CN205313895U - Novel three -dimensional printed cloth of 3D - Google Patents

Abstract

The utility model discloses a novel three -dimensional printed cloth of 3D, the printed cloth compound composite bed cloth that forms of at least two -layer cloth stack of serving as reasons, this printed cloth include permeable layer and printing and dyeing layer, and the permeable layer is overlapped the bonding with the printing and dyeing layers through adhesives and is formed the composite bed cloth. In printing and dyeing during the printed cloth, can be with the permeable layer of printing ink direct action in this printed cloth, printing ink passes through the permeable layer and dyes print on printing and dyeing aspect material afterwards, accomplishes the stamp on the composite bed cloth through printing and dyeing once. Consequently, use the utility model discloses a technology of the three -dimensional stamp of traditional 3D can be simplified to the printed cloth, helps the promotion of the three -dimensional stamp technology of 3D.

Description

A kind of novel 3D three-dimensional print figured cloth

Technical field

The utility model relates to textile printing technical field, is specifically related to a kind of novel 3D three-dimensional print figured cloth.

Background technology

Now, 3D technology is just changing our life, except 3D video display, outside 3D printings etc. are modish, garment material is more and more higher to the requirement of stamp flower pattern effect, and existing 3D three-dimensional printing effect presentation mode has two kinds: (1) is a kind of is need the stereoeffect that can find out specific printed fabric by carrying the three-dimensional glasses of external 3D, and this stamp easily produces dizzy symptom when bore hole is watched, and not only cost is higher to wear the three-dimensional glasses of 3D, also there is many inconveniences; (2) another kind is repeatedly printed and dyed existing flower pattern on different fabric by printing technique, again two kinds or two or more printed fabrics are superimposed, to produce stereoeffect, this method needs repeatedly stamp, required pigment cost height, feature of environmental protection difference and wasting time and energy, in addition, can easily there is aberration along with the difference of temperature and pressure in the printing quality of multiple batches of stamps. Therefore, still there is bigger progressive space in novel 3D stereoscopic printing technique, and develops a kind of corresponding cloth also one of direction becoming fabric development that can be used in improving 3D stereoscopic printing technique.

Practical novel content

The utility model provides a kind of novel 3D three-dimensional print figured cloth, to solve the problem.

A kind of novel 3D three-dimensional print figured cloth that the utility model provides, described tprinted Fabrics is by the composite bed cloth that at least two layers of cloth superimposion becomes, this tprinted Fabrics comprises permeable layers and printing and dyeing layer, and permeable layers forms described composite bed cloth with printing and dyeing layer by the overlapping bonding of alite paste.

The permeable layers of described novel 3D three-dimensional print figured cloth is made up of the fabric with space.

Further, described permeable layers fabric is screen cloth.

The printing and dyeing layer of described novel 3D three-dimensional print figured cloth is made up of special fabric.

Further, described printing and dyeing layer is mull-chiffon.

Described tprinted Fabrics top layer is permeable layers.

The invention also discloses a kind of novel 3D stereoscopic printing technique, comprise the steps:

Step S10, standby cloth step: prepare the permeable layers fabric needed for stamp and printing and dyeing shell fabric;

Step S20, superimposed step: the permeable layers fabric and the printing and dyeing shell fabric that obtain standby cloth step are built up composite bed cloth, enable multilayer cloth keep smooth when printing and dyeing and alignment;

Step S30, patterning step: adopt ink first by the flower pattern printing of required printing and dyeing on heat-transferring printing paper, under appropriate conditions of temperature and pressure the flower pattern on heat-transferring printing paper is transferred on the composite bed cloth obtained through superimposed step, ink is first printed and dyed in the permeable layers of composite bed cloth, ink by permeable layers fabric and is printed and dyed on printing and dyeing shell fabric subsequently, it is achieved the once printing and dyeing of Multilayer plus material;

Step S40, dislocation stratification step: the composite bed cloth dislocation layering that will have printed and dyed, makes flower pattern have the solid layer feeling of multilayer overlap, present the 3D three-dimensional printing effect that bore hole can be watched.

Between described superimposed step and patterning step, it is also possible to set up following steps:

Set up separately flower pattern making step;

Or set up first bleaching or dyeing step, more dry cloth step, the background color of stamp cloth is processed;

Or set up first bleaching or dyeing step, then dry cloth step, then flower pattern making step.

Between described patterning step and dislocation stratification step, it is also possible to set up dry fixed or steaming cloth step, make stamp set on cloth.

Can also there is fixating shape step after described dislocation stratification step, the cloth of flower pattern of having printed and dyed is shaped.

