chemical reaction and by liquid condensation into solid-state in the photosensitive-ink 3 being sprayed on area of the pattern 2, then to completing to expose The glass panel 1 of light is cleaned in being placed on weak alkaline aqueous solution, by the photosensitive oil for not being irradiated to ultraviolet light outside predetermined pattern Ink 3 is washed off, so as to realize that predetermined pattern is developed on glass panel 1, is then dried the glass panel 1 after development, complete The pattern printing of pair glass panel 1.

Based on above-mentioned technical proposal, the pattern accuracy for printing is high, and ink stability is good, and ink film thickness is low, no Bubble is easily produced, can be efficiently solved in existing glass panel typography and be had that ink film thickness is high, easily produce bubble And the low problem of production precision, the production efficiency of glass panel typography is improve, improve the production of whole typography Precision.

Further, in the embodiment that the present invention is provided, in above-mentioned steps S200, the thickness range of photosensitive-ink 3 is 1-3μm.Herein, spraying coating process is completed using ink-jet apparatus, can multi-angle by the automated procedures and nozzle of ink-jet apparatus The characteristic of operation so that glass panel typography provided in an embodiment of the present invention can be applied to plane or solid surface Glass panel 1 on, meanwhile, can be by photosensitive-ink 3 on the surface of glass panel 1 by the flow of the size and ink that adjust nozzle The thickness control of the film layer of formation at 1-3 μm, due to photosensitive-ink thicknesses of layers can according to actual conditions and need setting, because This, thicknesses of layers is a value range.In this way, spraying out, the being completely covered property of photosensitive-ink come is good, the film layer of photosensitive-ink is more Plus it is uniform, the thicknesses of layers is lower than the ink film layer that the thickness by silk-screen screen painting out is 3-5 μm, reduces ink The thickness of layer, and the operation for making silk-screen half tone is eliminated, reduce the cost of whole technological process, it is to avoid ink layer appearance Easily there is the phenomenon of bubble and scratch, improve the yields of printing.

Further, in the embodiment that the present invention is provided, in above-mentioned steps S300, will complete what photosensitive-ink 3 was sprayed Glass panel 1 carries out prebake conditions in the environment of being placed on no light, and prebake conditions temperature is preferably control at 120-140 DEG C, The prebake conditions time is set as 10-20min.Due to above-mentioned photosensitive-ink 3 thicknesses of layers need according to actual conditions and need into Row adjustment, therefore, baking temperature and baking time are value range.In this way, in it after prebake conditions, can will complete step S200 The state that the photosensitive-ink 3 of spraying flows from original liquid is dried to the semisolid relatively-stationary state of semiliquid, favorably In the uniformity for keeping photosensitive printing ink layer, in order to carry out the operation of next step.

Further, in the embodiment that the present invention is provided, in above-mentioned steps S400, the glass panel of prebake conditions will be completed 1 is placed under ultraviolet light, and ultraviolet is radiated on area of the pattern 2 through the film with predetermined pattern, is coated in area of the pattern 2 On photosensitive-ink 3 issue biochemical reaction in ultraviolet irradiation, when ultraviolet irradiation energy reaches 80-400mj (megajoule, megajoule) when, photosensitive-ink 3 solidify to form default pattern on the film and terminates exposure.In this way, completing exposure The line density of pattern that solidify to form of photosensitive-ink 3 is higher, texture is apparent.

In step S400, the energy value needed for exposure determines according to conditions such as the thicknesses of layers and component of photosensitive-ink 3, Therefore, the energy value needed for exposing is a value range.The concrete component of the wherein photosensitive-ink 3 of different colours is different, i.e., not The component of same feeling ink 3 determines the specific color of photosensitive-ink 3, and color distinguishes more directly perceived, therefore, carried in the present invention In the embodiment of confession, illustrated with the value range of energy needed for the color correspondence exposure of photosensitive-ink 3：When photosensitive-ink 3 is preferred , it is necessary to ultraviolet irradiation energy is 80-200mj during for white；When photosensitive-ink 3 is preferably colour, it is necessary to ultraviolet irradiates Energy is 200-300mj；When photosensitive-ink 3 is preferably black, it is necessary to ultraviolet irradiation energy is 300-400mj.

