CN104294689A - Process for producing laser transfer printed fabric - Google Patents
Process for producing laser transfer printed fabric Download PDFInfo
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- CN104294689A CN104294689A CN201410531935.2A CN201410531935A CN104294689A CN 104294689 A CN104294689 A CN 104294689A CN 201410531935 A CN201410531935 A CN 201410531935A CN 104294689 A CN104294689 A CN 104294689A
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- basement membrane
- radium
- transfer printing
- bopp
- printing cloth
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Abstract
The invention discloses a process for producing a laser transfer printed fabric. The process comprises the following steps: preheating a BOPP base film, and performing laser mould pressing on the preheated BOPP base film; coating the mould pressing surface of the BOPP base film subjected to laser mould pressing by an adhesive, drying the printed fabric through a dry composite drying box, and compounding and rolling the BOPP base film subjected to adhesive coating with the dried printed fabric through a dry compounding machine; curing the printed fabric compounded with the BOPP base film into a curing chamber; and finally, stripping the cured BOPP base film on the printed fabric on a multifunctional compounding machine, thereby obtaining a finished laser transfer printed fabric, wherein the stripped BOPP base film does not need to be subjected to mould pressing again and can be compounded with the printed fabric again. According to the process for producing the laser transfer printed fabric disclosed by the invention, laser anti-counterfeiting of wide-width transfer printed fabrics is realized, the laser effect is not limited by covering power of printed patterns, the base film can be repeatedly recycled due to one-step mould pressing, and the production cost is reduced by over 60 percent.
Description
Technical field
The present invention relates to a kind of production technology of radium-shine transfer printing cloth.
Background technology
Calico forms with native calico dyeing and printing process, and calico can divide transfer printing and penetration printing by technique difference, and wherein transfer printing operation environmental protection is simple and easy, is best suited for a kind of stamp mode of cloth.
In order to strengthen effect false proof and attractive in appearance, start at the beginning of 21 century to have occurred radium-shine transfering printing technology, radium-shine transfer transfer printing cloth on market generally adopts dry method to shift, mostly be printed on radium-shine release liners or PET laser transfer membrane with the coating or ink etc. that scribble hot melt adhesive, under hot repressing condition, hologram pattern shifted on cloth.
Radium-shine transfer printing generally can be divided into entire transformation and local (tangent plane) to shift two kinds.Entire transformation technique adopts the gold stamping aluminizer transfer of wide cut PET, can complete for justifying hologram pattern be transferred on base fabric, reach a kind of effect of harmony, and there is splendid soft elasticity, be widely used on footwear material, case and bag, clothing leather etc., but production cost is higher, and laser pattern is printed layer covering, slacken false proof and appreciation effect in order to avoid laser pattern is completely obscured, be only suitable for light stamp or hollow out effect, the application of this technique is restricted; Local laser transfer adopts narrow gold stamping caloric transfer printing technology, can be transferred on bottom leather by specific shape or knurling section, make bottom leather more vividly attractive in appearance, be equally also be widely used on all kinds of leather based article, but be subject to the restriction of gold stamping area, can only accomplish that local laser is false proof.
Summary of the invention
The object of the present invention is to provide a kind of production technology of radium-shine transfer printing cloth, the laser anti-counterfeiting of wide cut transfer printing cloth can be realized, and laser effect is by the restriction of decalcomania covering power, basement membrane can reuse repeatedly through one-step mould, and production cost reduces by more than 60%.
In order to achieve the above object, technical scheme of the present invention is:
A production technology for radium-shine transfer printing cloth, comprises the steps:
1) first preheating is carried out to BOPP basement membrane, and by the BOPP basement membrane laser molding after preheating;
2) then by the mold pressing surface of BOPP basement membrane after laser molding coating viscose, calico by dry type compound oven for drying, the BOPP basement membrane after coating viscose by dry compound machine with dry after calico compound and rolling;
3) then the calico being compounded with BOPP basement membrane is put into curing chamber slaking;
4) finally on multi-function peripheral, the BOPP basement membrane on calico after slaking peeled off thus obtain radium-shine transfer printing cloth finished product, the BOPP basement membrane peeled off can no longer need mold pressing again can with calico compound again.
