CN211000570U - High-ink-absorption quick-drying thermal sublimation transfer paper - Google Patents
High-ink-absorption quick-drying thermal sublimation transfer paper Download PDFInfo
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- CN211000570U CN211000570U CN201821895969.XU CN201821895969U CN211000570U CN 211000570 U CN211000570 U CN 211000570U CN 201821895969 U CN201821895969 U CN 201821895969U CN 211000570 U CN211000570 U CN 211000570U
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Abstract
The utility model relates to a quick-drying thermal sublimation transfer paper with high ink absorption capacity, which comprises a base paper (1), a water absorption layer (2), a hydroxymethyl cellulose coating (3), an ink absorption layer (4) and an anti-sticking isolation layer (5) from bottom to top; a vertically arranged flow guide hole (3.1) is formed in the hydroxymethyl cellulose coating (3), the flow guide hole (3.1) comprises a vertically arranged main pipe (3.1.1), and the tail end of the main pipe (3.1.1) is provided with a plurality of uniformly arranged branch pipes (3.1.2) extending to the periphery; an ink storage cavity (4.1) which is vertically arranged is arranged in the ink absorption layer (4), and the ink storage cavity (4.1) is of a conical structure; the utility model discloses it is sufficient to inhale the china ink volume, and production efficiency is high, and it is short to print preparation course of working drying time, very big improvement whole work efficiency.
Description
Technical Field
The utility model relates to a transfer printing paper especially relates to a quick-drying thermal sublimation of high blotting volume changes printing paper.
Background
In modern life, various daily necessities can not leave beautiful patterns, so that the technical requirements on printing are higher and higher, and the requirements of people on the printing quality are higher and higher. Accordingly, the thermal transfer technology has been developed accordingly and is applied in various fields in large quantities; however, in the product after thermal transfer printing, the transferred pattern generally feels hard to the touch and has poor air permeability, and when the thermal transfer printing product is transversely pulled, the pattern has fine cracks corresponding to the printing stock; therefore, people further develop a thermal sublimation transfer printing technology, wherein the thermal sublimation transfer printing is a new process for printing images and texts such as human images, landscapes, characters and the like on inkjet paper for thermal sublimation transfer printing in a mirror image mode by using an inkjet printer filled with thermal sublimation transfer printing ink, and heating the images and texts to about 200 ℃ by using a thermal transfer printing device to ensure that the thermal transfer printing ink on the thermal sublimation transfer printing paper is sublimated and permeated into a printing stock, so that color images on the paper are realistically transferred to materials such as textiles, porcelain cups, porcelain plates, metals and the like; however, the existing thermal sublimation transfer paper has the problems of unsatisfactory transfer effect, insufficient ink absorption amount, long drying time, long processing time, low production efficiency and the like.
Disclosure of Invention
An object of the utility model is to overcome the above-mentioned not enough, provide a high blotting fast dry heat sublimation of high blotting volume that blotting height, drying speed are fast changes printing paper.
The purpose of the utility model is realized like this:
a high ink absorption quick-drying thermal sublimation transfer paper comprises base paper, a water absorption layer, a hydroxymethyl cellulose coating, an ink absorption layer and an anti-sticking isolation layer from bottom to top; the hydroxymethyl cellulose coating is internally provided with a vertically arranged flow guide hole, the flow guide hole comprises a vertically arranged main pipe, and the tail end of the main pipe is provided with a plurality of uniformly arranged branch pipes extending to the periphery; an ink storage cavity is vertically arranged in the ink absorption layer, and the ink storage cavity is of a conical structure;
the utility model relates to a quick-drying thermal sublimation transfer paper with high ink absorption quantity, wherein the thickness of an ink absorption layer is 20-60 um;
the utility model relates to a quick-drying thermal sublimation transfer paper with high ink absorption capacity, wherein the thickness of the water absorption layer is 8-30 um;
the utility model relates to a quick-drying thermal sublimation transfer paper with high ink absorption capacity, wherein the thickness of a hydroxymethyl cellulose coating is 20-150 um;
the utility model relates to a quick-drying thermal sublimation transfer paper with high ink absorption capacity, wherein an anti-sticking isolation layer is an organic silicon and polytetrafluoroethylene composite layer;
the utility model relates to a quick-drying thermal sublimation transfer paper with high ink absorption capacity, wherein the thickness of an anti-sticking isolation layer is more than 100 um;
compared with the prior art, the beneficial effects of the utility model are that:
the utility model arranges the diversion holes consisting of the branch pipes with the branched main pipe on the hydroxymethyl cellulose coating, so that the water can more quickly and uniformly permeate to the water absorption layer, thereby accelerating the drying speed, realizing continuous printing and dyeing, saving time and improving the printing and dyeing efficiency; meanwhile, the conical ink storage cavity is arranged on the ink absorption layer, so that the ink absorption amount is improved, the ink is better locked, the ink is saved, and the transfer effect is more ideal.
