CN209741003U - Transparent glass with whole surface emitting light - Google Patents

Abstract

The utility model belongs to the technical field of glassware, concretely relates to whole luminous transparent glass, including glass body, reflection rete and LED lamp area, the glass body be square, and the edges and corners all around of its both sides all are equipped with the chamfer, the chamfer be 45, the reflection rete sets up the both sides of glass body, LED lamp area set up around the glass body, wherein, the light that the LED lamp area sent jets into in the glass body through the interface that is located the edges and corners all around, and from the side of glass body jets out after reflecting between the reflection rete of both sides; the utility model provides a luminous transparent glass of whole face can also make the whole face of glass luminous under the transparent condition, so enable the display screen of conventionality on the market utilize under the non-luminous condition the utility model provides a luminance makes it have better luminance, does not receive the influence of transmissivity at the human-computer interaction aspect.

Description

transparent glass with whole surface emitting light

Technical Field

The utility model belongs to the technical field of the glassware, concretely relates to whole luminous transparent glass.

Background

at present, conventional glass products on the market do not have products which can emit light on the whole surface in a transparent state, and because light rays are transmitted linearly, even if the side edge of the glass product is polished, the light rays come out from the other end, and the brightness of the glass surface cannot be improved; if the light guide plate is added behind the glass product, the glass product becomes opaque and cannot achieve the effect of transparency.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects in the prior art and provide a transparent glass with luminous whole surface.

In order to achieve the above purpose, the utility model adopts the following technical scheme to realize:

A full-surface luminescent transparent glass comprising:

The glass body is square, and the peripheral edges of the two side surfaces of the glass body are provided with chamfers, wherein the chamfer angle is 45 degrees;

The reflecting film layers are arranged on two sides of the glass body;

the LED lamp strip is arranged on the periphery of the glass body;

the light emitted by the LED lamp strip is emitted into the glass body through the interfaces positioned at the peripheral chamfers, and is emitted out from the side surface of the glass body after being reflected between the reflecting film layers on the two sides.

Preferably, the transparent glass with whole surface luminescence further comprises:

the LED lamp strip comprises a clamping strip, wherein a dovetail groove is formed in one side, close to the glass body, of the clamping strip and used for being clamped and fixed at the edge of the glass body, and the LED lamp strip is fixed at the groove bottom of the dovetail groove.

preferably, the two side groove walls of the dovetail groove are attached with reflecting films.

Preferably, the distance between the adjacent ends of the chamfered oblique edges on the two side faces of the glass body is 0.

Preferably, the reflecting film layer comprises a plurality of coating films which are laminated, and the plurality of coating films comprise a SiO2 layer, an Al layer, a TiO2 layer, a SiO2 layer, a TiO2 layer, a SiO2 layer, a TiO2 layer, a SiO2 layer, a TiO2 layer and a SiO2 layer which are sequentially arranged from the side of the glass body to the outside.

Preferably, the multilayer coating film comprises a 15nm SiO2 layer, a 3nm Al layer, a 16nm TiO2 layer, a 79nm SiO2 layer, a 81nm TiO2 layer, a 120nm SiO2 layer, an 18nm TiO2 layer, a 121nm SiO2 layer, a 26nm TiO2 layer and a 152nm SiO2 layer which are arranged in sequence from the side of the glass body to the outside.

Compared with the prior art, the utility model discloses following technological effect has:

In the utility model, the light emitted by the LED lamp strip passes through the interface at the chamfer, and the light is reflected and transmitted out between the reflecting film layers at the two side surfaces of the glass body, so that transparent glass with certain light transmission effect and luminous whole surface is formed;

The utility model provides a luminous transparent glass of whole face can also make the whole face of glass luminous under the transparent condition, so enable the display screen of conventionality on the market utilize under the non-luminous condition the utility model provides a luminance makes it have better luminance, does not receive the influence of transmissivity at the human-computer interaction aspect.

Other features and advantages of the present invention will be described in detail in the following detailed description.

Drawings

Fig. 1 is a schematic view of a transparent glass with a whole surface emitting light provided by the present invention;

FIG. 2 is an enlarged schematic view of position A of FIG. 1;

FIG. 3 is a partial schematic view of a chamfered glass body cut;

The reference numbers in the figures illustrate: 10-a glass body, 11-a first chamfer bevel edge, 12-a second chamfer bevel edge, 20-a reflection film layer, 30-an LED lamp strip, 40-a clamping strip, 41-a dovetail groove and 50-a reflection film.

Detailed Description

In order to make the technical means, creation characteristics, achievement purpose and efficacy of the utility model easy to understand and understand, the utility model is further clarified by combining the specific drawings.

with reference to fig. 1 and 2, the present invention provides a transparent glass with a whole surface emitting light, which includes a glass body 10, a reflective film layer 20 and an LED strip 30; the glass body 10 is square, and the peripheral edges of the two side surfaces of the glass body are provided with chamfers, wherein the chamfer angle is 45 degrees; the reflective film layers 20 are arranged on two sides of the glass body 10, and the LED strips 30 are arranged around the glass body 10; light emitted by the LED strip 30 is incident into the glass body 10 through the interfaces located at the peripheral chamfers, and is reflected between the reflective film layers 20 at the two sides and then emitted from the side surface of the glass body 10. Thus, the transparent glass with certain light transmission effect and whole surface luminescence is formed.

the utility model provides a luminous transparent glass of whole face can also make the whole face of glass luminous under the transparent condition, so enable the display screen of conventionality on the market utilize under the non-luminous condition the utility model provides a luminance makes it have better luminance, does not receive the influence of transmissivity at the human-computer interaction aspect.

