CN212295410U - Ultrathin light-transmitting bendable rock plate structure - Google Patents

Abstract

The utility model relates to an ultra-thin printing opacity flexible rock plate structure, this structure include the base member layer, still include the light source layer, support isolation layer and printing opacity rock plate layer, the fixed active layer that is provided with in top on base member layer, the fixed support isolation layer that is provided with in periphery on light source layer, support the isolation layer and be frame construction, the top of supporting the isolation layer is provided with printing opacity rock plate layer, the thickness on printing opacity rock plate layer is 2 ~ 4 mm. The utility model discloses a light source layer is located inside the rock plate structure, has avoided the interference of the external environment of rock plate structure to the light source, has effectively guaranteed the result of use and the life of light source. The thickness of the transparent rock plate layer makes the transparent rock plate layer suitable for the substrate layer of the curved surface structure. The supporting isolation layer of the utility model can be a protective light source layer, which isolates the light source layer from the external environment; a certain distance can be ensured between the light-transmitting rock plate layer and the light source, so that the light source is prevented from leaving shadows on the light-transmitting rock plate layer; but also provides a supporting function for the transparent rock plate structure.

Description

Ultrathin light-transmitting bendable rock plate structure

Technical Field

The utility model belongs to the technical field of building material, concretely relates to ultra-thin printing opacity flexible rock plate structure.

Background

In order to decorate the wall surface of a building and the surface of a furniture, so that the building can emit light in a dark environment and show different colors and pattern effects, a light-emitting decorative surface layer is usually arranged outside the wall surface of the building or outside the surface of the furniture. The light source of the existing light-emitting decorative layer is usually directly exposed to the external environment and is easily influenced by the external environment. The utility model discloses a utility model patent (CN 204451355U) discloses an artificial stone that energy storage luminescent glass granule was made, this artificial stone include the artificial stone base member of aluminium hydroxide or quartz sand powdered ore, the surface that exposes of artificial stone base member is equipped with the luminescent glass grained layer that comprises a plurality of luminescent glass granules and makes holistic artificial stone with the base member. The luminescent glass particle layer of the artificial stone belongs to an exposed surface, is easily interfered by an external environment, can only be used for a plane structure, and cannot be applied to a curved surface structure such as a cylindrical or arc-shaped structure surface.

Disclosure of Invention

The utility model discloses a solve among the prior art luminous decorative finish coat's light emitting source and expose and can't be applicable to the problem of curved surface structure, provide a luminous rock plate structure.

In order to realize the purpose, the technical scheme of the utility model is that:

the utility model provides an ultra-thin printing opacity flexible rock plate structure, includes the base member layer, still includes the light source layer, supports isolation layer and printing opacity rock plate layer, the fixed light source layer that is provided with in top on base member layer, the fixed support isolation layer that is provided with in periphery on light source layer, support the isolation layer and be frame construction, the top of supporting the isolation layer is provided with printing opacity rock plate layer, the thickness on printing opacity rock plate layer is 2 ~ 4 mm.

Further, the light source layer is a ribbon light source, a plane light source or a point light source.

Furthermore, the strip-shaped light source is an LED lamp strip.

Further, the thickness of the support isolation layer is more than 15 mm.

Furthermore, the support isolation layer is a frame structure made of metal or wood materials.

Furthermore, the inner side surface of the frame structure is provided with a groove for embedding the light-transmitting rock plate layer.

Through the technical scheme, the beneficial effects of the utility model are that:

1. the utility model discloses a light source layer is located inside the rock plate structure, has avoided the interference of the external environment of rock plate structure to the light source, has effectively guaranteed the result of use and the life of light source.

2. The utility model discloses a thickness on printing opacity rock plate layer is 2 ~ 4mm, and the printing opacity rock plate layer of this thickness makes its applicable base member layer in the curved surface structure.

3. One of the functions of the supporting isolation layer of the utility model is to protect the light source layer and isolate the light source layer from the external environment; the second function is to ensure the distance of more than 15mm between the transparent rock plate layer and the light source, and the light source can not leave a shadow on the transparent rock plate layer at the distance; the third function is to provide support for the transparent rock plate structure.

Drawings

Fig. 1 is a schematic structural diagram of the substrate layer, the light source layer and the supporting isolation layer of the ultra-thin transparent bendable rock plate structure of the present invention.

Fig. 2 is a schematic view of the first ultra-thin transparent bendable rock plate structure of the present invention.

Fig. 3 is a schematic diagram of the ultra-thin transparent bendable rock plate structure of the present invention.

Fig. 4 is a schematic view of the structure in the direction of fig. 3A-a.

Fig. 5 is a first usage state diagram of the ultra-thin transparent bendable rock plate structure of the present invention.

Fig. 6 is a second usage state diagram of the ultra-thin transparent bendable rock plate structure of the present invention.

In the attached drawing, 1 is a substrate layer, 2 is a supporting isolation layer, 3 is a transparent rock plate layer, and 4 is a light source layer.