Further, in the embodiment that the present invention is provided, above-mentioned photosensitive-ink 3 is made up of the raw material of following weight portion： Photoresist 45-50 parts, Heat cured epoxies 25-28 parts, emulsion 7-8 parts, filler 1-1.5 parts, reactive diluent 12-14 Part, auxiliary agent 1-2 parts, pigment 3-5 parts, solvent 8-9 parts, light trigger 2-3 parts.Wherein, photoresist is by diisocyanate Diol compound and molecule containing carboxyl in diol compound, molecule containing ethene unsaturated group in compound, molecule In the diol compound without ethene unsaturated group or carboxyl that urethane is carried out in the case of without catalyst is anti- Should, then reacted with cyclic acid anhydride and obtained；Emulsion is light-sensitive silver halide agent；Filler is silicates or Calcium carbonate；Activity Diluent is by trimethylolpropane trimethacrylate or pentaerythritol triacrylate and hexanediyl ester or two contractings three Propylene glycol diacrylate is constituted according to any mass ratio；Auxiliary agent is silicone levelling agent or organically-modified silica alkane；Solvent For glycol monoethyl ether, ethylene glycol monoethyl ether, ethylene glycol ether, ethylene glycol monobutyl ether, diethylene glycol diethyl ether ethyl acetate, Any one in methyl iso-butyl ketone (MIBK), monomethyl ether glycol ester, gamma-butyrolacton, propionic acid -3- ether ethyl esters；Light trigger It is thio propoxyl group thioxanthone or isopropyl thioxanthone.

Further, it is the alkalescent of 8-10 using pH value in above-mentioned steps S500 in the embodiment that the present invention is provided The aqueous solution, the glass panel 1 to completing exposure is rinsed.Herein, the glass panel 1 for completing exposure is preferably with 3-5m/min The speed of (m/min) by flushing device, because pH value is the weak alkaline aqueous solution of 8-10 to the photosensitive oil without overexposure Ink 3 has a good dissolution, and 3-5m/min speed photosensitive-ink 3 of the correspondence without overexposure is from being dissolved into disengaging glass panel The speed on 1 surface, so as to effectively remove photosensitive-ink 3 remaining on glass panel 1, required pattern is displayed.

Further, in the embodiment that the present invention is provided, above-mentioned weak alkaline aqueous solution is preferably the carbon of 1% mass ratio Sour potassium solution or sodium carbonate liquor, i.e., above-mentioned weak alkaline aqueous solution are by mass ratio 1:99 potassium carbonate and water or sodium carbonate and water The solution for mixing.Mass ratio is that 1% solution of potassium carbonate or sodium carbonate liquor dissolve to the photosensitive-ink 3 without overexposure Effect is more significantly, in this way, the glass panel exposed to completion using the solution of potassium carbonate or sodium carbonate liquor that mass ratio is 1% 1 is cleaned, the residual ink that can more effectively clean on glass panel 1 so that the texture of pattern becomes apparent from, meanwhile, improve Cleaning efficiency.

Further, in the embodiment that the present invention is provided, in above-mentioned steps S100, ultrasonic wave is carried out to glass panel 1 Cleaning, i.e., using ultrasonic wave in water cavitation, acceleration effect and direct flow effect are to water and are attached to glass panel 1 On dirt play direct or indirect effect, crud layer disperseed, emulsified, peel off and clean glass panel 1 so as to reaching Clean purpose, so as to improve cleaning efficiency.Specifically, intact glass panel 1 is put into rinse bath, in 20- In the presence of 40kHz frequency ultrasonic waves, cleaning 2-4min is carried out to glass panel 1.In this way, glass panel 1 can be removed effectively The spot on surface, is that next step is prepared.

In addition, after the completion of the above-mentioned steps S100 and before above-mentioned steps S200 starts, a step S110 can be increased：Will be clear The glass panel 1 for washing is air-dried or dried under dustfree environment.Purpose is to remove above-mentioned steps S100 to remain in glass The water on the surface of panel 1, for step S200 provides dry, net glass panel 1, reduces and the mistake of photosensitive-ink 3 is coated on glass panel 1 Influence factor in journey, sprays the yields of production in raising step S200.