In described step 1), the thickness of BOPP basement membrane is 22-28 μm.
In described step 1), the preheat temperature of BOPP basement membrane is 60-80 DEG C.
In described step 1), during laser molding, platen pressure is 0.35-0.40MPa, and during laser molding, the speed of a motor vehicle is 35-40m/min.
Described step 2) middle viscose employing two-component polyurethane adhesive, the cross-linking reaction temperature of two-component polyurethane adhesive is 75-85 DEG C.
Described step 2) in the spread of viscose be 6-8g/m
2, the speed of a motor vehicle of dry compound machine is 15-20m/min.
Described step 2) in the temperature of dry type compound baking oven be 75-85 DEG C.
In described step 3), the temperature of curing chamber is 38-42 DEG C, and the curing time is 24-36 hour.
BOPP basement membrane winding tension 0.3-0.5MPa after peeling off in described step 4).
BOPP basement membrane after peeling off in described step 4) can reuse 10-15 time continuously.
The invention has the beneficial effects as follows: the laser anti-counterfeiting realizing wide cut transfer printing cloth, there is strong visual effect, and laser effect floats on decalcomania, not by the restriction of decalcomania covering power, make this technique can be widely used in the fields such as footwear material, case and bag, clothes; This invention, without the need to operation of aluminizing, while having saved bauxite resource consumption, has environmental protection and effect attractive in appearance concurrently, and BOPP laser film one-step mould can be fitted repeatedly, transfer uses 10-15 time, does not need again through mold pressing procedure, reduces production cost more than 60%.
Detailed description of the invention
Embodiment 1
A production technology for radium-shine transfer printing cloth, is characterized in that comprising the steps: first to carry out preheating to BOPP basement membrane, and by the BOPP basement membrane laser molding after preheating.The thickness of BOPP basement membrane is 22 μm.The preheat temperature of BOPP basement membrane is 60 DEG C.During laser molding, platen pressure is 0.40MPa, and during laser molding, the speed of a motor vehicle is 40m/min.
Then by the mold pressing surface of BOPP basement membrane after laser molding coating viscose, calico by dry type compound oven for drying, the BOPP basement membrane after coating viscose by dry compound machine with dry after calico compound and rolling.Dry compound machine to be sticked together by different plastic sheetings by dry-lamination process to form the machine of laminated film.Dry compound machine can adopt production firm to be: Guangdong Shunde Delux Printing Machinery Co., Ltd., model is: FHG1300D.Viscose adopts two-component polyurethane adhesive, and the cross-linking reaction temperature of two-component polyurethane adhesive is 75 DEG C.Two-component polyurethane adhesive sticks agent and forms by the raw material configuration of following weight ratio: host:
Polyethylene glycol adipate (hydroxyl value 50-65) 60;
TD100/05 4-6;
N-propyl acetate 1;
Ethyl acetate 4;
Butanone 29-31.
Curing agent:
TD100/05 41-44;
Trimethylolpropane 11;
Ethyl acetate 45-48.
Upper machine proportioning: host: curing agent=100:15-25, depending on environment temperature.Reduce curing agent, then cement ratio is more pliable and tougher, needs hardening time long; Increase curing agent, curing rate is fast, but glue fragility increases.
The spread of viscose is 6g/m
2, the speed of a motor vehicle of dry compound machine is 15m/min.The temperature of dry type compound baking oven is 85 DEG C.
Then the calico being compounded with BOPP basement membrane is put into curing chamber slaking.The temperature of curing chamber is 38 DEG C, and the curing time is 36 hours.
Last on multi-function peripheral, the BOPP basement membrane on calico after slaking peeled off thus obtain radium-shine transfer printing cloth finished product, the BOPP basement membrane peeled off can no longer need mold pressing again can with calico compound again.BOPP basement membrane winding tension 0.3MPa after stripping.Film take-up deviation ± 5mm.BOPP basement membrane after stripping can reuse 10-15 time continuously.The production firm of multi-function peripheral is: Guangdong Shunde Delux Printing Machinery Co., Ltd., and model is: FHG1300D.
