TWI633224B - Sunscreen light energy cloth (3) - Google Patents

Abstract

A sunscreen light energy cloth (3) comprising a base fabric layer, a colored layer of a fused element of a fiber woven inner layer and a layer of a fused element bonded to the surface layer Color layer, which is formed by polyester fiber: nylon fiber (Nylon) and elastic yarn (Spandex) tissue material polymer woven with elasticity, density, light transmittance and light absorption and can obtain the highest energy ultraviolet light The number of joules and the high-temperature decontaminated fabric substrate are subjected to a pretreatment treatment of the non-toxic fluorescent bleaching action to refining the shaped fabric, so that the stereotyped fabric is used as the substrate layer, and the tension-free full-layer layer is used. Coating on the surface of the cloth with a enamel dye pigment. The function of the fluorescent color paste layer is dyed at a high temperature of 90-100 degrees and penetrated into the inner woven layer of the fabric. The chromaticity of the surface of the cloth is controlled to be 20-30% lighter and retained. Anti-UV UPF/FPU function and part of the first tension-free full-layer layer color layer with 50-60% conversion wavelength performance, further coloring in the first layer of the tension-free full-layer layer Degree control color is slightly lighter than the main color to form the suction level At least 70-80% and retaining a UV-resistant UPF/FPU and a light-wave layer with a converted light wave performance of 99%, the second layer of tension-free full-layer layer fuses the enamel element, and the surface layer of the sun-protected fabric contains bismuth elements. Dyeing pigment fluorescent paste layer functional coloring layer and fast color layer can generate heat by contacting the body itself to make the element in the fiber work, and can automatically transmit electrons and heat to obtain the highest focal number to absorb the visible light partial conversion wavelength. The effect is to make the light transmissive and autonomous absorption beneficial to the visible color light absorption characteristics, and to achieve the effect of the sunscreen light energy cloth substrate with negative ions, far infrared rays and promoting blood circulation and warmth.

Description

Sunscreen light energy cloth (3)

The invention relates to a sunscreen light energy cloth (3), in particular, having a sunscreen and absorbing beneficial light waves and achieving improved color fastness and light transmittance, light absorption, water washing resistance, printability, reaching negative ion energy, releasing far infrared rays, A sunscreen light cloth that promotes blood circulation and warmth.

According to the greenhouse effect, the weather changes abnormally, and the intensity of ultraviolet rays in the sunlight is getting stronger and stronger. Generally, the skin is protected from the ultraviolet rays in the sunlight. Currently, there are sunscreen clothes specially designed to resist ultraviolet rays. Although the product can be avoided, it can avoid sunburn problems, but it may cause discomfort such as sultry skin due to poor quality or opacity of clothing, especially for outdoor sports workers or workers. Under the influence of melanin precipitation, the skin is discolored or causes symptoms such as dark spots, freckles, and acne. Therefore, exposure to excessive ultraviolet rays not only accelerates skin aging, but also causes a hidden crisis of skin cancer.

Therefore, as in the case of the invention patent No. I400376 “Sunscreen Light Energy Cloth” (as shown in Figure 9), the applicant is wearing or wearing a human body to convert harmful ultraviolet rays into specific wavelength light. The sunscreen light energy cloth substrate (10), and this energy is transmitted to the human skin to play a phototherapy beauty effect like pulse light, and has both coolness, sunscreen, deodorization, non-toxic and light-absorbing characteristics and is good for skin health. Functional fabric, only the front-end sunscreen light energy fabric substrate (10) has a function of the fluorescent color paste layer (101), which is easy to produce dirt and less washable, and the number of washings Limit, and only one surface light energy cloth can be achieved, and the pattern printing can not be printed on the surface of the cloth. After repeated repeated washing, the color fastness easily loses stability, thus affecting the color. The light effect reduces the original function of the functional fabric.

In view of this, the present inventors have developed the present invention by virtue of long-term research and integration of relevant industries, and have been designed with many years of experience, and have been explored and tested for sample testing.

