TWM540965U - Reflective and self-luminous substrate structure - Google Patents

Description

Reflective and self-illuminating substrate structure

This creation is about a reflective and self-illuminating substrate structure, especially one that has a self-illuminating warning effect in the dark environment at night, and achieves an improvement in nighttime viewing.

Press, the police or the righteous person who usually directs traffic and the cleaning staff cleaning the street will wear a reflective clothing with a reflective effect, and further have the effect of luminous, so that the person wearing the warning clothing becomes more conspicuous. Remind the driver in the vehicle to pay attention, so it can avoid the impact of the vehicle.

As the concept of sports is gradually improved, many people can enjoy a variety of activities, such as jogging, in the early morning or after work, and they will also engage in cycling and climbing activities on holidays. To strengthen the body. However, if you are engaged in activities in the morning, evening or cloudy weather, in order to avoid injuries, you need to set up warning devices to avoid danger.

Night lighting, decoration or warning devices are generally divided into two types; one is a passive reflective device, which functions to reflect the external light source without consuming power; the passive reflective device is a plastic reflective strip and a reflector. The form is the most common, but the material texture is hard, and if there is no light source outside the environment, it will lose its luminous effect because it cannot reflect the light; One is an active illuminating device, which is mainly in the form of fluorescent illuminating or bulb illuminating; such device has high gloss and is not limited by environmental factors, but the device is complicated, cumbersome and expensive, and is not suitable for use as a warning sign on clothing or accessories or Decorative pattern. The conventional illuminating fabric adopts a light guiding fiber, and the sidewall thereof is partially damaged physically or chemically. When a light source is provided at the end of the fiber, the light will advance along the axial direction of the light guiding fiber, and the light will be destroyed by the light. The side of the light guiding fiber is in a state of being illuminated.

However, as far as the above-mentioned conventional light-emitting fabrics have only the function of passive light emission, they cannot actively emit light at night, which affects safety, and the light guide fiber itself has insufficient softness, the light source is uneven, and cannot be allowed to be too large. The bending angle is not suitable for general clothing and accessories, which is a big drawback, and needs to be improved.

The present invention provides a reflective and self-illuminating substrate structure, the substrate comprising: a reflective layer extending along a length direction, the reflective layer being selected from a polymer material, such that the reflective layer is transparent overall And having a suitable flexibility and elasticity; and a light-emitting layer extending along a length direction and disposed at a surface of the light-reflecting layer, the light-emitting layer being selected from the group consisting of a light-storing powder and a phosphor powder and uniformly mixed to form a a viscous mixture formed on the surface of the light-reflecting layer for high-temperature drying, so that the light-emitting layer has a light-storing and fluorescent effect; thereby, the substrate is illuminated by the light source under full illumination The layer contains the light-storing powder and the phosphor powder to reach the absorption light source, and when the light source is irradiated away from the substrate, the substrate is dark at night. Under the environment, the light-emitting layer irradiated by the light source completely emits the light of the fluorescent color by the reflection of the light-reflecting layer; even when the light source is irradiated on the substrate In the local position, the substrate is exposed to the light-emitting layer of the light source, and the light-emitting layer locally emits a fluorescent color by the reflection of the light-reflecting layer, thereby generating The eye-catching warning effect makes it easy for others to detect the exact location of their existence, reduce the possibility of accidents, and achieve the improvement of nighttime visibility.

The light emitting layer is disposed on the upper surface of the light reflecting layer, and the thickness of the light emitting layer is smaller than the thickness of the light reflecting layer; wherein the light emitting layer is disposed on the lower surface and the lower surface of the light reflecting layer, and the light emitting layer is The thickness is smaller than the thickness of the light reflecting layer; wherein the reflective layer has a surface represented by any of a plane or a concave-convex surface; wherein the light-emitting layer has a thickness of 15 mm to 25 mm. Between the ranges; the reflective layer has a thickness ranging from 25 mm to 35 mm; wherein the luminescent layer is selected from the group consisting of a light-storing powder and a phosphor powder. The viscous mixture is further added with a coloring material and stirred to achieve uniform mixing, so that the luminescent layer is presented in a color form; wherein the reflective layer is selected from the group consisting of thermoplastic elastomer (TPE) and thermoplastic Rubber (TPR), vinyl acetate copolymer (EVA), natural rubber (NR), synthetic rubber (SR), polyurethane (PU), polyvinyl chloride (PVC), thermoplastic polyurethane (TPU) or SILICOME One material.

