CN105133286A - Manufacturing technology for fluorescent fabric for backpack - Google Patents

Abstract

The invention relates to the field of luggage production and processing, in particular to a manufacturing technology for a fluorescent fabric for a backpack. The manufacturing technology comprises the following steps that firstly, mixture yarn is soaked into a fluorescent agent for 4 h and then taken out for drying, and the drying temperature is 90-110 DEG C; secondly, a blended fabric is coated with a layer of waterproof adhesive, and the coating amount is 150-200 g/m<2>; thirdly, the coated fabric is dried and plasticized to obtain the fluorescent fabric, the drying temperature is 145-160 DEG C, and the plasticizing temperature is 190-200 DEG C. The adopted blended fiber can enhance the fiber adhesive ability, components inside the fluorescent solvent can be absorbed to the maximum extent when the fluorescent solvent is absorbed, the fabric is formed by soaking and interweaving the mixture yarn and then coating the blended fabric with the waterproof layer, retaining of the fluorescent components is facilitated, the staying power is increased, and the manufacturing technology is safe, reliable, environmentally friendly and healthy.

Description

The fluorescent fabric manufacturing technique that a kind of knapsack uses

Technical field:

The present invention relates to the production and processing field of case and bag, more specifically to the fluorescent fabric manufacturing technique that a kind of knapsack uses.

Background technology:

Fabric is the material of main part of case and bag product, and fabric not only directly affects the image appearance of product, and, be related to the market sale price of product, attention very must be given when designing and selecting.Style moulding, material and color are design three elements.Case and bag color and material two factors are directly embodied by fabric, and the style moulding of case and bag also relies on the characteristics such as the softness of material, well-pressed and thickness weight to ensure.So be also to pay attention to emphatically at conceptual design expression effect, at night, a lot of people carries knapsack, particularly children, knapsack relative to children have very large, cause inconvenient activity, and on present road, vehicle is a lot, when illumination deficiency, likely causes security incident.

Summary of the invention:

Technical problem to be solved by this invention is to overcome the fluorescent fabric manufacturing technique that existing technological deficiency provides a kind of knapsack to use.

Technical problem to be solved by this invention adopts following technical scheme to realize:

The fluorescent fabric manufacturing technique that knapsack uses, is characterized in that comprising the following steps:

(1) union twist yarn to be immersed in fluorescence solvent 4 hours, then take out oven dry, bake out temperature is 90-110 DEG C;

(2) union twist yarn is used to be woven into blended yarn woven fabric;

(3) by blended yarn woven fabric brushing one deck marine glue, brushing amount is 150-200g/m ²;

(4) by brushing after fabric carry out oven dry and plastics processing after and get final product, temperature during oven dry is 145-160 DEG C, and temperature during plasticizing is 190-200 DEG C.

Further, described blended yarn woven fabric comprises the component of following weight portion: 65-75 part cotton fiber, 5-10 part paper mulberry fiber, 10-20 part D.giraldii Nitsche fiber, 5-9 part smallpox fiber of ancient India, 5-15 part smallpox fiber of ancient India.

Further, described fluorescence solvent comprises the component of following weight portion: 15-26 part dibutylester, 15-20 part benzinum, 3-6 part chilli oil, 2-5 part defoamer, 2-4 part coalescents, 4-7 part alundum (Al2O3) pulvis, 1-2 part diffusant, 6-9 part hide glue, 50-60 part photo-induced energy storage luminescent powder.

Further, the preparation method of described fluorescence solvent is:

(1) dibutyl ester, alundum (Al2O3) pulvis are uniformly mixed at the temperature of 50 DEG C, obtain mixture A;

(2) in mixture A, add hide glue, chilli oil to be uniformly mixed at the temperature of 70 DEG C, be then cooled to normal temperature, obtain mixture B

(3) benzinum, photo-induced energy storage luminescent powder are uniformly mixed at normal temperatures, obtain mixture C;

(4) mixture B is poured in mixture C, add and slowly stir, add defoamer, coalescents, diffusant simultaneously, obtain fluorescence solvent.

The blend fibre that the present invention adopts can the adhesive ability of fortifying fibre, like this when absorbing fluorescence solvent, can absorb the composition of the inside to greatest extent, fabric is woven into again after using union twist yarn to soak, brushing watertight composition again, is conducive to the reservation of fluorescence composition like this, increases endurance;

Use fluorescent fabric to make the outer surface of knapsack, eye-catching effect can be played at night like this, ensure personal safety, in addition night out of doors, also can the position of quick position companion, the present invention is safe and reliable, environment protection health.