Further, in the embodiment that the present invention is provided, in above-mentioned steps S600, drying temperature is preferably control and exists 120-140 DEG C, drying time is set as 20-40min.In this way, the glass panel 1 for completing above-mentioned steps S500 is placed on into baking oven In thoroughly dry so that pattern is further solidified, it is to avoid the phenomenon that ink layer comes off, and improves pattern corrosion resistance.

The present invention provide embodiment one in above-mentioned steps just for a printing for pattern, certainly, according to reality Situation and needs, can also print two or more patterns on glass panel 1, so be accomplished by printing two-layer or multilayer Ink, when using, completes the printing of two or more patterns by need to being only repeated in above-mentioned steps, do not make unique limit herein It is fixed.

Embodiment two：

The embodiment of the present invention is essentially identical with glass panel typography disclosed in embodiment one, and difference is：

In step S300, will complete the glass panel 1 that sprays of photosensitive-ink 3 be placed on it is pre- in the environment of infrared radiation Baking.Because photosensitive-ink 3 is sensitive to UV light, therefore will not chemically react and then solidify under infrared radiation； Under infrared radiation, it is semisolid relatively-stationary that the state that photosensitive-ink 3 flows from original liquid is dried to semiliquid The process of state faster, is conducive to shortening the time of whole printing-flow, improves the production effect of glass panel typography Rate.

Further, in the embodiment that the present invention is provided, in above-mentioned steps S300, baking temperature is preferably control and exists 120-140 DEG C, baking time is set as 2-4min.In this way, compared with the embodiment of the present invention one, in same temperature range Interior, the time needed for baking greatly shortens, and is conducive to shortening the time of whole printing-flow, improves glass panel printer The production efficiency of skill.

Embodiment described above, the only specific embodiment of the invention, but protection scope of the present invention is not limited thereto, Any one skilled in the art the invention discloses technical scope in, various equivalent repairing can be readily occurred in Change, replace and improve etc., these modifications, replacement and improvement should all be included within the scope of the present invention.Therefore, this hair Bright protection domain should be defined by scope of the claims.

Claims (10)

1. glass panel typography, it is characterised in that comprise the following steps：

S100：Glass panel is cleaned；

S200：Photosensitive-ink is sprayed in the area of the pattern of glass panel；

S300：The glass panel that photosensitive-ink spraying will be completed is positioned over without prebake conditions in the environment of ultraviolet light；

S400：The glass panel for completing prebake conditions is positioned under ultraviolet light and is exposed；

S500：The glass panel for completing exposure is cleaned using weak alkaline aqueous solution；

S600：The glass panel for completing will be cleaned to be dried.

2. glass panel typography as claimed in claim 1, it is characterised in that in the step S200, the photosensitive oil The thickness range of ink is 1-3 μm.

3. glass panel typography as claimed in claim 2, it is characterised in that in the step S300, will complete photosensitive The glass panel of ink spraying is positioned over prebake conditions under no light conditions, and baking temperature control at 120-140 DEG C, and baking time sets It is set to 10-20min.

4. glass panel typography as claimed in claim 2, it is characterised in that in the step S300, will complete photosensitive The glass panel of ink spraying is positioned over prebake conditions in the environment of infrared radiation.

5. glass panel typography as claimed in claim 4, it is characterised in that in the step S300, baking temperature control At 120-140 DEG C, baking time is set as 2-4min to system.

6. glass panel typography as claimed in claim 2, it is characterised in that in the step S400, preliminary drying will be completed Roasting glass panel is irradiated under being positioned over ultraviolet light, and exposure is terminated when ultraviolet irradiation energy reaches 80-400mj.

7. glass panel typography as claimed in claim 2, it is characterised in that in the step S500, be using pH value The weak alkaline aqueous solution of 8-10 is rinsed to the glass panel for completing exposure.

8. glass panel typography as claimed in claim 7, it is characterised in that the weak alkaline aqueous solution is 1% matter Measure the solution of potassium carbonate or sodium carbonate liquor of ratio.

9. glass panel typography as claimed in claim 2, it is characterised in that in the step S100, by glass panel It is put into rinse water, and cleaning 2-4min is carried out to glass panel under the ultrasonic wave of 20-40kHz frequencies.

10. the glass panel typography as described in any one of claim 2 to 9, it is characterised in that in the step S600, Drying temperature is controlled at 120-140 DEG C, and drying time is set as 20-40min.