The main purpose of this creation is to provide a self-illuminating warning effect in the dark environment at night, and to achieve the improvement of nighttime viewing.

Because of the reflective and self-illuminating substrate structure of the present invention, the effect is that the substrate reaches the absorption light source by the light-emitting layer containing the light-storing powder and the fluorescent powder under the complete illumination of the light source, and the light source is away from the illumination. In the case of the substrate, the light-emitting layer irradiated by the light source in the dark environment at night will completely emit the fluorescent color by the reflection of the light-reflecting layer due to the light-storing and fluorescent effect contained in the substrate. Even when the light source is irradiated to a local position of the substrate, the substrate is exposed to the light-emitting layer of the light source, and the light-emitting layer is partially reflected by the reflection of the light-reflecting layer due to the light-storing and fluorescent effects contained therein. Sexually emits the radiance of fluorescent colors to produce a bold warning effect, making it easy for others to detect the exact location of their existence, reducing the possibility of accidents, and achieving the improvement of nighttime viewing.

This creation:

1‧‧‧Substrate

11‧‧‧Reflective layer

12‧‧‧Lighting layer

120‧‧‧Viscotable mixture

2‧‧‧ objects

T1‧‧‧ thickness

T2‧‧‧ thickness

A‧‧‧ products

Figure 1 is a schematic diagram of a substrate with reflective and self-luminous properties (1).

Figure 2 is a schematic diagram of a substrate with reflective and self-luminous properties (2).

Figure 3 is a schematic diagram (1) of another structural type of a substrate having reflective and self-luminous properties.

Figure 4 is a schematic diagram of another structural type of the substrate with reflective and self-luminous properties (2).

Fig. 5 is a schematic view showing the state of use of the preferred embodiment of the present invention (1).

Figure 6 is a schematic view of the state of use of the preferred embodiment of the present invention (2).

Figure 7 is a schematic view of the state of use of the preferred embodiment of the present invention (3).

Figure 8 is a schematic view of the state of use of the preferred embodiment of the present invention (4).

First, please refer to FIG. 1 to FIG. 4, which is a "reflective and self-luminous substrate structure" of the present invention; the substrate 1 comprises: a reflective layer 11 and a light-emitting layer 12; wherein: the reflective The layer 11 extends along a length direction, and the light reflecting layer 11 is made of a polymer material, so that the light reflecting layer 11 has a transparent shape as a whole and has appropriate flexibility and elasticity; wherein the light reflecting layer 12 is selected from The polymer material is thermoplastic elastomer (TPE), thermoplastic rubber (TPR), vinyl acetate copolymer (EVA), natural rubber (NR), synthetic rubber (SR), polyurethane (PU), polyvinyl chloride (PVC). Any one of a thermoplastic polyurethane (TPU) or a SILICOME material; and the light-emitting layer 12 extends along a length direction and is disposed at a surface of the light-reflecting layer 11, and the light-emitting layer 12 is selected from the group consisting of a light-storing powder and Fluorescent powder and uniformly mixed to form a viscous mixture 120, and coated on the surface of the reflective layer 11 for high-temperature drying, so that the luminescent layer 12 has the effect of light storage and fluorescence; According to the structure, it is further explained as follows: the foregoing reflective layer 11 and The arrangement between the light-emitting layers 12 has two types, and the type of the light-emitting layer 12 is as follows: Type 1: The light-emitting layer 12 is disposed on the upper surface of the light-reflecting layer 11 (as shown in FIGS. And the thickness T2 of the light-emitting layer 12 is smaller than the thickness T1 of the light-reflecting layer 11; wherein the light-reflecting layer 11 has a surface (as shown in FIG. 1) or a concave-convex surface (as shown in FIG. 2). The light-emitting layer 12 has a thickness T2 ranging from 15 mm to 25 mm; and the reflective layer 11 has a thickness T1 of 25 Between the range of PCT (mm) and 35 mm (mm); further, the viscous mixture 120 selected by mixing the light-storing powder and the phosphor powder selected from the luminescent layer 12 is further added with a coloring material. Stirring to achieve uniform mixing, so that the luminescent layer 12 is presented in a color pattern; Type 2: the luminescent layer 12 is disposed on the lower surface of the reflective layer 11 (as shown in FIGS. 3 and 4). The thickness of the two light-emitting layers 12 is smaller than the thickness T1 of the light-reflecting layer 11; wherein the surface of the light-reflecting layer 11 is flat (as shown in FIG. 3) or concave-convex (as shown in FIG. 4). The light-emitting layer 12 has a thickness T2 ranging from 15 mm to 25 mm; and the reflective layer 11 has a thickness T1 ranging from 25 mm to 35 mm. Further, the viscous mixture 120 selected from the light-storing powder and the fluorescent powder selected by the luminescent layer 12 is further mixed with a coloring material to be stirred to achieve uniform mixing. The light-emitting layer 12 is rendered in a color pattern; by the above, the purpose of the present invention is as follows: the substrate 1 is provided with a light-storing powder by the light-emitting layer 12 under complete illumination of the light source. Fluorescent The powder reaches the absorption source, and when the light source is away from the substrate 1, the substrate 1 is exposed to the light source and the fluorescent effect of the light-emitting layer 12 irradiated by the light source in the nighttime dark environment. The reflection of the light-reflecting layer 11 completely emits the light of the fluorescent color; even when the light source is irradiated to the local position of the substrate 1, the substrate 1 is illuminated by the light-emitting layer 12, and the light-emitting layer 12 Due to the light storage and fluorescent effects contained, and the reflection of the reflective layer 11 partially emits the radiance of the fluorescent color to produce a bold warning effect, making it easy for others to detect the exact position of the existence and reduce the accident. The possibility of reaching the nighttime viewing enhancer; in particular, since the surface of the light reflecting layer 11 is represented by either a plane or a concave-convex surface, when the surface of the light-reflecting layer 11 is rendered by a concave-convex surface When the light-emitting layer 12 coated on the surface of the light-reflecting layer 11 has a thick surface, the thickness of the light-emitting layer 12 is thick. Therefore, when the light source is irradiated onto the substrate 1, the light-emitting layer 12 located on the surface of the light-reflecting layer 11 is uneven. Its light storage and fluorescent effect It is good, so when the light source is away from the substrate 1 , the substrate 1 is exposed to the light source and the fluorescent effect of the light-emitting layer 12 irradiated by the light source in the nighttime dark environment, and the reflective layer is provided by the light-reflecting layer. The reflection of 11 completely radiates the different brightness of the fluorescent color.

