CN108086026A - A kind of water-borne UV-curing ink direct-injection printing technology - Google Patents

Abstract

The present invention relates to a kind of water-borne UV-curing ink direct-injection printing technologies, comprise the following steps：Water-borne UV-curing ink is sprayed on terylene mesh by nozzle, carries out stamp；Ultraviolet light irradiation carries out terylene mesh by ultraviolet radiator, ultraviolet wavelength is 310 410nm；In the environment of temperature is 55 65 °, terylene mesh is dried, drying time is 13 minutes；Curing is irradiated terylene mesh by ultraviolet light mercury lamp, ultraviolet wavelength is 350 370nm, and irradiation time is 12 minutes.The prior art is different from, water-borne UV-curing ink is sprayed on terylene mesh by the present invention by nozzle, carries out stamp；Good hand touch, common stamp may feel that stencil, and the technical program is exactly the feel of terylene mesh in itself.Without pre-treatment and post processing, situations such as hot setting not post-processed avoids elastic material contraction distortion, and 3D materials are driven plain.Convenient for the stamp on terylene mesh, printing quality is good.

Description

A kind of water-borne UV-curing ink direct-injection printing technology

Technical field

The present invention relates to cloth printing technology, more particularly to a kind of water-borne UV-curing ink direct-injection printing technology.

Background technology

In the prior art, traditional direct-injection ink carries out direct-injection on cotton, but ink can not be attached on terylene.Or Person carries out direct-injection using the disperse dyes of sublimation transfer, and cloth need to carry out starching pretreatment, and need to carry out 160-200 ° of temperature into Row cures and the post processing of desizing.Hot setting makes elastic material contraction distortion, and high temperature cure process can pass through roller and squeeze, The brushy fabrics such as fabric, the polar fleece of 3D bumps are flattened.

The content of the invention

For this reason, it may be necessary to provide a kind of water-borne UV-curing ink direct-injection printing technology, for solve in the prior art ink without The technical issues of method attachment, elastic material contraction distortion, the fabric of 3D bumps are driven plain.

To achieve the above object, a kind of water-borne UV-curing ink direct-injection printing technology is inventor provided, including following step Suddenly：

Direct-injection stamp

Water-borne UV-curing ink is sprayed on terylene mesh by nozzle, carries out stamp；

Ultraviolet light irradiates

Ultraviolet light irradiation, ultraviolet wavelength 310-410nm are carried out to terylene mesh by ultraviolet radiator；

Drying

In the environment of temperature is 55-65 °, terylene mesh is dried, drying time is 1-3 minutes；

Ultraviolet curing

Curing, ultraviolet wavelength 350-370nm are irradiated terylene mesh by ultraviolet light mercury lamp, irradiation time is 1-2 minutes.

As a kind of preferred structure of the present invention, in the direct-injection patterning step, water-borne UV-curing ink is by weight percentage Meter includes：

UV cured printing inks 30%-50%/resin 25%-35%；

Ethylene glycol and/or propylene glycol 10%-30%；

Photoinitiator 1%-4%；

Pigment composition 3%-10%；

Water 10%-40%.

As a kind of preferred structure of the present invention, the pigment composition includes pigment and dispersant.

As a kind of preferred structure of the present invention, the ultraviolet radiator in the UV irradiation step is arranged on nozzle, The direct-injection patterning step is synchronous with the UV irradiation step to carry out.

As a kind of preferred structure of the present invention, the ultraviolet curing step middle-ultraviolet lamp wavelength is 368nm.

The prior art is different from, water-borne UV-curing ink is sprayed on terylene mesh by above-mentioned technical proposal by nozzle, into Row stamp；Terylene mesh can be attached to by water-borne UV-curing ink, the terylene mesh good hand touch after stamp, common stamp It may feel that stencil, the technical program is exactly the feel of terylene mesh in itself.Without pre-treatment and post processing, without after Situations such as hot setting of reason avoids elastic material contraction distortion, and 3D materials are driven plain.Convenient for the stamp on terylene mesh, print Flower effect is good.

To achieve the above object, inventor additionally provides a kind of water-borne UV-curing ink direct-injection printing technology, including following Step：

Direct-injection stamp

Water-borne UV-curing ink is sprayed on nylon cloth by nozzle, carries out stamp；

Ultraviolet light irradiates

Ultraviolet light irradiation, ultraviolet wavelength 310-410nm are carried out to nylon cloth by ultraviolet radiator；

Drying

In the environment of temperature is 55-65 °, nylon cloth is dried, drying time is 1-3 minutes；

Ultraviolet curing

Curing, ultraviolet wavelength 350-370nm are irradiated nylon cloth by ultraviolet light mercury lamp, irradiation time is 1-2 minutes.