Described patterning step is specially: use special ink, through tranfer printing machine process, makes the disperse ink on heat-transferring printing paper transfer on cloth and set.

Preferably, special ink used in described patterning step by molecular weight be 250～400, particle diameter be that the dispersed dye of 0.2～2 micron and oil-soluble resin, water-soluble carrier or alcohol solubleness carrier are made.

Preferably, in described patterning step, heat-transferring printing paper and the cloth treatment temp on tranfer printing machine is 200～230 DEG C, and the treatment time is 20～30s.

The patterning step of another mode comprises the steps: first through comprising the mixed solution of fixation auxiliary agent and thickener, cloth to be padded process, is then moved by hot pressing swimming under wet state, makes ink transfer to cloth from heat-transferring printing paper and set; Or, described patterning step comprises the steps, by melting pressurization, ink is embedded cloth, makes ink transfer on cloth.

Described superimposed step is: by alite paste laminating, the permeated fabric of standby cloth step gained and dyeing fabric are formed composite bed cloth.

Described dislocation stratification step is for making the dislocation layering of composite bed cloth by washing, and the cloth after washing is carried out dry cloth process.

The beneficial effects of the utility model: owing to the utility model tprinted Fabrics adopts special composite bed cloth, become by least two layers of cloth superimposion, in stamp process, can stamp by once having printed and dyed on composite bed cloth, again the fabric of overlap is separated dislocation subsequently and can present 3D stereoeffect, this tprinted Fabrics is used to be possible not only to the step simplifying tradition 3D stereoscopic printing, save dyestuff, cost-saving, and on printing quality, owing to being a stamp, it also avoid the aberration problem that different batches stamp causes because of the difference of temperature, pressure, printed color is unified, vision effect is excellent, this stamp also can realize 3D stereoeffect when bore hole, decrease the cost wearing the three-dimensional glasses of 3D.

Accompanying drawing explanation

In order to be illustrated more clearly in the utility model embodiment or technical scheme of the prior art, it is briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is only embodiments more of the present utility model, for those of ordinary skill in the art, under the prerequisite not paying creative work, it is also possible to obtain other accompanying drawing according to these accompanying drawings.

Fig. 1 is plane printing quality;

Fig. 2 is the printing quality before the dislocation layering of composite bed cloth;

Fig. 3 is the printing quality after the dislocation layering of composite bed cloth.

Reference numeral: 1, plane flower pattern;2, misplace the flower pattern before layering; 3, misplace the top layer flower pattern after layering; 4, misplace the bottom flower pattern after layering.

Embodiment

Below in conjunction with embodiment of the present utility model, the technical scheme in the utility model embodiment is clearly and completely described, it is clear that described embodiment is only the utility model part embodiment, instead of whole embodiments. Based on the embodiment in the utility model, those of ordinary skill in the art are not making other embodiments all obtained under creative work prerequisite, all belong to the scope of the utility model protection.

The utility model embodiment provides a kind of novel 3D three-dimensional print figured cloth, described tprinted Fabrics is by the composite bed cloth that at least two layers of cloth superimposion becomes, this tprinted Fabrics comprises permeable layers and printing and dyeing layer, make layer stereo printing technology can realize once printing and dyeing, described permeable layers with printing and dyeing layer by alite paste overlapping bonding formation composite bed cloth, when being beneficial to stamp multilayer cloth smooth, align.

Described permeable layers is made up of the fabric with space, when stamp, ink can be printed and dyed on printing and dyeing layer by the space on permeable layers fabric, realize once printing and dyeing composite bed cloth, preferably, described permeable layers fabric is screen cloth, and this screen cloth is weaved by West Germany's high speed warp knitting machine by the material such as terylene, spandex.

Described printing and dyeing layer is made up of special fabric, and this fabric can be the impermeability fabrics such as snow spins. Preferably, this printing and dyeing layer is mull-chiffon, described mull-chiffon by organizine and tram adopt S twist with the fingers and Z twist with the fingers two kinds of different sth. made by twisting to rob by force yarn, according to ZS, 2Z alternately, interweave steadily to organize and make after concise.

Specifically, described composite bed cloth top layer is permeable layers, and bottom is made up of impermeability fabric. When stamp, ink is printed and dyed on bottom fabric via top layer, flower pattern is once printed and dyed on composite bed fabric, and the Multilayer plus material dislocation layering will printed and dyed again subsequently, the flower pattern that printing and dyeing are completed presents the 3D stereoeffect of multilayer overlap.

