CN215868504U

CN215868504U - Ultrathin three-layer structure photoelectric glass screen

Info

Publication number: CN215868504U
Application number: CN202122057552.4U
Authority: CN
Inventors: 王真; 申剑军; 李会
Original assignee: Shenzhen Xinjiang Glass Technology Co ltd
Current assignee: Shenzhen Xinjiang Glass Technology Co ltd
Priority date: 2021-08-30
Filing date: 2021-08-30
Publication date: 2022-02-18
Anticipated expiration: 2031-08-30

Abstract

The utility model discloses an ultrathin three-layer structure photoelectric glass screen, which comprises a glass circuit board, a transparent adhesive layer and front cover glass which are sequentially attached and integrated at high temperature, wherein the thickness of the glass circuit board, the transparent adhesive layer and the front cover glass is 4-8 mm; the front cover glass and the glass circuit board are transparent glass panels; the glass circuit board comprises a substrate, a plurality of LED lamp wicks and a flexible printed circuit board; the LED lamp wicks are uniformly distributed on the surface of the substrate and are electrically connected with the flexible printed circuit board; the flexible printed circuit board is arranged at the edge of the substrate, preferably at the bottom edge of the substrate. The ultrathin three-layer structure photoelectric glass screen is simple and reasonable in design and stable and reliable in structure; the permeability is good, the weight is light, the screen body is thin, and the installation is convenient; can be used as a building wall decoration and an advertisement screen.

Description

Ultrathin three-layer structure photoelectric glass screen

Technical Field

The utility model relates to the technical field of glass display screens, in particular to an ultrathin three-layer photoelectric glass screen.

Background

The LED photoelectric film screen is a high-tech building material product with multiple expansibility. The LED lamp is widely applicable to various fields such as indoor and outdoor decoration, home design, illumination brightening, outdoor media and the like. The LED photoelectric film screen is mainly composed of three parts, namely an LED chip embedded between conductive glass and surface layer glass, and a PVB film glued between the two layers of glass. The mode of laser etching circuit is used for realizing the functions of style, pattern and video display. When the glass curtain wall is used, the appearance is the same as that of a common glass curtain wall, but the frame contains the FPCB and the DRIVE controller. The method is only suitable for module production, and the oversized glass screen cannot be directly produced.

The LED transparent film screen is mainly used for building glass curtain walls, is used for displaying high-definition pictures, and has the characteristics of high permeability, ultra-light weight and thinness. The traditional LED display screen is arranged on the outer wall of a building, outdoor light is completely blocked, the weight of the screen body tests the safety of the building, and in addition, the appearance style of the building can be influenced. The transparent LED film screen is integrated with a building in appearance, does not influence the original style of the building and the lighting of the building, has the characteristics of light weight, thin screen body and the like, and has obvious technical advantages in the field of building media.

Traditional photoelectricity pad pasting screen product heat dissipation, hinder the thermal property poor, product thickness and quality can not fall down, lead to only being suitable for module production, can't directly produce super large glass screen, because of the quality of big super large glass screen increases by multiples, and product strength can not keep up with, the product can not bear self gravity and fragile after the installation.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an ultrathin three-layer structure photoelectric glass screen which is simple and reasonable in design and stable and reliable in structure; the permeability is good, the weight is light, and the screen body is thin; can be used as a building wall decoration and an advertisement screen.

In order to solve the technical problems, the technical scheme of the utility model is as follows:

an ultrathin three-layer photoelectric glass screen comprises a glass circuit board, a transparent adhesive layer and front cover glass which are sequentially attached and integrated at high temperature, wherein the thickness of the glass circuit board, the transparent adhesive layer and the front cover glass is 4-8 mm;

the front cover glass and the glass circuit board are transparent glass panels;

the glass circuit board comprises a substrate, a plurality of LED lamp wicks and a flexible printed circuit board; the LED lamp wicks are uniformly distributed on the surface of the substrate and are electrically connected with the flexible printed circuit board; the flexible printed circuit board is arranged at the edge of the substrate, preferably at the bottom edge of the substrate;

optionally, the display device further comprises a screen seat; the screen seat is a photoelectric screen mounting seat, the top of the screen seat is provided with a slot, the inside of the screen seat is provided with a control circuit, the end surface of the screen seat is provided with a data line interface, and the rear side of the screen seat is provided with a power line plug; the photoelectric screen is connected with the screen seat in a plugging and unplugging manner.

Optionally, the wall body is further provided with a double-head sucker, one end of the double-head sucker is connected with the photoelectric screen in an adsorption mode, and the other end of the double-head sucker is used for adsorbing an adjacent photoelectric screen or a wall body; the photoelectric screen is convenient to assemble a plurality of photoelectric screens into a larger photoelectric screen and the photoelectric screen is installed and fixed on the wall body.