The main object of the present invention is to provide a sunscreen light energy cloth (3) comprising a base fabric layer, a color layer and a combination of a matte element of the inner fiber layer of the upper fabric layer. The color layer of the fused element on the surface layer is formed by a bleaching treatment to make the formed cloth face strong in light absorption, and has a strong anti-static, heat-insulating, moisture-absorbing and wicking fabric, and uses two main color systems. First and second color pigment fluorescent pastes containing different color values, and using two tension-free full-version layers to fully coat the fabric with a double-axis roller at a preset dyeing temperature The cloth single-sided pigment fluorescent paste is coated with two full-layer layers, and the double-sided roller is used as a tension-free full-layer layer on the surface of the cloth. The performance of the color paste layer is dyed into the inner woven layer fiber of the fabric at a high temperature of 90-100 degrees. The chromaticity control of the surface layer of the cloth is 20-30% lighter and the anti-UV UPF/FPU function and partial conversion wavelength performance are 50- 60% of the first no-tension full-page layer fuses the color layer of the enamel element, first The tension-free full-layer layer fuses the surface layer of the enamel element to further control the color suction rate to at least 70-80% and maintains the anti-UV UPF/FPU and the converted light wave efficiency of 99%. The full-strength layer of the tension fuses the color layer of the enamel element, and finally the sun-protected light-weight fabric is finished by stereotypes, which can achieve the protection of sunscreen and absorption of beneficial light waves and enhance color fastness and light transmittance, absorbance and washability. The use efficiency, and the heat generated by contact with the body itself can make the ruthenium element in the fiber work, and can independently transmit electrons and heat to obtain the highest focal length to absorb the visible light partial conversion wavelength effect, so that the light transmission and the autonomous absorption are beneficial. The color light absorption feature allows the wearer to wear the sun light energy fabric substrate to achieve further negative ion energy, release far infrared rays, and promote blood circulation and warmth.

A secondary object of the present invention is to provide a sunscreen light energy cloth (3), which can be coated with a water-repellent Teflon coating on a second non-tension full-layer layer. The outermost layer of the color layer forms a water-repellent layer, or a printing layer of various patterns is printed on the outermost layer of the second tension-free full-layer layer or the outer layer of the water-repellent layer to make the sunscreen The cloth substrate can retain the original action layer with sunscreen and absorb beneficial light waves, and has the effects of color fastness, light transmittance, light absorption and water washing resistance, and can further form a sunscreen light energy cloth substrate through processing operations. The aesthetics of phototherapy sunscreen products for wear or wear on the human body and enhance the competitiveness of the market.

Practice:

10‧‧‧Sunscreen fabric substrate

101‧‧‧Fluorescent color paste layer

This creation:

20‧‧‧Sunscreen fabric substrate

201‧‧‧ base fabric

20A‧‧‧ hat

20B‧‧‧Sleeve

21‧‧‧Color layer

22‧‧‧dense layer

23‧‧‧Anti-water layer

24‧‧‧Printing layer

25‧‧‧锗Atom

Figure 1 is a flow chart of the production of the present invention.

Figure 2 is a perspective view of a three-dimensional appearance and partial enlargement of the present invention.

Figure 3 is a schematic cross-sectional view of the present invention.

Figure 4 is a schematic view showing the state of use of the present invention.

Figure 5 is a schematic view of a sun light energy cap made in accordance with an embodiment of the present invention.

Figure 6 is a flow chart showing another process of the present invention.

Figure 7 is another cross-sectional view of the present invention.

Figure 8 is a schematic view of a sunscreen light energy cuff made in accordance with an embodiment of the present invention.