Detailed Description

The invention will be further explained with reference to the drawings and the detailed description below:

in the description of the present invention, it should be understood that the terms "front", "back", "left", "right", "upper", "lower", "horizontal", "vertical", etc. indicate orientations or positional relationships based on the orientation or positional relationships shown in fig. 1, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

As shown in fig. 1-4, an ultra-thin light-transmitting bendable rock plate structure comprises a base body layer 1, a light source layer 4, a supporting isolation layer 2 and a light-transmitting rock plate layer 3, wherein the light source layer 4 is fixedly arranged above the base body layer 1, the supporting isolation layer 2 is fixedly arranged at the periphery of the light source layer 4, the supporting isolation layer 2 is of a frame structure, the light-transmitting rock plate layer 3 is arranged above the supporting isolation layer 2, the light source layer 4 is located inside the rock plate structure through the structure, interference of the environment outside the rock plate structure to a light source is avoided, and the using effect and the service life of the light source are effectively guaranteed. The thickness of printing opacity rock plate layer 3 is 2 ~ 4 mm. Specifically, the light-transmitting rock plate layer 3 is made of four layers of materials, namely a natural rock plate layer, an adhesive layer, a glass fiber layer and a resin back plate layer from top to bottom in sequence. The natural rock plate layer has the patterns of natural stone, can be applied to the inner and outer wall surfaces of buildings, the door panel surface of furniture, the table surface and other decorative surfaces, and can enable the matrix structure to present a natural stone texture structure under the action of a light source. The thickness of the transparent rock plate layer 3 is 2-4 mm, so that the transparent rock plate layer is suitable for the substrate layer 1 with a curved surface structure. As shown in fig. 5, the utility model can be applied to the outside of the base structure with the arc-shaped surface, as shown in fig. 6, the utility model can also be applied to the outside of the cylindrical base.

In practice, the light source layer 4 may be fixed on the substrate layer 1 by using a structural adhesive, and for environmental protection, the light source layer 4 may be fixed on the substrate layer 1 by using nails or edge strips. The light source layer 4 may employ a band light source, a planar light source, or a point light source. The banded light source can specifically adopt LED lamp area, and LED lamp area is connected with interchange or DC power supply. The plane light source can adopt an LED lamp panel, and the LED lamp panel is connected with an alternating current power supply. The point light source may specifically employ an LED light bead.

In specific implementation, the thickness of the support isolation layer 2 is more than 15 mm. The support isolation layer 2 can protect the light source layer 4 and isolate the light source layer 4 from the external environment; the distance of more than 15mm between the light-transmitting rock plate layer 3 and the light source can be ensured, and the light source can not leave a shadow on the light-transmitting rock plate layer 3 at the distance; but also provides a supporting function for the transparent rock plate structure.

In specific implementation, the support isolation layer 2 is a frame structure made of metal or wood material. Especially use outside the curved surface structure the utility model discloses when decorating, need adopt the material preparation frame construction that can buckle to make this frame construction perfect laminating base member layer 1.

When concrete implementation, for guaranteeing the utility model discloses do not use the adhesive that is harmful to the environment, can use nail or blank holder strip to be fixed in the frame construction top with printing opacity rock stratum 3, in order to guarantee pleasing to the eye effect still further, can set up recess (not shown in the drawing) at the medial surface of frame construction and be used for inlaying and establish printing opacity rock stratum 3. For example, when the frame structure is rectangular, two oppositely arranged inner sides of the frame structure may be provided with a groove. When the frame structure is a circular or oval structure, a groove can be formed in the inner side of the whole frame structure. If the frame structure is of a special-shaped structure, a groove is formed in the inner side face of the frame structure according to actual conditions.

The above-mentioned embodiments are merely preferred embodiments of the present invention, and not intended to limit the scope of the present invention, so that equivalent changes or modifications made by the structure, features and principles of the present invention should be included in the claims of the present invention.

Claims (6)

1. The utility model provides an ultra-thin printing opacity flexible rock plate structure, includes the base member layer, its characterized in that still includes the light source layer, supports isolation layer and printing opacity rock plate layer, the fixed active layer that is provided with in top on base member layer, the fixed isolation layer that supports that is provided with in periphery on light source layer, support the isolation layer and be frame construction, the top of supporting the isolation layer is provided with printing opacity rock plate layer, the thickness on printing opacity rock plate layer is 2 ~ 4 mm.

2. The ultra-thin light-transmitting bendable rock panel structure of claim 1, wherein the light source layer is a ribbon light source, a planar light source or a point light source.

3. The ultra-thin light transmissive bendable rock panel structure of claim 2, wherein the strip light source is an LED strip.

4. The ultra-thin light transmissive bendable rock panel structure of claim 1, wherein the thickness of the support spacers is above 15 mm.

5. The ultra-thin transparent bendable rock panel structure of claim 1, wherein the supporting and isolating layer is a frame structure made of metal or wood material.

6. The ultra-thin transparent bendable rock plate structure of claim 1, wherein the inner side of the frame structure is grooved for embedding a transparent rock plate layer.

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