The production technology of a kind of radium-shine transfer printing cloth of the present embodiment, can realize the laser anti-counterfeiting of wide cut transfer printing cloth, and laser effect is by the restriction of decalcomania covering power, and basement membrane can reuse repeatedly through one-step mould, and production cost reduces by more than 60%.
Embodiment 2
A production technology for radium-shine transfer printing cloth, is characterized in that comprising the steps: first to carry out preheating to BOPP basement membrane, and by the BOPP basement membrane laser molding after preheating.The thickness of BOPP basement membrane is 28 μm.The preheat temperature of BOPP basement membrane is 80 DEG C.During laser molding, platen pressure is 0.35MPa, and during laser molding, the speed of a motor vehicle is 35m/min.
Then by the mold pressing surface of BOPP basement membrane after laser molding coating viscose, calico by dry type compound oven for drying, the BOPP basement membrane after coating viscose by dry compound machine with dry after calico compound and rolling.Dry compound machine to be sticked together by different plastic sheetings by dry-lamination process to form the machine of laminated film.Dry compound machine can adopt production firm to be: Guangdong Shunde Delux Printing Machinery Co., Ltd., model is: FHG1300D.Viscose adopts two-component polyurethane adhesive, and the cross-linking reaction temperature of two-component polyurethane adhesive is 85 DEG C.The spread of viscose is 8g/m
2, the speed of a motor vehicle of dry compound machine is 20m/min.The temperature of dry type compound baking oven is 75 DEG C.
Then the calico being compounded with BOPP basement membrane is put into curing chamber slaking.The temperature of curing chamber is 42 DEG C, and the curing time is 24 hours.
Last on multi-function peripheral, the BOPP basement membrane on calico after slaking peeled off thus obtain radium-shine transfer printing cloth finished product, the BOPP basement membrane peeled off can no longer need mold pressing again can with calico compound again.BOPP basement membrane winding tension 0.5MPa after stripping.Film take-up deviation ± 5mm.BOPP basement membrane after stripping can reuse 10-15 time continuously.
The production technology of a kind of radium-shine transfer printing cloth of the present embodiment, can realize the laser anti-counterfeiting of wide cut transfer printing cloth, and laser effect is by the restriction of decalcomania covering power, and basement membrane can reuse repeatedly through one-step mould, and production cost reduces by more than 60%.
Embodiment 3
A production technology for radium-shine transfer printing cloth, is characterized in that comprising the steps: first to carry out preheating to BOPP basement membrane, and by the BOPP basement membrane laser molding after preheating.The thickness of BOPP basement membrane is 25 μm.The preheat temperature of BOPP basement membrane is 70 DEG C.During laser molding, platen pressure is 0.37MPa, and during laser molding, the speed of a motor vehicle is 37m/min.
Then by the mold pressing surface of BOPP basement membrane after laser molding coating viscose, calico by dry type compound oven for drying, the BOPP basement membrane after coating viscose by dry compound machine with dry after calico compound and rolling.Dry compound machine to be sticked together by different plastic sheetings by dry-lamination process to form the machine of laminated film.Dry compound machine can adopt production firm to be: Guangdong Shunde Delux Printing Machinery Co., Ltd., model is: FHG1300D.Viscose adopts two-component polyurethane adhesive, and the cross-linking reaction temperature of two-component polyurethane adhesive is 80 DEG C.The spread of viscose is 7g/m
2, the speed of a motor vehicle of dry compound machine is 17m/min.The temperature of dry type compound baking oven is 80 DEG C.
Then the calico being compounded with BOPP basement membrane is put into curing chamber slaking.The temperature of curing chamber is 40 DEG C, and the curing time is 30 hours.
Last on multi-function peripheral, the BOPP basement membrane on calico after slaking peeled off thus obtain radium-shine transfer printing cloth finished product, the BOPP basement membrane peeled off can no longer need mold pressing again can with calico compound again.BOPP basement membrane winding tension 0.4MPa after stripping.Film take-up deviation ± 5mm.BOPP basement membrane after stripping can reuse 10-15 time continuously.
