CN211502648U - Flexible structure with luminous net cover - Google Patents

Abstract

The utility model relates to a flexible structure with a luminous mesh enclosure, which comprises a flexible carrier and a luminous mesh enclosure, wherein the flexible carrier is provided with an opening and is made of leather, cloth, silica gel or rubber materials; the light-emitting net cover comprises a light-guiding net and a light-emitting module, the light-guiding net is fixed on the flexible carrier, and the light-guiding net comprises a woven net part which is woven by a plurality of optical fibers and covers the opening; the light emitting module includes LEDs arranged corresponding to the plurality of optical fibers. Therefore, the special visual effect that the flexible structure has the net-shaped lighting effect is achieved.

Description

Flexible structure with luminous net cover

Technical Field

The present invention relates to a flexible material product with a light-emitting mesh enclosure, and more particularly to a flexible structure with a light-emitting mesh enclosure.

Background

With the current claims of personalized and differentiated styles, products such as clothes, bags, gloves and hats are also increasingly required to have special and unique visual effects. Therefore, how to design flexible products (such as clothes, bags, gloves, caps, etc.) with luminous function is the focus of the research and development of the applicant.

In view of the above, the present inventors have made extensive studies and studies to solve the above problems in combination with the application of the above prior art, and as a result, the present inventors have developed the present invention.

SUMMERY OF THE UTILITY MODEL

The utility model provides a pliability structure of luminous screen panel of utensil, it utilizes LED with light conduction to a plurality of optic fibre, and then lets weave the visual impression that the net part presents netted light efficiency to reach the special visual effect that pliability structure has netted light efficiency.

In an embodiment of the present invention, the utility model provides a pliability structure of luminous screen panel, include: a flexible carrier, which is provided with at least one opening and is made of leather, cloth, silica gel or rubber material; and at least one light emitting mesh enclosure comprising: a light guide net fixed on the flexible carrier, wherein the light guide net comprises a woven net part which is woven by a plurality of optical fibers and covers the opening; and a light-emitting module including at least one LED disposed corresponding to the plurality of optical fibers.

Optionally, the plurality of optical fibers are a plurality of warp optical fibers, the light guide mesh further includes a plurality of weft transparent yarns, and the plurality of warp optical fibers and the plurality of weft transparent yarns are interwoven in a warp-weft manner to form the woven mesh portion.

Optionally, the light guide mesh further includes a plurality of warp-wise reflective yarns, the plurality of warp-wise reflective yarns and the plurality of warp-wise optical fibers are staggered and juxtaposed, and the plurality of warp-wise reflective yarns and the plurality of weft-wise transparent yarns are interwoven in a warp-wise manner to form the woven mesh portion.

Optionally, the number of the LEDs is one, the light emitting module further includes a fixing sleeve and a power control element, one end of the fixing sleeve is sleeved and tightly bundled at the ends of the plurality of warp-wise optical fibers and the other end is sleeved on the LED, and the LED is electrically connected to the power control element.

Optionally, the number of the LEDs is multiple, the light emitting module further includes a flexible light guiding strip and a power control element, the plurality of warp fibers extend from one side of the flexible light guiding strip for forming, the power control element is fixedly connected to the flexible light guiding strip, and the plurality of LEDs are electrically connected to the power control element and configured corresponding to the flexible light guiding strip.

Optionally, the plurality of optical fiber regions are divided into a plurality of warp fibers and a plurality of weft fibers, and the plurality of warp fibers and the plurality of weft fibers are interwoven in a warp-weft manner to form the woven mesh portion.

Optionally, the number of the LEDs is two, the light emitting module further includes two fixing sleeves and two power controllers, wherein one end of one fixing sleeve is sleeved and tightly bundled at the ends of the plurality of warp-wise optical fibers and the other end thereof is sleeved on one of the LEDs, one end of the other fixing sleeve is sleeved and tightly bundled at the ends of the plurality of weft-wise optical fibers and the other end thereof is sleeved on the other LED, and each of the LEDs is electrically connected to each of the power controllers.

Optionally, the number of the LEDs is multiple, the light emitting module further includes two flexible light guide bars and two power control units, the plurality of warp fibers extend and form from one side of one of the flexible light guide bars, the plurality of weft fibers extend and form from one side of the other flexible light guide bar, each of the power control units is fixedly connected to each of the flexible light guide bars, and the plurality of LEDs are respectively electrically connected to each of the power control units and configured corresponding to each of the flexible light guide bars.

Optionally, the retaining sleeve has a reflective inner wall.

Optionally, the opening is in the shape of at least one of a pattern, a character or a symbol, and the flexible carrier is a coat, a pair of trousers, a skirt, a hat, a scarf or a storage bag.