Figure 9 is a perspective view of a stereoscopic view and a partial enlarged view of the formula.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT A preferred embodiment will be described in detail with reference to the accompanying drawings. DETAILED DESCRIPTION OF THE INVENTION The present invention is illustrated as follows: Figure 1 is a flow chart of the process of the present invention, the process steps comprising: a pre-bleaching process (formed fabric): Firstly, the number of joules with the highest UV light obtained by the polyester fiber: nylon fiber (Nylon) and elastic yarn (Spandex) is woven with the elasticity, density, light transmission and the highest energy of ultraviolet light transmitted through the sun. High-temperature decontamination of the fabric substrate, which is subjected to pretreatment and non-toxic fluorescent bleaching action to remove the oil, dirt and impurities of the cloth surface. The molecules of the non-toxic fluorescent compound have strong light absorption ability and are in the dyeing tank. Adding appropriate amount of finishing aid to make the fabric substrate form a stereotyped cloth with antistatic, heat preservation and moisture wicking functions. The tension-free full-layer layer coloring process is performed by using the stereotyped fabric as a substrate layer; the tension-free full-layer layer pigment coloring process: the above-mentioned bleached and processed stereotyped cloth is used as a substrate layer for tension-free full version The layer pigment is colored, and the coloring steps are as follows: (a) Pre-equipment and enamel treatment: first take a main color pigment fluorescent paste (can be set to red, orange, yellow, green, blue, enamel, purple), Take a meteorite (that is, the alloy 锗 piezoelectric crystal GAC, 锗 can have negative ions, far infrared rays, promote blood circulation, continue to maintain temperature and keep warm) by grinding to a micron amount of micronized powder (about -5UM) of cesium atoms (25 The setting temperature is set to 1500-1800 degrees high temperature to remove the remaining impurities for ashing, and then the cesium atom (25) of the micron amount of fine powder is secondarily ground into the ruthenium atom of the nano-sized ultrafine particle powder (25) The pre-prepared color pigment preparation of the dyeing pigment fluorescent paste before the dyeing is completed in order to facilitate the subsequent dyeing and finishing, and respectively set different color values under the same color system as the main color pigment. First color pigment fluorescent paste and second color pigment fluorescent paste Use color pigment preparation to make the first color pigment fluorescent paste be lighter than the main color, and then its color value is 20%~30% of the main color value (the color is the same as the main color) The same color color value is lighter than the lighter color of the lighter color, such as light red, light orange, light yellow, light green, light blue, light blue, light purple), the second color pigment fluorescent paste system The same color system is slightly lighter than the main color, and its color value is 70%~80% chromaticity of the main color color value (the main color color of the same color system is the same color color as the light color level, such as light red , light orange, light yellow, light green, light blue, light enamel, lavender), so that the preset pigments are prepared with color, and then the layer of the first layer of the full-strength layer is coated. Steps of the process: (b) the first step of the tension-free full-layer layer color layer coating and coloring step: taking the above-mentioned pre-washed and treated embossed fabric as the substrate layer, taking a predetermined first yttrium-containing atom The gradation pigment fluorescent paste is a full-coated coating of a single-sided roller to coat the first color of the ruthenium-containing atom (25) on the single-sided base layer (201). Step pigment fluorescent paste Color (can be set to be the same color color as the main color, the lighter color level is lighter, such as light red, light orange, light yellow, light green, light blue, light blue, light purple), so that The ratio of the color value of the first color gradation pigment fluorescent color paste to the primary color color value of the cesium atom (25) is set to 0.2 to 0.3:1 (ie, 20% to 30% of the primary color value), and the dyeing temperature is set. Set to 90°-100°, so that the first color gradation pigment fluorescent paste with lighter color value is dyed and the nano-sized powder 锗 atom (25) can be deeply penetrated into the base fabric layer of the grading fabric (201). In the inner layer of the fabric layer, the chromaticity of the surface layer of the cloth layer and the incorporation of the enamel element are completed, and the control is up to the first color of the chromaticity of 20%~30% of the main color of the main color. The tension full layer layer (21) is coated and colored, so that the first tension-free full-layer layer is melted with a enamel element layer (21) which can effectively penetrate the fiber layer and maintain a stable base layer (201). The fixing color of the base color layer is not decolored, and at the same time, it retains the anti-UV UPF/FPU function and can automatically conduct electrons and heat energy to obtain the highest focal length. The visible light partial conversion wavelength performance is 50%-60%, and then the application is continued. The second main color is tension-free full-layer layer, so as to improve the color fastness of the subsequent tension-free full-layer layer; (c) the second non-tension full-layer layer fast layer step: After the first step of completing the first tension-free full-layer layer color layer (21) of the chromaticity control of the cloth surface, the next one is taken with the main color. The second color gradation pigment fluorescent paste containing the ruthenium atom (25) which is slightly lighter than the main color is coated on the first side by a double-sided roller type and then coated on the single side. The second color gradation pigment fluorescent paste containing the ruthenium atom (25) is applied on the tension-free full-layer layer color layer (it can be set to be a lighter color gradation value than the main color color of the same color system) , such as light red, light orange, light yellow, light green, light blue, light blue, light purple), so that the second color spectrum pigment containing the halogen atom (25) fluorescent color paste color value and the color value of the primary color value The ratio is set to 0.7~0.8:1 (ie 70%~80% of the main color value), and the dyeing temperature is set to be 90°-100°, so that it is coated with the first color pigment fluorescent color. The paste simultaneously melts the tantalum element on the first tension-free full-layer layer color layer (21) on the single-sided surface layer for the second tension-free full-layer layer, the solid layer, the single-side coating, the second level pigment paste coloring Forming a second color layer (21) of the tension-free full-stack layer, and applying a second tension-free full-layer layer of the germanium atom (25) to the surface layer of the cloth, while utilizing the Two tension-free full-layer layers (22) and Under the overlap of a tension-free full-layer layer (21), the dyeing molecules are multiplied to complete the surface layer of the cloth to control the degree of color control, so that the surface of the finished cloth reaches the full color of the main color. Degree effect, 加 double the two tension-free full-layer layers on the surface of the cloth, the second layer of tension-free full-layer layer (22) can maintain anti-UV UPF/FPU and can automatically conduct electrons and heat to obtain the highest number of joules. Absorbing visible light converted light waves The performance is up to 99%, that is, the layer coloring process step is successfully completed, and finally, the surface layer of the finished cloth can be sent to the shaping processing program to make the pigment color more uniform and the color fastness is better; Processing procedure: It is only necessary to apply the tension-free drying and dust-free drying to obtain the maximum and most effective heating and drying effect on the surface layer of the cloth which has been finished by the full-stamp coating, so as to prevent the excessive tensile force of the cloth surface. Spandex elasticity and light transmittance, and prevent formaldehyde (muffulin) from remaining (high temperature sublimation), flying dust, impurities, stained cloth surface; disperse the cloth surface at a high temperature of 170°-180° to make the pigment color more For uniformity, better color fastness, and confirm that the formaldehyde is completely removed, and finally complete a removal of formaldehyde. The color fastness of the formaldehyde can be used as a pulse light phototherapy with light transmissive, light absorbing, and washable sunscreen light energy base. Material (20) molded product (as shown in Figure 2).