And chamfering corners of the front cover glass and the glass circuit board.

Optionally, the front cover glass is made of self-cleaning glass, the surface of the glass has a lotus effect with high hydrophobicity, water cannot be attached to the glass completely, surface tension of water drops generates a water drop-shaped phenomenon, the water drops naturally slide to take away dust, the glass has an easy-to-clean effect, and the dust cannot be accumulated.

The utility model has the beneficial effects that:

the design is simple and reasonable, and the structure is stable and reliable; the permeability is good, the weight is light, the screen body is thin, and the installation is convenient; can be used as a building wall decoration and an advertisement screen.

Drawings

Fig. 1 is a schematic structural diagram of an ultrathin three-layer photoelectric glass screen according to the present invention.

FIG. 2 is a schematic structural diagram of an ultrathin three-layer photoelectric glass screen and a screen base according to the present invention

Detailed Description

The following further describes embodiments of the present invention with reference to the drawings. It should be noted that the description of the embodiments is provided to help understanding of the present invention, but the present invention is not limited thereto. In addition, the technical features involved in the embodiments of the present invention described below may be combined with each other as long as they do not conflict with each other.

As shown in fig. 1 and 2, an ultrathin three-layer photoelectric glass screen comprises a glass circuit board 1, a transparent adhesive layer 2 and a front cover glass 3 which are sequentially attached and integrated at a high temperature, wherein the thickness of the glass circuit board is 4-8 mm;

the front cover glass 3 and the glass circuit board 1 are transparent glass panels;

the glass circuit board 1 comprises a substrate 11, a plurality of LED lamp wicks 12 and a flexible printed circuit board; a plurality of LED lamp wicks 12 are uniformly distributed on the surface of the substrate 11, and the lamp wicks 12 are electrically connected with the flexible printed circuit board; the flexible printed circuit board is arranged at the edge of the substrate 11, preferably at the bottom edge of the substrate 11;

optionally, it further comprises a screen seat 4; the screen seat 4 is a photoelectric screen mounting seat, the top of the screen seat is provided with a slot 41, the inside of the screen seat is provided with a control circuit, the end surface of the screen seat is provided with a data line interface 42, and the rear side of the screen seat is provided with a power line plug 43; the photoelectric screen 5 is connected with the screen base 3 in a plugging and unplugging manner.

And the corners of the front cover glass 3 and the glass circuit board 1 are rounded.

Optionally, the front cover glass 3 is made of self-cleaning glass, so-called self-cleaning glass is that the surface of the glass has a lotus effect with high hydrophobicity, water cannot be attached to the glass completely, surface tension of water drops generates a water drop-shaped phenomenon, the water drops naturally slide to take away dust, the glass has an easy-to-clean effect, and the dust cannot be accumulated.

Preferably, the rear side of the glass circuit board 1 is provided with a plurality of vacuum chucks, which can be used for being fixed on a corresponding mounting panel in an adsorption manner.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the described embodiments. It will be apparent to those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, and the scope of the utility model is to be accorded the full scope of the claims.

Claims

1. The utility model provides an ultra-thin three layer construction photoelectric glass screen which characterized in that: comprises a glass circuit board, a transparent adhesive layer and front cover glass which are sequentially attached;

the front cover glass and the glass circuit board are transparent glass panels;

the glass circuit board comprises a substrate, a plurality of LED lamp wicks and a flexible printed circuit board; the LED lamp wicks are uniformly distributed on the surface of the substrate and are electrically connected with the flexible printed circuit board; the flexible printed circuit board is arranged at the edge of the substrate.

2. The ultra-thin tri-layer structured photovoltaic glass panel of claim 1, wherein: it also comprises a screen seat; the screen seat is a photoelectric screen mounting seat, the top of the screen seat is provided with a slot, the inside of the screen seat is provided with a control circuit, the end surface of the screen seat is provided with a data line interface, and the rear side of the screen seat is provided with a power line plug; the photoelectric screen is connected with the screen seat in a plugging and unplugging manner.

3. The ultra-thin tri-layer structured photovoltaic glass panel of claim 2, wherein: it still is equipped with the double-end sucking disc, and the one end of double-end sucking disc adsorbs and connects the photoelectric screen, and its other end is used for adsorbing adjacent photoelectric screen or wall body.

4. The ultra-thin tri-layer structured photovoltaic glass panel of claim 3, wherein: the front cover glass is self-cleaning glass.

5. The ultra-thin tri-layer structured photovoltaic glass screen of claim 4, wherein: and rounding corners of the front cover glass and the base plate.

6. The ultra-thin tri-layer structured photovoltaic glass panel according to any one of claims 1 to 4, characterized in that: the rear side of the glass circuit board is provided with a plurality of vacuum suckers.