Based on the technical scheme, the woven mesh part covers the opening of the flexible carrier, and the LED conducts light through the optical fibers and is fully distributed on the woven mesh part, so that the opening of the flexible carrier presents visual perception of net-shaped lighting effect, the shape of the opening can be one or the combination of patterns, characters and symbols, and the attractiveness and decoration of the flexible carrier are further improved.

Based on above-mentioned technical scheme, weaving the net portion and contain a plurality of warp-wise optic fibre and a plurality of latitudinal direction printing opacity yarns that the longitude and latitude interweaved, make weaving net portion possess weaving cloth feel, and latitudinal direction printing opacity yarn has the printing opacity efficiency, makes LED's light conduction can stably be covered with weaving net portion to strengthen the luminous efficacy who weaves the net portion.

Drawings

Fig. 1 is a schematic view of the usage state of the light-emitting mesh enclosure of the present invention.

Fig. 2 is a partially enlarged view of a first embodiment of the knitted mesh portion of the present invention.

Fig. 3 is a partial enlarged view of a second embodiment of the knitted mesh portion of the present invention.

Fig. 4 is a schematic view illustrating a usage status of another embodiment of the light-emitting mesh enclosure of the present invention.

Fig. 5 is a partial enlarged view of a third embodiment of the knitted mesh portion of the present invention.

Fig. 6 is a schematic view illustrating a usage status of another embodiment of the light-emitting mesh enclosure of the present invention.

Fig. 7 is a schematic view of the flexible structure of the present invention.

Fig. 8 is a schematic view of another embodiment of the flexible structure of the present invention.

In the figure:

10: a flexible structure; 1: a flexible carrier; 11: an opening; 2: a light emitting mesh enclosure; 21: a light guide net; 211: an optical fiber; 2111: a warp-wise optical fiber; 2112: a weft optical fiber; 212: a knitted mesh portion; 213: weft-wise translucent yarns; 214: warp-wise reflective yarns; 22: a light emitting module; 221: an LED; 222: fixing the sleeve; 2221: a light reflecting inner wall; 223: a power control; 2231: a circuit board; 2232: a storage battery; 2233: a switch; 224: a flexible light guide strip.

Detailed Description

The detailed description and technical contents of the present invention will be described below with reference to the accompanying drawings, however, the accompanying drawings are only for illustrative purposes and are not intended to limit the present invention.

Referring to fig. 1 to 2, the present invention provides a flexible structure with a light-emitting mesh enclosure, wherein the flexible structure 10 mainly includes a flexible carrier 1 and one or more light-emitting mesh enclosures 2.

As shown in fig. 1, the flexible carrier 1 may be made of flexible materials such as leather, cloth, silica gel or rubber, the flexible carrier 1 is provided with one or more openings 11, and the shape of the opening 11 may be one of or a combination of patterns, characters and symbols. The number of the openings 11 in this embodiment is one, but not limited thereto.

As shown in fig. 2, the light-emitting mesh enclosure 2 includes a light-guiding mesh 21 and a light-emitting module 22, the light-guiding mesh 21 is fixed on the flexible carrier 1, the light-guiding mesh 2 includes a woven mesh portion 212 woven by a plurality of optical fibers 211 and covering the opening 11, and the light-emitting module 22 includes one or more LEDs 221 arranged corresponding to the plurality of optical fibers 211.

As shown in fig. 2, the first embodiment of the woven mesh part 212 of the present invention, in this embodiment, the plurality of fibers 211 are a plurality of warp fibers 2111 parallel to the warp direction, the light guide mesh 21 further includes a plurality of weft transparent yarns 213 parallel to the weft direction, and the plurality of warp fibers 2111 and the plurality of weft transparent yarns 213 are interwoven to form the woven mesh part 212. The weft transparent yarns 213 are preferably made of glass (voile), but not limited thereto.

In addition, the number of the LEDs 221 in this embodiment is one, the light emitting module 22 further includes a fixing sleeve 222 and a power control element 223, one end of the fixing sleeve 222 is sleeved and tightly bundled at the end of the plurality of warp fibers 2111 and the other end is sleeved on the LED221, and the LED221 is electrically connected to the power control element 223.

Furthermore, the fixing sleeve 222 may be made of a metal material, or a reflective layer may be coated on the inner periphery of the fixing sleeve 222, so that the inner periphery of the fixing sleeve 222 has a reflective inner wall 2221, so that the light of the LED221 can be reflected by the reflective inner wall 2221 and stably transmitted to the plurality of optical fibers 211.

In addition, the power control component 223 of the embodiment includes a circuit board 2231 electrically connected to the LED221, a battery 2232 mounted on the circuit board 2231, and a switch 2233, but not limited thereto, and when the switch 2233 is pressed by the circuit board 2231, it is determined that the battery 2232 needs to supply power to or cut off power from the LED221, so as to control the LED221 to be turned on or off.