The finished product of the sun-protecting fabric substrate (20) as described above (as shown in FIG. 3) comprises a bottom layer (201), a base fabric, which is adhered to the skin of the human skin. The layer (201) is a color layer (21) of the fused element of the upper layer of the inner layer of the fiber and a layer (22) of the fused element of the surface layer.

As shown in Fig. 4, the molecules of the non-toxic fluorescent compound have strong light absorbing ability, absorb the energy of the long-short-wave light emitted by the sunlight, and correctly adjust the red, orange, yellow, green, blue, and sputum which are beneficial to the human body. Purple light, widely used in wavelengths from 780 (nm) to 390 (nm) (refer to the experimental data analysis chart of light transmittance of sunscreen light energy cloth), which converts harmful ultraviolet light into beneficial color light and penetrates depending on wavelength. Skin to different depths, to improve the body's blood circulation, skin, dark spots, wrinkles aging, emotional calm, have a good effect, such as applied to hats (20A, as shown in Figure 5), masks, sleeves (20B), Clothing, trousers, parasols, etc., by the surface layer of the sun-protecting fabric (20) containing the enamel dye pigment fluorescent color paste layer functional layer and the layer of the color layer can be light transmissive The self-absorbing absorption is beneficial to the visible light-light absorbing characteristics, and the electron and the heat energy can be transmitted without external force. When the user wears or wears the light-weight sun-protecting product on the human body, the sun-protecting fabric substrate (20) has high elasticity. Soft and comfortable, it is more isolated Rule out harmful light, shade conversion beneficial to human body irradiation on the skin, according to the wavelength and energy of different colors of light emitted to pass on human skin, in order to improve the skin on the different clinical problems and achieve both a sunscreen and has a similar function Pulse light phototherapy has the dual effect of restoring healthy skin, and the heat generated by contact with the body itself can make the enamel elements in the fiber work, and can automatically transmit electrons and heat to obtain the highest focal length to absorb the visible light partial conversion wavelength efficiency. The light-transmitting and self-absorbing absorption is beneficial to the visible light-light absorbing characteristics, so that the wearer wears the sun-protecting fabric substrate (20) to form a finished product (such as clothing) to achieve negative ion energy and release far-infrared rays into the human body through the skin. It promotes the function of blood circulation and warmth, promotes the release of active substances in human blood vessels, and activates cells and promotes metabolism.