Detailed description of the invention:

The technological means realized to make the present invention, creation characteristic, reaching object and effect is easy to understand, below in conjunction with specific embodiment, setting forth the present invention further.

The fluorescent fabric manufacturing technique that knapsack uses, is characterized in that comprising the following steps:

(1) union twist yarn to be immersed in fluorescence solvent 4 hours, then take out oven dry, bake out temperature is 110 DEG C;

(2) union twist yarn is used to be woven into blended yarn woven fabric;

(3) by blended yarn woven fabric brushing one deck marine glue, brushing amount is 200g/m ²;

(4) by brushing after fabric carry out oven dry and plastics processing after and get final product, temperature during oven dry is 160 DEG C, and temperature during plasticizing is 200 DEG C.

Blended yarn woven fabric comprises the component of following weight portion: 75 parts of cotton fibers, 10 parts of paper mulberry fibers, 20 parts of D.giraldii Nitsche fibers, 9 parts of smallpox fibers of ancient India, 15 parts of smallpox fibers of ancient India.

Fluorescence solvent comprises the component of following weight portion: 26 parts of dibutylesters, 20 parts of benzinums, 3 portions of chilli oils, 5 parts of defoamers, 4 parts of coalescents, 7 parts of alundum (Al2O3) pulvis, 2 parts of diffusants, 6 parts of hide glues, 50 parts of photo-induced energy storage luminescent powders.

The preparation method of fluorescence solvent is:

(1) dibutyl ester, alundum (Al2O3) pulvis are uniformly mixed at the temperature of 50 DEG C, obtain mixture A;

(2) in mixture A, add hide glue, chilli oil to be uniformly mixed at the temperature of 70 DEG C, be then cooled to normal temperature, obtain mixture B

(3) benzinum, photo-induced energy storage luminescent powder are uniformly mixed at normal temperatures, obtain mixture C;

(4) mixture B is poured in mixture C, add and slowly stir, add defoamer, coalescents, diffusant simultaneously, obtain fluorescence solvent.

More than show and describe general principle of the present invention and principal character and advantage of the present invention.The technical staff of the industry should understand; the present invention is not restricted to the described embodiments; what describe in above-described embodiment and description just illustrates principle of the present invention; without departing from the spirit and scope of the present invention; the present invention also has various changes and modifications, and these changes and improvements all fall in the claimed scope of the invention.Application claims protection domain is defined by appending claims and equivalent thereof.

Claims (4)

1. a fluorescent fabric manufacturing technique for knapsack use, is characterized in that comprising the following steps:

(1) union twist yarn to be immersed in fluorescence solvent 4 hours, then take out oven dry, bake out temperature is 90-110 DEG C;

(2) union twist yarn is used to be woven into blended yarn woven fabric;

(3) by blended yarn woven fabric brushing one deck marine glue, brushing amount is 150-200g/m ²;

(4) by brushing after fabric carry out oven dry and plastics processing after and get final product, temperature during oven dry is 145-160 DEG C, and temperature during plasticizing is 190-200 DEG C.

2. the fluorescent fabric manufacturing technique of a kind of knapsack use according to claim 1, is characterized in that described blended yarn woven fabric comprises the component of following weight portion: 65-75 part cotton fiber, 5-10 part paper mulberry fiber, 10-20 part D.giraldii Nitsche fiber, 5-9 part smallpox fiber of ancient India, 5-15 part smallpox fiber of ancient India.

3. the fluorescent fabric manufacturing technique of a kind of knapsack use according to claim 1, is characterized in that described fluorescence solvent comprises the component of following weight portion: 15-26 part dibutylester, 15-20 part benzinum, 3-6 part chilli oil, 2-5 part defoamer, 2-4 part coalescents, 4-7 part alundum (Al2O3) pulvis, 1-2 part diffusant, 6-9 part hide glue, 50-60 part photo-induced energy storage luminescent powder.

4. the fluorescent fabric manufacturing technique of a kind of knapsack use according to claim 1, is characterized in that the preparation method of described fluorescence solvent is:

(1) dibutyl ester, alundum (Al2O3) pulvis are uniformly mixed at the temperature of 50 DEG C, obtain mixture A;

(2) in mixture A, add hide glue, chilli oil to be uniformly mixed at the temperature of 70 DEG C, be then cooled to normal temperature, obtain mixture B

(3) benzinum, photo-induced energy storage luminescent powder are uniformly mixed at normal temperatures, obtain mixture C;

(4) mixture B is poured in mixture C, add and slowly stir, add defoamer, coalescents, diffusant simultaneously, obtain fluorescence solvent.