As shown in fig. 1 to 2, in the using state of the flexible structure 10 of the present invention, the woven mesh portion 212 is used to cover the opening 11 of the flexible carrier 1, and the LED221 conducts light through the plurality of optical fibers 211 and is distributed to the woven mesh portion 212, so that the opening 11 of the flexible carrier 1 presents visual feeling of net-shaped light effect, the shape of the opening 11 can be one or a combination of patterns, characters and symbols, and the appearance and decoration of the flexible carrier 1 are further enhanced.

In addition, the woven mesh part 212 of the present embodiment includes a plurality of warp fibers 2111 and a plurality of weft translucent yarns 213 interwoven in warp and weft directions, so that the woven mesh part 212 has a woven fabric texture, and the weft translucent yarns 21 have a translucent effect, so that the light transmission of the LEDs 221 can be stably distributed over the woven mesh part 212, thereby enhancing the light emitting efficiency of the woven mesh part 212.

Referring to fig. 3, a second embodiment of the woven mesh part 212 of the present invention is shown, the embodiment of fig. 3 is substantially the same as the embodiment of fig. 1 to 2, and the difference between the embodiment of fig. 3 and the embodiment of fig. 1 to 2 is that the light guide mesh 21 further includes a plurality of warp-wise reflective yarns 214 arranged in parallel in the warp direction, the plurality of warp-wise reflective yarns 214 are arranged in parallel with the plurality of warp-wise optical fibers 2111 in a staggered manner, and the plurality of warp-wise reflective yarns 214 and the plurality of weft-wise transparent yarns 213 are interwoven to form the woven mesh part 212. The warp-wise reflective yarns 214 are made of high-tenacity yarns with glass reflective fine particles (bright powder) adhered to the outer surface thereof.

Therefore, the plurality of warp reflecting yarns 214 and the plurality of warp fibers 2111 are parallel and staggered, so that the warp reflecting yarns 214 can reflect light rays refracted by the warp fibers 2111, and the warp reflecting yarns 214 are parallel to the warp fibers 2111 without blocking light conduction of the warp fibers 2111, thereby improving the light emitting efficiency of the woven mesh part 212.

Referring to fig. 4 to 5, another embodiment of the light-emitting mesh enclosure 2 and a third embodiment of the mesh portion 212 of the present invention are shown, the embodiment of fig. 4 to 5 is substantially the same as the embodiment of fig. 1 to 2, and the embodiment of fig. 4 to 5 is different from the embodiment of fig. 1 to 2 in that a plurality of fibers 211 are divided into a plurality of warp fibers 2111 and a plurality of weft fibers 2112, and the plurality of warp fibers 2111 and the plurality of weft fibers 2112 are interwoven in a warp and weft direction to form the mesh portion 212.

As described below, since the optical fibers 211 of the present embodiment are divided into the warp fibers 2111 and the weft fibers 2112, the number of the LEDs 221, the fixing sleeves 222 and the power control units 223 is two, one fixing sleeve 222 is sleeved and tightly bundled at the ends of the warp fibers 2111 and the other ends thereof to one LED221, one fixing sleeve 222 is sleeved and tightly bundled at the ends of the weft fibers 2112 and the other ends thereof to the other LED221, and each LED221 is electrically connected to each power control unit 223. Thus, the plurality of warp fibers 2111 and the plurality of weft fibers 2112 are interwoven with each other, and the net-shaped luminous efficiency brightness of the woven net portion 212 can be improved.

Referring to fig. 6, another embodiment of the light emitting mesh enclosure 2 of the present invention is shown, the embodiment of fig. 6 is substantially the same as the embodiment of fig. 1 to 2, and the embodiment of fig. 6 is different from the embodiment of fig. 1 to 2 in that the structure of the light emitting module 22 is different.

As described in detail below, the number of the LEDs 221 of the present embodiment is multiple, the light emitting module 22 further includes a flexible light guiding bar 224 and a power control unit 223, the plurality of radial optical fibers 2111 extend from one side of the flexible light guiding bar 223, the power control unit 223 is fixedly connected to the flexible light guiding bar 223, and the plurality of LEDs 221 are electrically connected to the power control unit 223 and disposed corresponding to the flexible light guiding bar 224.