As shown in Fig. 6, the sunscreen light-shielding substrate (20) described above is subjected to a pre-bleaching (finishing fabric) procedure (male cloth substrate → non-toxic fluorescent bleaching → stereotyped fabric → fixed base) Material layer), no tension full version layer pigment coloring program (pre-equipment material → first no-tension full-layer layer melting layer element layer coating color → second no tension full version layer melting 锗The coloring layer of the element is coated and colored), the shaping process (drying of the tension-free dust-free dryer, and the removal of the high-temperature setting of the formaldehyde) to complete the step of including the base fabric layer (201) and the color layer (21) and the color fast layer (22), the inner fabric layer of the base fabric layer (201) is coated with a color layer (21), and the color layer (22) is formed on the color layer (21). Wherein the fast color layer (22) can be coated with a water-repellent Teflon coating on the outermost layer of the color layer (22) to form a water-repellent layer (23, as shown in FIG. 7), or The outermost layer of the fast color layer (22) is printed with a printed layer of various patterns (24, as shown in Fig. 8), and the surface of the printed layer (24) is provided with a layer of anti-water-repellent layer (23). Thereby, the sunscreen light energy cloth substrate (20) has a large number of cloth patterns. The appearance of the cloth material is more beautiful, and does not affect the function of the original action layer, and the original layer of the sunscreen light energy cloth substrate (20) has the benefit of sun protection and absorption of beneficial light waves, and simultaneously achieves improved color fastness and both. Light transmission, light absorption, and washing resistance.

In summary, it is known that the present invention can be widely utilized by related industries, and is extremely progressive and novel, and the present invention has not been disclosed before the application, has complied with the provisions of the Patent Law, and has filed an invention patent application according to law. I would like to ask the bureau to observe and benefit from patents.

However, the above is only the preferred embodiment of the present invention, and the scope of the present invention cannot be limited thereto; that is, the equalization of the scope of the patent application according to the present invention. Both modifications and modifications are still within the scope of the invention.

Claims (6)