The production technology of a kind of radium-shine transfer printing cloth of the present embodiment, can realize the laser anti-counterfeiting of wide cut transfer printing cloth, and laser effect is by the restriction of decalcomania covering power, and basement membrane can reuse repeatedly through one-step mould, and production cost reduces by more than 60%.
Claims (10)
1. a production technology for radium-shine transfer printing cloth, is characterized in that comprising the steps:
First preheating is carried out to BOPP basement membrane, and by the BOPP basement membrane laser molding after preheating;
Then by the mold pressing surface of BOPP basement membrane after laser molding coating viscose, calico by dry type compound oven for drying, the BOPP basement membrane after coating viscose by dry compound machine with dry after calico compound and rolling;
Then the calico being compounded with BOPP basement membrane is put into curing chamber slaking;
Last on multi-function peripheral, the BOPP basement membrane on calico after slaking peeled off thus obtain radium-shine transfer printing cloth finished product, the BOPP basement membrane peeled off can no longer need mold pressing again can with calico compound again.
2. the production technology of a kind of radium-shine transfer printing cloth according to claim 1, is characterized in that: in described step 1), the thickness of BOPP basement membrane is 22-28 μm.
3. the production technology of a kind of radium-shine transfer printing cloth according to claim 1, is characterized in that: in described step 1), the preheat temperature of BOPP basement membrane is 60-80 DEG C.
4. the production technology of a kind of radium-shine transfer printing cloth according to claim 1, it is characterized in that: in described step 1), during laser molding, platen pressure is 0.35-0.40MPa, during laser molding, the speed of a motor vehicle is 35-40m/min.
5. the production technology of a kind of radium-shine transfer printing cloth according to claim 1, is characterized in that: described step 2) middle viscose employing two-component polyurethane adhesive, the cross-linking reaction temperature of two-component polyurethane adhesive is 75-85 DEG C.
6. the production technology of a kind of radium-shine transfer printing cloth according to claim 1, is characterized in that: described step 2) in the spread of viscose be 6-8g/m
2, the speed of a motor vehicle of dry compound machine is 15-20m/min.
7. the production technology of a kind of radium-shine transfer printing cloth according to claim 1, is characterized in that: described step 2) in the temperature of dry type compound baking oven be 75-85 DEG C.
8. the production technology of a kind of radium-shine transfer printing cloth according to claim 1, it is characterized in that: in described step 3), the temperature of curing chamber is 38-42 DEG C, the curing time is 24-36 hour.
9. according to the production technology of a kind of radium-shine transfer printing cloth according to claim 1, it is characterized in that: the BOPP basement membrane winding tension 0.3-0.5MPa after peeling off in described step 4).
10. according to the production technology of a kind of radium-shine transfer printing cloth according to claim 1, it is characterized in that: the BOPP basement membrane after peeling off in described step 4) can reuse 10-15 time continuously.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201410531935.2A CN104294689A (en) | 2014-10-11 | 2014-10-11 | Process for producing laser transfer printed fabric |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201410531935.2A CN104294689A (en) | 2014-10-11 | 2014-10-11 | Process for producing laser transfer printed fabric |
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| CN104294689A true CN104294689A (en) | 2015-01-21 |
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Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN105346113A (en) * | 2015-12-11 | 2016-02-24 | 东莞市东雅家居用品有限公司 | Manufacturing method of hot-bonding laser aluminum-plated patterned film |
| CN107696659A (en) * | 2017-11-15 | 2018-02-16 | 上海绿新新材料科技有限公司 | A kind of manufacture craft of environmentally friendly laser transfer paper |
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Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN105346113A (en) * | 2015-12-11 | 2016-02-24 | 东莞市东雅家居用品有限公司 | Manufacturing method of hot-bonding laser aluminum-plated patterned film |
| CN105346113B (en) * | 2015-12-11 | 2017-08-25 | 东莞市东雅家居用品有限公司 | It is a kind of can the multiple citicall limited aluminium printed film of heat manufacture method |
| CN107696659A (en) * | 2017-11-15 | 2018-02-16 | 上海绿新新材料科技有限公司 | A kind of manufacture craft of environmentally friendly laser transfer paper |
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Application publication date: 20150121 |