Similarly, referring to fig. 4 to 5, if the plurality of optical fibers 211 of the present embodiment are divided into a plurality of warp optical fibers 2111 and a plurality of weft optical fibers 2112, the number of the flexible light guide bars 224 and the number of the power control sections 223 are two, the plurality of warp optical fibers 2111 extend from one side of one flexible light guide bar 223, the plurality of weft optical fibers 2112 extend from one side of the other flexible light guide bar 223, each power control section 223 is fixedly connected to each flexible light guide bar 223, and the plurality of LEDs 221 are electrically connected to each power control section 223 and disposed corresponding to each flexible light guide bar 224.

Thus, the LEDs 221 of the present embodiment can stably transmit light to the optical fibers 211 through the flexible light guide strip 224, so as to improve the light emitting efficiency of the knitted mesh portion 212.

Please refer to fig. 7 to 8, which are schematic combination views of the flexible structure 10 of the present invention, wherein the flexible carrier 1 is widely applied, and the flexible carrier 1 can be a coat, a pair of trousers, a skirt, a hat, a scarf, or a storage bag.

The above-mentioned embodiments are merely preferred embodiments for fully illustrating the present invention, and the scope of the present invention is not limited thereto. Equivalent substitutes or changes made by the technical personnel in the technical field on the basis of the utility model are all within the protection scope of the utility model. The protection scope of the present invention is subject to the claims.

Claims (10)

1. A flexible structure with a light-emitting mesh enclosure is characterized by comprising:

a flexible carrier, which is provided with at least one opening and is made of leather, cloth, silica gel or rubber material; and

at least one light emitting mesh enclosure comprising:

a light guide net fixed on the flexible carrier, wherein the light guide net comprises a woven net part which is woven by a plurality of optical fibers and covers the opening; and

and a light-emitting module including at least one LED arranged corresponding to the plurality of optical fibers.

2. The flexible structure with a light-emitting mesh cover of claim 1, wherein the plurality of optical fibers are a plurality of warp optical fibers, the light-guiding mesh further comprises a plurality of weft light-transmitting yarns, and the plurality of warp optical fibers and the plurality of weft light-transmitting yarns are interwoven warp and weft to form the woven mesh portion.

3. The flexible structure with a light-emitting mesh cover according to claim 2, wherein the light-guiding mesh further comprises a plurality of warp-wise reflective yarns, the warp-wise reflective yarns and the warp-wise optical fibers are interlaced and juxtaposed, and the warp-wise reflective yarns and the weft-wise light-transmitting yarns are interlaced to form the woven mesh portion.

4. The flexible structure with the light-emitting mesh enclosure of claim 2, wherein the number of the LEDs is one, the light-emitting module further comprises a fixing sleeve and a power control element, one end of the fixing sleeve is sleeved and tightly bundled at the ends of the plurality of warp fibers and the other end is sleeved on the LED, and the LED is electrically connected to the power control element.

5. The flexible structure with a light-emitting mesh enclosure of claim 2, wherein the number of LEDs is plural, the light-emitting module further comprises a flexible light guide bar and a power control element, the plurality of warp fibers extend from one side of the flexible light guide bar, the power control element is fixedly connected to the flexible light guide bar, and the plurality of LEDs are electrically connected to the power control element and disposed corresponding to the flexible light guide bar.

6. The flexible structure with a light-emitting mesh cover according to claim 1, wherein the plurality of optical fibers are divided into a plurality of warp fibers and a plurality of weft fibers, and the plurality of warp fibers and the plurality of weft fibers are interwoven to form the woven mesh portion.

7. The flexible structure with the light-emitting mesh enclosure of claim 6, wherein the number of the LEDs is two, the light-emitting module further comprises two fixing sleeves and two power control components, wherein one end of one of the fixing sleeves is sleeved and tightly bundled at the ends of the plurality of warp-wise optical fibers and the other end thereof is sleeved on one of the LEDs, one end of the other fixing sleeve is sleeved and tightly bundled at the ends of the plurality of weft-wise optical fibers and the other end thereof is sleeved on the other of the LEDs, and each of the LEDs is electrically connected to each of the power control components.

8. The flexible structure with a light-emitting mesh enclosure of claim 6, wherein the number of LEDs is plural, the light-emitting module further comprises two flexible light guide bars and two power control elements, the plurality of warp fibers extend from one side of one of the flexible light guide bars, the plurality of weft fibers extend from one side of the other flexible light guide bar, each of the power control elements is fixed to each of the flexible light guide bars, and the plurality of LEDs are electrically connected to each of the power control elements and disposed corresponding to each of the flexible light guide bars.

9. The flexible structure with luminous mesh enclosure as claimed in claim 4 or 7, wherein the fixing sleeve has a reflective inner wall.

10. The flexible structure with an illuminated mesh enclosure as claimed in claim 1, wherein the opening is in the shape of at least one of a pattern, a letter or a symbol, and the flexible carrier is a coat, a pair of trousers, a skirt, a hat, a scarf or a storage bag.

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