CN219609943U - LED screen based on glass shows - Google Patents

Abstract

The LED screen based on glass display comprises at least one screen unit, and a plurality of screen units are spliced and connected in sequence; the screen unit comprises a unit frame and an LED transparent glass display screen arranged in the unit frame in a framing manner; the LED transparent glass display screen comprises a front layer, an intermediate layer and a rear layer which are sequentially overlapped along the thickness direction, wherein the front layer and the rear layer are transparent glass, and the intermediate layer is a transparent LED crystal film screen; and a display driving module is arranged in the border of the unit frame and is electrically connected with the LED crystal film screen. The LED screen based on glass display can realize dynamic picture display by combining with the LED display function, has attractive appearance and good display effect, and can be used as a display screen and an isolation space; in addition, the folding screen can be based on a single-sided screen unit, can be disassembled and assembled at will according to requirements, and can be folded and stored when in a multi-sided structure.

Description

LED screen based on glass shows

Technical Field

The utility model relates to the field of screen design, in particular to an LED screen based on glass display.

Background

The screen is mainly used in the commercial field and the furniture field. Its main function is to isolate the space. At present, the main functions of the product are only used for decoration design and space isolation, and the product does not have diversified display functions.

Disclosure of Invention

Based on the structure, the utility model provides an LED screen based on glass display, which solves the technical problems that the screen in the prior art is only used for decoration design and space isolation and does not have diversified display functions.

In order to achieve the above purpose, the utility model provides an LED screen based on glass display, which comprises at least one screen unit, and a plurality of screen units are spliced and connected in sequence;

the screen unit comprises a unit frame and an LED transparent glass display screen arranged in the unit frame in a framing manner; the LED transparent glass display screen comprises a front layer, an intermediate layer and a rear layer which are sequentially overlapped along the thickness direction, wherein the front layer and the rear layer are transparent glass, and the intermediate layer is a transparent LED crystal film screen; and a display driving module is arranged in the border of the unit frame and is electrically connected with the LED crystal film screen.

As a further preferable technical scheme of the utility model, the front layer and the rear layer are glass or acrylic plates.

As a further preferable technical scheme of the utility model, the surface of the front layer or/and the rear layer is/are also adhered with an atomization film.

As a further preferable aspect of the present utility model, the lower bezel of the unit frame includes a lower bottom cover, a lower front cover, and a lower rear cover connected to each other, and an inner space for installing the display driving module is defined by the lower bottom cover, the lower front cover, and the lower rear cover.

As a further preferable technical scheme of the utility model, a power module for electrically connecting with the display driving module is also installed in the inner space.

As a further preferable technical scheme of the utility model, the left side frame or/and the right side frame of the unit frame is/are provided with a wire passing hole communicated with the inner space, and the adjacent screen units which are connected in sequence are spliced and connected through the wire passing hole to realize signal and power supply connection.

As a further preferable technical scheme of the utility model, the middle section of the lower bottom cover is provided with a groove, a rotatable cross bar which is flush with the bottom surface of the lower bottom cover is arranged in the groove, and the rotatable cross bar is connected with the lower bottom cover through a rotating shaft.

As a further preferable technical scheme of the utility model, adjacent screen units which are connected in sequence in a spliced mode are connected through hinges.

The LED screen based on glass display comprises at least one screen unit, and a plurality of screen units are spliced and connected in sequence; the screen unit comprises a unit frame and an LED transparent glass display screen arranged in the unit frame in a framing manner; the LED transparent glass display screen comprises a front layer, an intermediate layer and a rear layer which are sequentially overlapped along the thickness direction, wherein the front layer and the rear layer are transparent glass, and the intermediate layer is a transparent LED crystal film screen; the display driving module is arranged in the frame of the unit frame and is electrically connected with the LED crystal film screen, so that the display driving module can be combined with an LED display function to realize dynamic picture display, and the display screen is attractive in appearance and good in display function, and can be used as a display screen and can be used as an isolation space; in addition, the folding screen unit can be based on a single-sided screen unit, can be disassembled and assembled at will according to requirements, can be folded and stored when in a multi-sided structure, and reduces space occupation.

Drawings

The utility model will be described in further detail with reference to the drawings and the detailed description.