Drawings
Figure 1 is the utility model relates to a high blotting volume fast dry heat sublimation changes laminar structure sketch map of printing paper.
Fig. 2 is the utility model relates to a high blotting volume fast dry heat sublimation changes ink absorption layer ink storage chamber schematic diagram of printing paper.
Fig. 3 is the utility model relates to a fibre layer water conservancy diversion pore structure sketch map of quick-drying thermal sublimation transfer paper of high blotting volume.
Wherein: the paper comprises base paper 1, a water absorption layer 2, a hydroxymethyl cellulose coating 3, a diversion hole 3.1, a main pipe 3.1.1, a branch pipe 3.1.2, an ink absorption layer 4, an ink storage cavity 4.1 and an anti-sticking isolation layer 5.
Detailed Description
Referring to fig. 1-3, the quick-drying thermal sublimation transfer paper with high ink absorption capacity of the utility model comprises a base paper 1, a water absorption layer 2, a hydroxymethyl cellulose coating 3, an ink absorption layer 4 and an anti-sticking isolation layer 5 from bottom to top; the water absorbing layer 2 is a mixture of water absorbing resin and organic silicon; the hydroxymethyl cellulose coating 3 is internally provided with a vertically arranged flow guide hole 3.1, the flow guide hole 3.1 comprises a vertically arranged main pipe 3.1.1, the tail end of the main pipe 3.1.1 is provided with a plurality of uniformly distributed branch pipes 3.1.2 extending to the periphery, and the flow guide hole 3.1 enables water to quickly and uniformly penetrate into the water absorption layer 2, so that the drying speed is accelerated, continuous printing and dyeing are realized, the time is saved, and the printing and dyeing efficiency is improved; an ink storage cavity 4.1 which is vertically arranged is arranged in the ink absorption layer 4, the ink storage cavity 4.1 is of a conical structure, and a mixture of silicon dioxide and aluminum oxide is filled in the ink storage cavity 4.1, so that ink can be better locked;
preferably, the thickness of the ink absorption layer 4 is 20-60 um;
preferably, the thickness of the water absorption layer 2 is 8-30 um;
preferably, the thickness of the hydroxymethyl cellulose coating 3 is 20-150 um;
preferably, the anti-sticking isolation layer 5 is a composite layer of organic silicon and polytetrafluoroethylene;
preferably, the thickness of the anti-sticking isolation layer 5 is more than 100 um;
in addition: it should be noted that the above-mentioned embodiment is only a preferred embodiment of the present patent, and any modification or improvement made by those skilled in the art based on the above-mentioned conception is within the protection scope of the present patent.
Claims (6)
1. The utility model provides a quick dry thermal sublimation of high blotting volume changes printing paper which characterized in that: comprises base paper (1), a water absorbing layer (2), a hydroxymethyl cellulose coating (3), an ink absorbing layer (4) and an anti-sticking isolating layer (5) from bottom to top; a vertically arranged flow guide hole (3.1) is formed in the hydroxymethyl cellulose coating (3), the flow guide hole (3.1) comprises a vertically arranged main pipe (3.1.1), and the tail end of the main pipe (3.1.1) is provided with a plurality of uniformly arranged branch pipes (3.1.2) extending to the periphery; be equipped with vertical ink storage chamber (4.1) that sets up in blotting layer (4), ink storage chamber (4.1) are conical structure.
2. The high ink capacity fast drying thermal sublimation transfer paper of claim 1, wherein: the thickness of blotting layer (4) is 20 ~ 60 um.
3. The high ink capacity fast drying thermal sublimation transfer paper of claim 1, wherein: the thickness of the water absorption layer (2) is 8-30 um.
4. The high ink capacity fast drying thermal sublimation transfer paper of claim 1, wherein: the thickness of the hydroxymethyl cellulose coating (3) is 20-150 um.
5. The high ink capacity fast drying thermal sublimation transfer paper of claim 1, wherein: the anti-sticking isolation layer (5) is an organic silicon and polytetrafluoroethylene composite layer.
6. The high ink capacity fast drying thermal sublimation transfer paper of claim 1, wherein: the thickness of antiseized isolation layer (5) is greater than 100 um.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201821895969.XU CN211000570U (en) | 2018-11-16 | 2018-11-16 | High-ink-absorption quick-drying thermal sublimation transfer paper |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201821895969.XU CN211000570U (en) | 2018-11-16 | 2018-11-16 | High-ink-absorption quick-drying thermal sublimation transfer paper |
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Publication Number | Publication Date |
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CN211000570U true CN211000570U (en) | 2020-07-14 |
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CN201821895969.XU Active CN211000570U (en) | 2018-11-16 | 2018-11-16 | High-ink-absorption quick-drying thermal sublimation transfer paper |
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2018
- 2018-11-16 CN CN201821895969.XU patent/CN211000570U/en active Active
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