A sunscreen light energy cloth comprising a base fabric layer, a color layer of a fused element which is woven with an inner woven layer of the upper layer of the base fabric layer, and a color layer of a fused element bonded to the surface layer. The molding process step comprises: a pre-bleaching treatment (setting cloth) procedure: firstly, a fabric material of a polyester fiber, a nylon fiber and an elastic yarn is subjected to high temperature decontamination of the substrate to make the fabric substrate pass through the substrate. Pre-treatment, non-toxic fluorescent bleaching, refining, removing the veil oil, dirt and impurities to form a stereotyped cloth with antistatic, heat preservation, moisture wicking function, so that the stereotyped fabric is used as the substrate layer without tension Full-page layer coloring program; no-tension full-layer layer pigment coloring program: the above-mentioned bleached treated stereotyped fabric is used as a substrate layer for colorless full-layer layer pigment coloring, and the coloring steps are as follows: (a Pre-equipment material: first take a primary color pigment fluorescent paste, and at the same time take a vermiculite and grind it into a micron micro-powder (about -5 UM). The atomic atom is placed at a temperature of 1500-1800 degrees. The second atom of the micron powder The ruthenium atom forming the nano-scale ultrafine particle powder is integrated into the preset color pigment preparation of the dyeing pigment fluorescent paste before dyeing, and is respectively set to be the first color value under the same color system as the main color pigment. The gradation pigment fluorescent paste and the second gradation pigment fluorescent paste are preset by the color pigment preparation, so that the first gradation pigment fluorescent paste is set to be the same color as the main color. The color of the same color system is set to 20~30% chromaticity of the main color color value, and the second color gradation pigment fluorescent color paste is set to be the same as the main color of the main color. The same color of the light color step, the color value is set to 70%~80% chromaticity of the main color value, so that the preset pigment is prepared with the color, and then the first non-tension full-layer layer is coated. Step of the layer coloring process; (b) the first step of the tension-free full-layer layer color layer coating and coloring step: using the above-mentioned pre-washed-type stereotyped cloth as the substrate layer, taking the preset flaws Atomic first-level pigment fluorescent paste, which is coated with a double-axis roller at a preset dyeing temperature to make a single-layer substrate A first gradation fluorescent pigment color paste coating containing germanium atoms on the colored layer, so that the germanium-containing raw The first color gradation pigment fluorescent paste is set to be lighter than the main color of the main color, and the first color gradation pigment fluorescent paste is dyed at the same time. The niobium-containing powder niobium atom can be deeply infiltrated into the inner woven layer fiber of the woven fabric base fabric layer, and the chromaticity of the enamel element of the cloth surface layer is completed and the control is uniform with the main color. And coating the first tension-free full-version layer color layer of the chromaticity of 20%-30% of the main color color value, maintaining the fixing color of the base color layer of the stable base fabric layer without decoloring, and at the same time The anti-UV UPF/FPU function can independently control the electron and heat energy to obtain the highest focal length and absorb the visible light. The conversion wavelength is 50%-60%, so as to improve the color fastness of the subsequent dye-free full-stack layer; (c The second non-tension full-layer layer is applied to the color layer coating step: a second color gradation pigment fluorescent paste containing the same color as the main color and slightly lighter than the main color, Applying a double-coated roller to the full-coating of the fabric at the dyeing temperature to apply one side to the first tension-free full-stack layer The second level pigment fluorescent paste is colored on the layer, and a second tension-free full-layer layer is formed to make the second layer of the nano-strain-free full-layer layer containing the nano-sized powder The color layer is completely coated on the surface layer of the cloth, and the second layer of the tension-free full-layer layer contains a bright layer of germanium atoms and overlaps with the first layer of the tension-free full-layer layer to make the dyed molecules The surface layer of the cloth is controlled by the effect of color to control the degree of color suction, so that the surface of the cloth with double tension-free full-layer layer can maintain anti-UV UPF/FPU and heat energy to obtain the highest number of joules to absorb visible light and convert light wave performance up to 70. %~80%, that is, the step of finishing the layer coloring process; the shaping processing program: only the surface layer of the cloth which has been coated and finished by the above-mentioned full version is used to obtain the maximum and most effective by using tension-free drying and dust-free drying. The heating and drying effect is to prevent the excessive tensile force of the fabric from affecting the elasticity and light transmittance of the elastic yarn, and to prevent the residual of formaldehyde (muffin) (high temperature sublimation), flying dust, impurities, stained cloth surface; at a high temperature of 170°-180 ° Styling and dispersing the fabric to make the pigment color more uniform Uniformity, better color fastness, and confirm that all formaldehyde is removed, and finally complete a removal of formaldehyde. The color fastness can be used as a pulse light phototherapy. Finish the finished product. The sunscreen light energy cloth of claim 1, wherein the The first-order pigment fluorescent color paste is set to be the same color as the main color and is lighter than the main color color value, and is 20%~30% of the main color color value, and the first color level pigment fluorescent color paste color The color value ratio of the value to the primary color value is set to 0.2 to 0.3:1. According to the sunscreen light energy cloth of claim 1, wherein the second color gradation pigment fluorescent paste containing bismuth atoms is set to have the same color as the main color and is slightly lighter than the main color value. The color value of the main color value is 70% to 80%, and the color value ratio of the second color gradation pigment fluorescent color paste containing the ruthenium atom is set to 0.7 to 0.8:1. The sunscreen light energy cloth of claim 1, wherein the first tension-free full-layer layer color layer and the first color of the second tension-free full-layer layer fuse the enamel element The dyeing temperature of the step pigment fluorescent paste and the second color pigment paste is set to 90°-100°. The sunscreen fabric according to claim 1, wherein the sunscreen fabric substrate is coated with a water-repellent Teflon-processed water-repellent layer on the color layer. The water layer is disposed on the outermost layer of the color layer. The sunscreen fabric according to claim 1, wherein the sunscreen fabric substrate is printed with a layer printing on the color layer, and the printing layer is disposed on the outermost layer of the color layer.