As a kind of preferred structure of the present invention, in the direct-injection patterning step, water-borne UV-curing ink is by weight percentage Meter includes：

UV cured printing inks 30%-50%/resin 25%-35%；

Ethylene glycol and/or propylene glycol 10%-30%；

Photoinitiator 1%-4%；

Pigment composition 3%-10%；

Water 10%-40%.

As a kind of preferred structure of the present invention, the pigment composition includes pigment and dispersant.

As a kind of preferred structure of the present invention, the ultraviolet radiator in the UV irradiation step is arranged on nozzle, The direct-injection patterning step is synchronous with the UV irradiation step to carry out.

As a kind of preferred structure of the present invention, the ultraviolet curing step middle-ultraviolet lamp wavelength is 368nm.

The prior art is different from, water-borne UV-curing ink is sprayed on nylon cloth by above-mentioned technical proposal by nozzle, into Row stamp；Nylon cloth can be attached to by water-borne UV-curing ink, the nylon cloth good hand touch after stamp, common stamp It may feel that stencil, the technical program is exactly the feel of nylon cloth in itself.Without pre-treatment and post processing, without after Situations such as hot setting of reason avoids elastic material contraction distortion, and 3D materials are driven plain.Convenient for the stamp on nylon cloth, print Flower effect is good.

Specific embodiment

For the technology contents of technical solution, construction feature, the objects and the effects are described in detail, below in conjunction with specific reality Example is applied to be explained in detail.

Embodiment one

A kind of water-borne UV-curing ink direct-injection printing technology, comprises the following steps：

Direct-injection stamp

Water-borne UV-curing ink is sprayed on terylene mesh by nozzle, carries out stamp；

Ultraviolet light irradiates

Ultraviolet light irradiation, ultraviolet wavelength 400nm are carried out to terylene mesh by ultraviolet radiator；

Drying

In the environment of temperature is 60 °, terylene mesh is dried, drying time is 2 minutes；

Ultraviolet curing

Curing, ultraviolet wavelength 368nm are irradiated terylene mesh by ultraviolet light mercury lamp, irradiation time is 1 point 30 seconds.

Further, in the present embodiment, water-borne UV-curing ink wraps by weight percentage in the direct-injection patterning step It includes：

UV cured printing inks 40%；

Ethylene glycol 20%；

Photoinitiator 2%；

Pigment composition 7%；

Water 31%.

Following table is the data test form of water-borne UV-curing ink：

In numerous ink, the present embodiment selects water-borne UV-curing ink, has reached best performance.Laboratory is passed through Test.Feel is fine, and common stamp may feel that stencil, present technology feel be exactly material in itself.

Further, in the present embodiment, the pigment composition includes pigment and dispersant, and pigment and dispersant press institute Ratio is needed to mix, pigment composition is made.Pigment is powdered, and dyeing is used；Dispersant act as scattered pigment powder, reduces Pigment powder precipitates.

Further, in the present embodiment, the ultraviolet radiator in the UV irradiation step is arranged on nozzle, described straight Printing step is synchronous with the UV irradiation step to be carried out.In this way, ink levelling is controlled, so as to improve the picture of stamp Element.

Further, in the present embodiment, the ultraviolet curing step middle-ultraviolet lamp wavelength is 368nm.In this way, further Cure, to improve the adhesion strength of ink.

The prior art is distinguished, water-borne UV-curing ink is sprayed on terylene mesh by the present embodiment by nozzle, carries out stamp； Good hand touch, common stamp may feel that stencil, and the technical program is exactly the feel of terylene mesh in itself.Without pre-treatment And post processing, the hot setting not post-processed, elastic material contraction distortion is avoided, situations such as 3D materials are driven plain.Convenient for washing Stamp on synthetic fibre screen cloth, printing quality are good.

Embodiment two

Difference lies in the purples with embodiment one for water-borne UV-curing ink direct-injection printing technology disclosed by the present embodiment In outside line irradiating step, ultraviolet light irradiation, ultraviolet wavelength 310nm are carried out to terylene mesh by ultraviolet radiator.

Embodiment three

Difference lies in the purples with embodiment one for water-borne UV-curing ink direct-injection printing technology disclosed by the present embodiment In outside line irradiating step, ultraviolet light irradiation, ultraviolet wavelength 410nm are carried out to terylene mesh by ultraviolet radiator.

Example IV

Difference lies in the bakings with embodiment one for water-borne UV-curing ink direct-injection printing technology disclosed by the present embodiment In dry step, in the environment of temperature is 65 °, terylene mesh is dried, drying time is 1 minute.

Embodiment five

Difference lies in the bakings with embodiment one for water-borne UV-curing ink direct-injection printing technology disclosed by the present embodiment In dry step, in the environment of temperature is 55 °, terylene mesh is dried, drying time is 3 minutes.