The utility model embodiment also discloses a kind of novel 3D stereoscopic printing technique, comprises the steps:

Step S10, standby cloth step: prepare the permeable layers fabric needed for stamp and printing and dyeing shell fabric, described permeable layers fabric is the fabric with space, this fabric can be slim yarn or screen cloth, described printing and dyeing layer is made up of special fabric, and described printing and dyeing shell fabric can be the impermeability fabrics such as snow spins, it is preferable that, described chiffon fabric by organizine and tram adopt S twist with the fingers and Z twist with the fingers two kinds of different sth. made by twisting to rob by force yarn, according to ZS, 2Z alternately, with steadily organize interweave and make after concise;

Step S20, superimposed step: the permeable layers fabric and the printing and dyeing shell fabric that obtain standby cloth step are built up composite bed cloth, described composite bed cloth is at least made up of two shell fabrics, this composite bed cloth can be put by overlap by permeable layers fabric and printing and dyeing shell fabric, simply be sewed up, or utilize alite paste laminating and become, superimposed step can enable multilayer cloth keep smooth when printing and dyeing and alignment;

Step S30, patterning step: first prepare ink, adopt ink again by the flower pattern printing of required printing and dyeing on heat-transferring printing paper, then under appropriate conditions of temperature and pressure the flower pattern on heat-transferring printing paper is transferred on the composite bed cloth obtained through superimposed step, ink is first printed and dyed in the permeable layers of composite bed cloth, ink by permeable layers fabric and is printed and dyed on printing and dyeing shell fabric subsequently, realizing the once printing and dyeing of Multilayer plus material, described patterning step can be realized by following several mode:

(1) first is 250～400 by molecular weight, particle diameter is dispersed dye and the oil-soluble resin of 0.2～2 micron, water-soluble carrier or alcohol solubleness carrier make ink, adopt ink again by the flower pattern printing of required printing and dyeing on heat-transferring printing paper, then heat-transferring printing paper and composite bed cloth are placed in tranfer printing machine process, treatment temp is 200～230 DEG C, treatment time is 20～30s, in transfer process, disperse ink on heat-transferring printing paper is first printed and dyed in the permeable layers of composite bed cloth, ink by permeable layers fabric and is printed and dyed on printing and dyeing shell fabric subsequently, complete disperse ink from heat-transferring printing paper to the transfer of composite bed cloth and set,

(2) first according to the selected ink of character of cloth, adopt ink again by the flower pattern printing of required printing and dyeing on heat-transferring printing paper, then composite bed cloth is padded process through comprising the mixed solution of fixation auxiliary agent and thickener, then moved by hot pressing swimming under wet state, in transfer process, ink on heat-transferring printing paper is first printed and dyed in the permeable layers of composite bed cloth, subsequently ink by permeable layers fabric and print and dye in printing and dyeing shell fabric on, complete ink from heat-transferring printing paper to the transfer of composite bed cloth and set;

(3) ink is first prepared, ink can taking dyestuff and wax as basal component, adopt the ink prepared again by the flower pattern printing of required printing and dyeing on heat-transferring printing paper, then pressurizeed by melting, the ink on heat-transferring printing paper is made first to print and dye in the permeable layers of composite bed cloth, subsequently ink by permeable layers fabric and print and dye in printing and dyeing shell fabric on, complete ink from heat-transferring printing paper to the transfer of composite bed cloth and set;

Step S40, dislocation stratification step: the composite bed cloth dislocation layering that will have printed and dyed, makes flower pattern have the solid layer feeling of multilayer overlap, present the 3D three-dimensional printing effect that bore hole can be watched. Described dislocation stratification step can adopt mode manually by the dislocation layering of composite bed cloth, can also adopt first through washing water, the mode of dry cloth is by the dislocation layering of composite bed cloth again, for the concrete mode of dislocation stratification step, it is possible to select according to the superimposed mode of composite bed cloth in superimposed step.

Mode is implemented, between the superimposed step and patterning step of described novel 3D stereoscopic printing technique, it is also possible to set up following steps as required as another kind:

Set up separately flower pattern making step;

Or set up first bleaching or dyeing step, more dry cloth step, the background color of stamp cloth is processed;

Or set up first bleaching or dyeing step, then dry cloth step, then flower pattern making step.

Between described patterning step and dislocation stratification step, it is also possible to set up dry fixed or steaming cloth step, make stamp set on cloth.

Can also there is fixating shape step after described dislocation stratification step, the cloth of flower pattern of having printed and dyed is shaped.

It should be noted that, in above embodiment, the corresponding raw material that described tackiness agent, laking agent and thickener can select the industry general; In the examples below, the cloth of required printing and dyeing is by screen cloth top layer and avenges the composite bed cloth spinning bottom and being bonded by alite paste.