Please refer to FIG. 5 to FIG. 8 together with reference to FIG. 1 for a preferred embodiment of the "reflective and self-illuminating substrate structure" of the present invention; the substrate 1 comprises: a reflective layer 11 and a light-emitting layer 12; wherein: the light-reflecting layer 11 extends along a length direction, and the light-reflecting layer 11 is made of a polymer material, so that the light-reflecting layer 11 is transparent and has an appropriate shape as a whole. Flexibility and elasticity; wherein the reflective layer 12 is selected from the group consisting of thermoplastic elastomers (TPE) and thermoplastic rubber Glue (TPR), vinyl acetate copolymer (EVA), natural rubber (NR), synthetic rubber (SR), polyurethane (PU), polyvinyl chloride (PVC), thermoplastic polyurethane (TPU) or SILICOME a light-emitting layer 12 extending along a length direction and disposed at a surface of the light-reflecting layer 11 is selected from the group consisting of a light-storing powder and a phosphor powder and uniformly mixed to form a viscous mixture. 120, and is applied to the surface of the light-reflecting layer 11 for high-temperature drying, so that the light-emitting layer 12 has the effect of light storage and fluorescence; wherein the arrangement between the light-reflecting layer 11 and the light-emitting layer 12 has two kinds The type, the type of the present invention has been described above, and therefore will not be described again; the substrate 1 can be cut according to the required length and width when used, and after cutting, The substrate 1 is bonded to the surface of an object 2 to obtain a reflective and self-illuminating article A; wherein the object 2 is a pet strip (as shown in FIG. 5) and a braid (see FIG. (7), vest clothing or transportation equipment; the substrate 1 is a high-frequency thermocompression bonding or knitting seam Either in the manner of being fixed to the surface of the object 2 to form the aforementioned article A; further, the object 2 is a plurality of wires; the substrate 1 is formed by interlacing with a plurality of wires. Forming the aforementioned article A; and the article A is presented as a cord (as shown in FIG. 8), a shoelace, a webbing or a pet belt; as described above, the substrate 1 is Further, after cutting according to the required length and width, the substrate is bonded to the surface of an object 2 to obtain a reflective and self-luminous Product A: wherein the object 2 is any one of a pet belt body, a woven belt, a vest clothing or a traffic device; the substrate 1 is consolidated by any of high-frequency thermocompression bonding or knitting seaming. Forming the aforementioned article A at the surface of the object 2; or, the object 2 is a plurality of wires; and the substrate 1 is formed by interlacing a plurality of wires to form the aforementioned article A; The article A is presented by any one of a cord, a lace, a webbing or a pet belt; regardless of the type of the product A being present; in use, the substrate 1 is completely illuminated by the light source, The light-emitting layer 12 contains the light-storing powder and the phosphor powder to reach the absorption light source. When the light source is irradiated away from the substrate 1, the substrate 1 is exposed to the light source layer 12 in the dark environment at night. Containing the light-storing and fluorescent effects, and completely reflecting the light of the fluorescent color by the reflection of the light-reflecting layer 11; even when the light source is irradiated to the local position of the substrate 1, the substrate 1 is subjected to a light-emitting layer 12 that is illuminated by a light source, and the light-emitting layer 12 is contained The light-storing and fluorescent effects, and the reflection of the reflective layer 11 locally emits the radiance of the fluorescent color to produce a bold warning effect, so that others can easily detect the exact position of the existence and reduce the possibility of accidents. To achieve the improvement of nighttime observability; comprehensively, a reflective and self-illuminating substrate structure has not been seen in various books or publicly used, and it is in line with the requirements of new patent applications, and please ask for a clear patent, and grant patents as soon as possible. Pray. To be clear, the above is the specific embodiment of the creation and the technical principles applied. If the changes made according to the concept of this creation, the functional role produced by it does not exceed the spirit of the manual and the drawings. At the time, it should be combined with Chen Ming within the scope of this creation.