Embodiment six

Difference lies in the purples with embodiment one for water-borne UV-curing ink direct-injection printing technology disclosed by the present embodiment In outside line curing schedule, curing is irradiated terylene mesh by ultraviolet light mercury lamp, ultraviolet wavelength 350nm, during irradiation Between be 1 minute.

Embodiment seven

Difference lies in the purples with embodiment one for water-borne UV-curing ink direct-injection printing technology disclosed by the present embodiment In outside line curing schedule, curing is irradiated terylene mesh by ultraviolet light mercury lamp, ultraviolet wavelength 370nm, during irradiation Between be 3 minutes.

Embodiment eight

Difference lies in described straight with embodiment one for water-borne UV-curing ink direct-injection printing technology disclosed by the present embodiment Water-borne UV-curing ink includes by weight percentage in printing step：

UV cured printing inks 30%；

Propylene glycol 30%；

Photoinitiator 4%；

Pigment composition 10%；

Water 26%.

Embodiment nine

Difference lies in described straight with embodiment one for water-borne UV-curing ink direct-injection printing technology disclosed by the present embodiment Water-borne UV-curing ink includes by weight percentage in printing step：

UV cured printing inks 50%；

Ethylene glycol 5% and propylene glycol 5%；

Photoinitiator 1%；

Pigment composition 3%；

Water 36%.

Embodiment nine

Difference lies in Yi Zhongshui with embodiment one for water-borne UV-curing ink direct-injection printing technology disclosed by the present embodiment Property UV cured printing ink direct-injection printing technologies, comprise the following steps：

Direct-injection stamp

Water-borne UV-curing ink is sprayed on nylon cloth by nozzle, carries out stamp；

Ultraviolet light irradiates

Ultraviolet light irradiation, ultraviolet wavelength 400nm are carried out to nylon cloth by ultraviolet radiator；

Drying

In the environment of temperature is 60 °, nylon cloth is dried, drying time is 2 minutes；

Ultraviolet curing

Curing, ultraviolet wavelength 368nm, irradiation time 1-2 are irradiated nylon cloth by ultraviolet light mercury lamp Minute.

The prior art is distinguished, the present embodiment feel is fine, and common stamp may feel that stencil, present technology hand It is sympathetic be material in itself.Pre-treatment and post processing is not required.The hot setting not post-processed avoids elastic material from shrinking and becomes Situations such as shape, 3D materials are driven plain.This ink can be applicable on terylene and nylon material.

Embodiment ten

Difference lies in the purples with embodiment nine for water-borne UV-curing ink direct-injection printing technology disclosed by the present embodiment In outside line irradiating step, ultraviolet light irradiation, ultraviolet wavelength 390nm are carried out to terylene mesh by ultraviolet radiator.

Embodiment 11

Difference lies in the purples with embodiment nine for water-borne UV-curing ink direct-injection printing technology disclosed by the present embodiment In outside line irradiating step, ultraviolet light irradiation, ultraviolet wavelength 410nm are carried out to terylene mesh by ultraviolet radiator.

Embodiment 12

Difference lies in the bakings with embodiment nine for water-borne UV-curing ink direct-injection printing technology disclosed by the present embodiment In dry step, in the environment of temperature is 65 °, terylene mesh is dried, drying time is 1 minute.

Embodiment 13

Difference lies in the bakings with embodiment nine for water-borne UV-curing ink direct-injection printing technology disclosed by the present embodiment In dry step, in the environment of temperature is 55 °, terylene mesh is dried, drying time is 3 minutes.

Embodiment 14

Difference lies in the purples with embodiment nine for water-borne UV-curing ink direct-injection printing technology disclosed by the present embodiment In outside line curing schedule, curing is irradiated terylene mesh by ultraviolet light mercury lamp, ultraviolet wavelength 350nm, during irradiation Between be 1 minute.

Embodiment 15

Difference lies in the purples with embodiment nine for water-borne UV-curing ink direct-injection printing technology disclosed by the present embodiment In outside line curing schedule, curing is irradiated terylene mesh by ultraviolet light mercury lamp, ultraviolet wavelength 370nm, during irradiation Between be 3 minutes.

Embodiment 16

Difference lies in described straight with embodiment nine for water-borne UV-curing ink direct-injection printing technology disclosed by the present embodiment Water-borne UV-curing ink includes by weight percentage in printing step：

UV cured printing inks 30%；

Propylene glycol 30%；

Photoinitiator 4%；

Pigment composition 10%；

Water 26%.