The embodiment 1 of specific embodiment:

Step 1, standby cloth step: prepare the screen cloth needed for stamp and mull-chiffon;

Step 2, superimposed step: the screen cloth obtain standby cloth step and mull-chiffon form composite bed fabric by alite paste overlap bonding;

Step 3, bleaching or dyeing step: cloth is bleached or dyes;

Step 4, dry cloth step: the cloth bleached or dye is carried out dry cloth process;

Step 5, flower pattern making step: arrange and make the flower pattern needing printing and dyeing;

Step 6, patterning step: use molecular weight to be 250～400, particle diameter is the dispersed dye of 0.2～2 micron and water-soluble carrier or alcohol solubleness carrier, ink made by oil-soluble resin, adopt ink again by the flower pattern printing of required printing and dyeing on heat-transferring printing paper, then heat-transferring printing paper and cloth are processed by tranfer printing machine, treatment temp is 200～230 DEG C, treatment time is 20～30s, the ink on heat-transferring printing paper is made to act directly in the scrim layer of composite bed fabric, ink by the space of scrim layer and is printed and dyed on mull-chiffon subsequently, complete ink from heat-transferring printing paper to the transfer of composite bed cloth and set,

Step 7, dry fixed or steaming cloth step: carry out the cloth printed and dyed doing fixed or steaming cloth process;

Step 8, wash water step: cleaned by unnecessary dyestuff and the composite bed cloth being originally bonded together is separated from each other, make flower pattern have the solid layer feeling of multilayer overlap, present the 3D three-dimensional printing effect that bore hole can be watched;

Step 9, dry cloth step: cloth is carried out dry cloth process;

Step 10, fixating shape step: the cloth printed and dyed is carried out heat treatment.

The embodiment 2 of specific embodiment:

Embodiment 2 is substantially identical with the printing technology of above-described embodiment 1, the difference is that the patterning step in step 6, patterning step in embodiment 2 is: first according to the selected ink of character of cloth, adopt ink again by the flower pattern printing of required printing and dyeing on heat-transferring printing paper, then composite bed cloth is padded process through comprising the mixed solution of fixation auxiliary agent and thickener, then moved by hot pressing swimming under wet state, in transfer process, ink on heat-transferring printing paper is first printed and dyed in the permeable layers of composite bed cloth, ink by permeable layers fabric and is printed and dyed on printing and dyeing shell fabric subsequently, complete ink from heat-transferring printing paper to the transfer of composite bed cloth and set,

The embodiment 3 of specific embodiment:

Embodiment 3 is substantially identical with the printing technology of above-described embodiment 1, the difference is that the patterning step in step 6, patterning step in embodiment 3 is: first prepare ink by basal component of dyestuff and wax, adopt the ink prepared again by the flower pattern printing of required printing and dyeing on heat-transferring printing paper, then pressurizeed by melting, the ink on heat-transferring printing paper is made first to print and dye in the permeable layers of composite bed cloth, subsequently ink by permeable layers fabric and print and dye in printing and dyeing shell fabric on, complete ink from heat-transferring printing paper to the transfer of composite bed cloth and set;

It should be noted that, in above embodiment, the corresponding raw material that described alite paste can select the industry general.

A kind of novel 3D three-dimensional print figured cloth the utility model embodiment provided above is described in detail, applying specific case herein principle of the present utility model and enforcement mode to have been set forth, the explanation of above embodiment just understands core concept of the present utility model for helping; Meanwhile, for one of ordinary skill in the art, according to thought and method of the present utility model, all will change in specific embodiments and applications, in sum, this description should not be construed as restriction of the present utility model.

Claims (6)

1. a novel 3D three-dimensional print figured cloth, it is characterized in that, described tprinted Fabrics is by the composite bed cloth that at least two layers of cloth superimposion becomes, and this tprinted Fabrics comprises permeable layers and printing and dyeing layer, and permeable layers forms described composite bed cloth with printing and dyeing layer by the overlapping bonding of alite paste.

2. novel 3D three-dimensional print figured cloth as claimed in claim 1, it is characterised in that, described permeable layers is made up of the fabric with space.

3. novel 3D three-dimensional print figured cloth as claimed in claim 1, it is characterised in that, described permeable layers fabric is screen cloth.

4. novel 3D three-dimensional print figured cloth as claimed in claim 1, it is characterised in that, described printing and dyeing layer is made up of special fabric.

5. novel 3D three-dimensional print figured cloth as claimed in claim 1, it is characterised in that, described printing and dyeing layer is mull-chiffon.

6. novel 3D three-dimensional print figured cloth as claimed in claim 1, it is characterised in that, described tprinted Fabrics top layer is permeable layers.