Further, according to the utility model discloses, fix for making LED lamp area 30 around glass body 10, luminous clear glass of whole face still includes card strip 40, card strip 40 closes on one side of glass body 10 has been seted up dovetail 41 and has been used for the joint to fix glass body 10's edge, LED lamp area 30 fix dovetail 41's tank bottom department.

further, according to the present invention, in order to make more light of the LED strip 30 enter the glass body 10 through the interface at the chamfer, the reflective films 50 are attached to the two side walls of the dovetail groove 41, and by the arrangement of the reflective films 50, not only the light of the LED strip 30 can be fully utilized, but also the clip strip 40 can be more reliably clipped and fixed to the edge of the glass body 10; the utility model discloses it is not specially limited to the kind of reflectance coating 50, can select like the ESR series silver reflectance coating of 3M company production that the market is available to purchase, or white polyester reflectance coating, DJX series white reflectance coating of production of Ningbo Yang science and technology gmbh for example.

The utility model discloses in, through the setting of this chamfer, the light that LED lamp area 30 sent jets into glass body 10 via the interface of chamfer in, and it can be known to combine fig. 3, and the longer the length of chamfer hypotenuse, more light need just can get into glass body 10 through the interface in to more light is utilized and is jetted out from glass body 10's side by the reflection. That is, the luminous intensity of the transparent glass can be adjusted by adjusting the length of the chamfered oblique edge, and preferably, in order to obtain the brightest luminous effect, the distance between the adjacent ends of the chamfered oblique edges on both sides of the glass body 10 is 0; that is, as shown in fig. 3, the distance between the adjacent ends of the first chamfered oblique edge 11 on the upper side of the glass body 10 and the second chamfered oblique edge 12 on the lower side of the glass body 10 is 0.

According to the utility model discloses, reflection rete 20 includes that the multilayer coating film coincide forms, the multilayer coating film include from the outside SiO2 layer, the Al layer that arranges in proper order of glass body 10 place side, TiO2 layer, SiO2 layer, TiO2 layer, SiO2 layer, TiO2 layer, SiO2 layer, TiO2 layer and SiO2 layer. The specific setting method can adopt a vacuum coating machine to uniformly coat the layers on the glass body 10.

further, according to the utility model discloses, in order to ensure to reach better reflection of light effect and even light effect, multilayer coating film include from the side of glass body 10 outside 15nm SiO2 layer, 3nm Al layer, 16nm TiO2 layer, 79nm SiO2 layer, 81nm TiO2 layer, 120nm SiO2 layer, 18nm TiO2 layer, 121nm SiO2 layer, 26nm TiO2 layer and 152nm SiO2 layer that arrange in proper order.

the utility model discloses in, as the mode that sets up of edges and corners department chamfer all around of glass body 10 both sides face, grind out two-sided 45 chamfers through the edging machine. For the requirement of the chamfer bevel edge, the chamfer bevel edge must be smooth and has no defects such as scratches, and the like, so that the transmittance of the light emitted from the LED strip 30 is prevented from being affected.

The foregoing shows and describes the general principles, essential features, and features of the invention. It should be understood by those skilled in the art that the present invention is not limited to the above embodiments, and the description of the above embodiments and the description is only illustrative of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the present invention, and these changes and modifications are all within the scope of the present invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (6)

1. a transparent glass that emits light over its entire surface, comprising:

The glass body (10) is square, and the peripheral edges of the two side faces of the glass body (10) are provided with chamfers, wherein the chamfer angle is 45 degrees;

reflection film layers (20) arranged on both surfaces of the glass body (10);

The LED lamp belts (30) are arranged on the periphery of the glass body (10);

Light rays emitted by the LED lamp strip (30) are emitted into the glass body (10) through interfaces positioned at the peripheral chamfers, and are emitted out from the side face of the glass body (10) after being reflected between the reflecting film layers (20) on the two sides.

2. The full-face luminescent transparent glass according to claim 1, further comprising:

The LED lamp strip comprises a clamping strip (40), wherein a dovetail groove (41) is formed in one side, close to the glass body (10), of the clamping strip (40) and used for being clamped and fixed to the edge of the glass body (10), and the LED lamp strip (30) is fixed to the groove bottom of the dovetail groove (41).

3. the transparent glass with whole surface luminescence according to claim 2, characterized in that the reflecting films (50) are attached on the two side groove walls of the dovetail groove (41).

4. a full face luminescent transparent glass as claimed in claim 1, characterized in that the distance at the adjacent ends of the chamfered oblique edges at both sides of the glass body (10) is 0.

5. the transparent glass with whole surface luminescence according to claim 1, wherein the reflecting film layer (20) comprises a plurality of coating films which are laminated, and the plurality of coating films comprise a SiO2 layer, an Al layer, a TiO2 layer, a SiO2 layer, a TiO2 layer, a SiO2 layer, a TiO2 layer, a SiO2 layer, a TiO2 layer and a SiO2 layer which are sequentially arranged from the side of the glass body (10).

6. The transparent glass with whole surface luminescence according to claim 5, wherein the multi-layer coating film comprises a 15nm SiO2 layer, a 3nm Al layer, a 16nm TiO2 layer, a 79nm SiO2 layer, an 81nm TiO2 layer, a 120nm SiO2 layer, an 18nm TiO2 layer, a 121nm SiO2 layer, a 26nm TiO2 layer and a 152nm SiO2 layer which are arranged in sequence from the side of the glass body (10).