1‧‧‧Substrate

11‧‧‧Reflective layer

12‧‧‧Lighting layer

120‧‧‧Viscotable mixture

T1‧‧‧ thickness

T2‧‧‧ thickness

Claims (7)

A reflective and self-illuminating substrate structure comprising: a reflective layer extending along a length direction, the reflective layer being selected from a polymer material, such that the reflective layer is transparent as a whole and Having suitable flexibility and elasticity; and a light-emitting layer extending along a length direction and disposed at the surface of the light-reflecting layer, the light-emitting layer is selected from the group consisting of a light-storing powder and a phosphor powder and uniformly mixed to form a viscous mixture And coating on the surface of the light-reflecting layer for high-temperature drying, so that the light-emitting layer has the effect of light storage and fluorescence; thereby, the substrate contains light storage by the light-emitting layer under complete illumination of the light source The powder and the phosphor powder reach the absorption light source, and when the light source is irradiated to the substrate, the light-emitting layer irradiated by the light source is caused by the light storage and the fluorescent effect of the light source in the nighttime dark environment. The reflection layer completely reflects the radiance of the fluorescent color; even when the light source is irradiated to a local position of the substrate, the substrate is illuminated by the light source, and the luminescent layer is contained Light and fluorescent effects, and the reflection of the reflective layer locally emits the radiance of fluorescent color to produce a bold warning effect, making it easy for others to detect the exact location of the existence and reduce the possibility of accidents. The enhancer of nighttime viewing. The reflective and self-luminous substrate structure according to claim 1, wherein the light-emitting layer is disposed at an upper surface of the light-reflecting layer, and the light-emitting layer has a thickness smaller than a thickness of the light-reflecting layer. The reflective and self-luminous substrate structure according to claim 1, wherein the light-emitting layer is disposed on the light-reflecting layer at a lower surface, and the two light-emitting layers have a thickness smaller than a thickness of the light-reflecting layer. The reflective and self-luminous substrate structure according to claim 2 or 3, wherein the reflective layer has a surface which is represented by either a planar or concave-convex surface. The reflective and self-luminous substrate structure according to claim 2 or 3, wherein the luminescent layer has a thickness ranging from 15 mm to 25 mm; and the thickness of the reflective layer is The range is between 25 mm (mm) and 35 mm (mm). The reflective and self-luminous substrate structure according to claim 2 or 3, wherein the light-emitting layer is selected from the group consisting of a viscous mixture of a light-storing powder and a phosphor powder, and a color mixture is further added and stirred. In order to achieve uniform mixing, the luminescent layer is rendered in a color pattern. The reflective and self-luminous substrate structure according to claim 1, wherein the reflective layer is selected from the group consisting of thermoplastic elastomer (TPE), thermoplastic rubber (TPR), and vinyl acetate copolymer (EVA). Any of natural rubber (NR), synthetic rubber (SR), polyurethane (PU), polyvinyl chloride (PVC), thermoplastic polyurethane (TPU) or SILICOME.