CN204095228U - The digital cloth of high blotting calorimetric sublimation transfer - Google Patents

Abstract

The utility model relates to thermal dye sublimation transfer printing technical field, disclose the digital cloth of a kind of high blotting calorimetric sublimation transfer, comprise digital layer of cloth (1) and coating, coating is ink-absorbed coated layer (2), ink-absorbed coated layer (2) comprises sheet layer unit (21), and the upper surface of ink-absorbed coated layer (2) is provided with antiseized separation layer (3).The digital layer of cloth that the utility model is provided with has scalable intensity, in thermal dye sublimation transfer printing process, the digital cloth of the high blotting calorimetric sublimation transfer made with digital layer of cloth can be reused, not only save production cost, and eliminate the time changing transfer printing digital paper, thus improve production efficiency, be applicable to industrialized mass, there is application prospect widely.Sheet layer unit in the utility model ink-absorbed coated layer, can sufficient, blotting rapidly when blotting; In thermal dye sublimation transfer printing process, can ensure that ink is transferred on material fully, save ink, thus improve production efficiency.

Description

The digital cloth of high blotting calorimetric sublimation transfer

Technical field

The utility model relates to thermal dye sublimation transfer printing technical field, has particularly related to the digital cloth of high blotting calorimetric sublimation transfer.

Background technology

Printing and dyeing are general names of the processing modes such as dyeing, stamp, Final finishing, wash water, and China's printing and dyeing have material impact to the apparel industry in the whole world, but also produce waste water and the environmental problem of flood tide.Along with Green Chemistry and the arriving in personality digital epoch, Thermal-printing Technology is fast-developing.Hot transfer printing uses hot transfer apparatus the pattern on heat-transferring printing paper and image to be passed through to be heated to 180 DEG C-230 DEG C, and transfer is printed on technology type in different material medium.

But in prior art, the recycling rate of waterused of hot transfer printing digital template is lower, not only adds production cost, and more heat exchange transfer printing digital template time waste the time.In addition, also have in prior art that blotting amount is few, rate of drying is slow, repeat usage is low, dye molecule penetrates into substrate paper affects the shortcomings such as dye transfer rate.

Summary of the invention

The utility model, for shortcoming of the prior art, provides the digital cloth of a kind of high blotting calorimetric sublimation transfer.

In order to solve the problems of the technologies described above, the utility model is solved by following technical proposals:

The digital cloth of high blotting calorimetric sublimation transfer, comprises digital layer of cloth and coating, and coating is coated on digital layer of cloth surface, and coating is ink-absorbed coated layer, and the upper surface of ink-absorbed coated layer is provided with antiseized separation layer.

The digital layer of cloth that the utility model is provided with, has scalable intensity.In thermal dye sublimation transfer printing process, the digital cloth of the high blotting calorimetric sublimation transfer made with digital layer of cloth can be reused, and has not only saved production cost, and has eliminated the time changing transfer printing digital paper, thus improve production efficiency.

As preferably, ink-absorbed coated layer comprises sheet layer unit.Ink-absorbed coated layer comprises sheet layer unit, and sheet layer unit can sufficient, blotting rapidly when blotting; Sheet layer unit in thermal dye sublimation transfer printing process, can ensure that ink is transferred on material fully, color is perfectly reduced, color saturated bright-coloured, image detail is clearly demarcated, transferring effect is desirable, save ink, thus improve production efficiency.Wherein, sheet layer unit is lamella macromolecular compound.

As preferably, ink-absorbed coated layer thickness is 0.01 ~ 1.5 millimeter.Sheet layer unit in ink-absorbed coated layer makes it form multiple-void structure, thus can absorb ink fully, simultaneously in the process of thermal dye sublimation transfer printing also can fully by ink transfer cylinder on the material needing to print and dye.The ink-absorbed coated layer of multiple-void structure in the utility model, can sufficient, blotting, transferring effect are desirable rapidly, thus improve production efficiency.