Embodiment 17

Difference lies in described straight with embodiment nine for water-borne UV-curing ink direct-injection printing technology disclosed by the present embodiment Water-borne UV-curing ink includes by weight percentage in printing step：

UV cured printing inks 50%；

Ethylene glycol 5% and propylene glycol 5%；

Photoinitiator 1%；

Pigment composition 3%；

Water 36%.

It should be noted that herein, relational terms such as first and second and the like are used merely to a reality Body or operation are distinguished with another entity or operation, are deposited without necessarily requiring or implying between these entities or operation In any this actual relation or order.Moreover, term " comprising ", "comprising" or its any other variant are intended to Non-exclusive inclusion, so that process, method, article or terminal device including a series of elements not only include those Element, but also including other elements that are not explicitly listed or further include as this process, method, article or end The intrinsic element of end equipment.In the absence of more restrictions, limited by sentence " including ... " or " including ... " Element, it is not excluded that also there are other elements in the process including the element, method, article or terminal device.This Outside, herein, " being more than ", " being less than ", " being more than " etc. are interpreted as not including this number；" more than ", " following ", " within " etc. understandings It is to include this number.

Although the various embodiments described above are described, those skilled in the art once know basic wound The property made concept can then make these embodiments other change and modification, so the foregoing is merely the embodiment of the present invention, Not thereby the scope of patent protection of the present invention, every equivalent structure made using description of the invention or equivalent process are limited Conversion, be directly or indirectly used in other related technical areas, be similarly included in the present invention scope of patent protection it It is interior.

Claims (10)

1. a kind of water-borne UV-curing ink direct-injection printing technology, which is characterized in that comprise the following steps：

Direct-injection stamp

Water-borne UV-curing ink is sprayed on terylene mesh by nozzle, carries out stamp；

Ultraviolet light irradiates

Ultraviolet light irradiation, ultraviolet wavelength 310-410nm are carried out to terylene mesh by ultraviolet radiator；

Drying

In the environment of temperature is 55-65 °, terylene mesh is dried, drying time is 1-3 minutes；

Ultraviolet curing

Curing, ultraviolet wavelength 350-370nm, irradiation time 1-2 are irradiated terylene mesh by ultraviolet light mercury lamp Minute.

2. water-borne UV-curing ink direct-injection printing technology according to claim 1, it is characterised in that：The direct-injection stamp step Water-borne UV-curing ink includes by weight percentage in rapid：

UV cured printing inks 30%-50%/resin 25%-35%；

Ethylene glycol and/or propylene glycol 10%-30%；

Photoinitiator 1%-4%；

Pigment composition 3%-10%；

Water 10%-40%.

3. water-borne UV-curing ink direct-injection printing technology according to claim 2, it is characterised in that：The pigment composition Including pigment and dispersant.

4. water-borne UV-curing ink direct-injection printing technology according to claim 1, it is characterised in that：The ultraviolet light irradiation Ultraviolet radiator in step is arranged on nozzle, and the direct-injection patterning step is synchronous with the UV irradiation step to carry out.

5. water-borne UV-curing ink direct-injection printing technology according to claim 1, it is characterised in that：The ultraviolet curing Step middle-ultraviolet lamp wavelength is 368nm.

6. a kind of water-borne UV-curing ink direct-injection printing technology, which is characterized in that comprise the following steps：

Direct-injection stamp

Water-borne UV-curing ink is sprayed on nylon cloth by nozzle, carries out stamp；

Ultraviolet light irradiates

Ultraviolet light irradiation, ultraviolet wavelength 310-410nm are carried out to nylon cloth by ultraviolet radiator；

Drying

In the environment of temperature is 55-65 °, nylon cloth is dried, drying time is 1-3 minutes；

Ultraviolet curing

Curing, ultraviolet wavelength 350-370nm, irradiation time 1-2 are irradiated nylon cloth by ultraviolet light mercury lamp Minute.

7. water-borne UV-curing ink direct-injection printing technology according to claim 6, it is characterised in that：The direct-injection stamp step Water-borne UV-curing ink includes by weight percentage in rapid：

UV cured printing inks 30%-50%/resin 25%-35%；

Ethylene glycol and/or propylene glycol 10%-30%；

Photoinitiator 1%-4%；

Pigment composition 3%-10%；

Water 10%-40%.

8. water-borne UV-curing ink direct-injection printing technology according to claim 7, it is characterised in that：The pigment composition Including pigment and dispersant.

9. water-borne UV-curing ink direct-injection printing technology according to claim 6, it is characterised in that：The ultraviolet light irradiation Ultraviolet radiator in step is arranged on nozzle, and the direct-injection patterning step is synchronous with the UV irradiation step to carry out.

10. water-borne UV-curing ink direct-injection printing technology according to claim 6, it is characterised in that：The ultraviolet light is consolidated It is 368nm to change step middle-ultraviolet lamp wavelength.