As preferably, the thickness of sheet layer unit is 0.3 nanometer ~ 5 micron.When being 0.3 nanometer ~ 5 micron through repeatedly studying the thickness finding sheet layer unit, transferring effect is rationality more.

As preferably, antiseized separation layer is polymer composite layer.

As preferably, the thickness G reatT.GreaT.GT of antiseized separation layer 0.015 millimeter.

The utility model, owing to have employed above technical scheme, has significant technique effect: the digital layer of cloth that the utility model is provided with, and has scalable intensity.In thermal dye sublimation transfer printing process, the digital cloth of the high blotting calorimetric sublimation transfer made with digital layer of cloth can be reused, and has not only saved production cost, and has eliminated the time changing transfer printing digital paper, thus improve production efficiency.Sheet layer unit in the utility model ink-absorbed coated layer, can sufficient, blotting rapidly when blotting; Sheet layer unit is in thermal dye sublimation transfer printing process, can ensure that ink is transferred on material fully, color is perfectly reduced, color saturated bright-coloured, image detail is clearly demarcated, transferring effect is desirable, save ink, thus improve production efficiency, be applicable to industrialized mass, there is application prospect widely.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model.

Fig. 2 is the structural representation of embodiment 1.

Detailed description of the invention

Below in conjunction with accompanying drawing and embodiment, the utility model is described in further detail.

Embodiment 1

The digital cloth of high blotting calorimetric sublimation transfer, as shown in Figure 1, 2, comprises digital layer of cloth 1 and coating, and coating is coated on digital layer of cloth 1 surface, and coating is ink-absorbed coated layer 2, and ink-absorbed coated layer 2 comprises sheet layer unit 21, and the upper surface of ink-absorbed coated layer 2 is provided with antiseized separation layer 3.

Ink-absorbed coated layer 2 is multiple-void structure, and ink-absorbed coated layer 2 thickness is 0.01 ~ 1.5 millimeter.Antiseized separation layer 3 is polymer composite layer, the thickness G reatT.GreaT.GT of antiseized separation layer 3 0.015 millimeter.

Embodiment 2

The digital cloth of high blotting calorimetric sublimation transfer, as shown in Figure 1, comprises digital layer of cloth 1 and coating, and coating is coated on digital layer of cloth 1 surface, and coating is ink-absorbed coated layer 2, and ink-absorbed coated layer 2 comprises sheet layer unit 21, and the upper surface of ink-absorbed coated layer 2 is provided with antiseized separation layer 3.The thickness of sheet layer unit 21 is 0.3 nanometer ~ 5 micron.

Ink-absorbed coated layer 2 is multiple-void structure, and ink-absorbed coated layer 2 thickness is 0.01 ~ 1.5 millimeter.Antiseized separation layer 3 is polymer composite layer, the thickness G reatT.GreaT.GT of antiseized separation layer 3 0.015 millimeter.

In a word, the foregoing is only preferred embodiment of the present utility model, all equalizations done according to the utility model claim change and modify, and all should belong to the covering scope of the utility model patent.

Claims (3)

1. the digital cloth of high blotting calorimetric sublimation transfer, it is characterized in that: comprise digital layer of cloth (1) and coating, coating is coated on digital layer of cloth (1) surface, coating is ink-absorbed coated layer (2), and the upper surface of ink-absorbed coated layer (2) is provided with antiseized separation layer (3); Ink-absorbed coated layer (2) comprises sheet layer unit (21); The thickness of sheet layer unit (21) is 0.3 nanometer ~ 5 micron; The thickness G reatT.GreaT.GT of antiseized separation layer (3) 0.015 millimeter.

2. the digital cloth of high blotting calorimetric sublimation transfer according to claim 1, is characterized in that: ink-absorbed coated layer (2) thickness is 0.01 ~ 1.5 millimeter.

3. the digital cloth of high blotting calorimetric sublimation transfer according to claim 1, is characterized in that: antiseized separation layer (3) is polymer composite layer.