FIG. 1 is a schematic diagram of a structure of a glass display-based LED screen of the present utility model;

FIG. 2 is a perspective view of a glass display-based LED screen of the present utility model;

FIG. 3 is a schematic view of the structure of the LED screen based on glass display with the lower front cover removed;

FIG. 4 is an enlarged view of a portion of FIG. 3 in accordance with the present utility model;

fig. 5 is a schematic view showing the splicing of a plurality of screen units according to the present utility model.

In the figure: 1000. screen unit, 100, unit frame, 101, display drive module, 102, power module, 103, wire hole, 110, hinge, 111, top front cover, 112, top back cover, 113, upper frame, 114, left frame, 115, right frame, 116, lower front cover, 117, rotatable bar, 118, lower bottom cover, 119, lower back cover, 120, lower frame, 200, LED transparent glass display screen, 201, front layer, 202, middle layer, 203, back layer.

The achievement of the objects, functional features and advantages of the present utility model will be further described with reference to the accompanying drawings, in conjunction with the embodiments.

Detailed Description

The utility model will be further described with reference to the drawings and detailed description. The terms such as "upper", "lower", "left", "right", "middle" and "a" in the preferred embodiments are merely descriptive, but are not intended to limit the scope of the utility model, as the relative relationship changes or modifications may be otherwise deemed to be within the scope of the utility model without substantial modification to the technical context.

As shown in fig. 1 to 5, the present utility model provides an LED screen based on glass display, comprising at least one screen unit 1000, the screen unit 1000 comprising a unit frame 100 and an LED transparent glass display 200 framed in the unit frame 100.

When the number of the screen units 1000 is plural, the plural screen units 1000 are sequentially spliced and connected, a hinge mounting position is provided on the left frame 114 or/and the right frame 115 of the unit frame 100, and adjacent screen units 1000 sequentially spliced and connected are connected through a hinge 110.

The LED transparent glass display screen 200 comprises a front layer 201, an intermediate layer 202 and a rear layer 203 which are sequentially overlapped along the thickness direction, wherein the front layer 201 and the rear layer 203 are transparent glass, and the intermediate layer 202 is a transparent LED crystal film screen; a display driving module 101 is disposed in the border of the unit frame 100, and the display driving module 101 is electrically connected with the LED crystal film screen.

The surface of the front layer 201 or/and the surface of the rear layer 203 are also adhered with an atomized film, and the atomized film is mainly used for reducing the transparency of glass, and has the partition function of a screen and improves the contrast of the LED transparent glass display screen 200.

In one implementation, the unit frame 100 is enclosed by a left frame 114, a right frame 115, an upper frame 113 and a lower frame to form a square frame structure, wherein the upper frame 113 is formed by connecting a top front cover 111 and a top rear cover 112; the lower frame includes a lower bottom cover 118, a lower front cover 116 and a lower rear cover 120119 that are connected to each other, and an inner space for mounting the display driving module 101 is formed by enclosing the lower bottom cover 118, the lower front cover 116 and the lower rear cover 120119, and a power module 102 for electrically connecting with the display driving module 101 is further mounted in the inner space. In this embodiment, the lower frame with the inner space is provided to conceal the display driving module 101 and the power module 102.

The left frame 114 and/or the right frame 115 of the unit frame 100 are/is provided with a wire passing hole 103 communicated with the inner space, and the adjacent screen units 1000 connected in sequence are spliced and connected with each other by the wire passing hole 103 to realize signal and power connection.

The middle section of the lower bottom cover 118 is provided with a groove, a rotatable bar 117 which is flush with the bottom surface of the lower bottom cover 118 is arranged in the groove, and the rotatable bar 117 is connected with the lower bottom cover 118 through a rotating shaft. The single screen unit 1000 can support a single screen after rotating a certain angle through the rotatable bar 117, and can also realize the supporting function on multiple screens so as to facilitate moving and placing.

The LED screen based on glass display, which is disclosed by the utility model, takes the screen unit 1000 as a basic unit, can be spliced and used by a plurality of screen units 1000 in actual use, is not limited in actual connection number, is mainly used for the design of commercial screen requirements, and is mainly used for large-screen use after a plurality of units of screen units 1000 are connected by structural connection and power supply signal connection. When the plurality of screen units 1000 are connected by the hinge 110, a multi-surface superposition interconnection effect is formed, as shown in fig. 5. Therefore, the folding structure is convenient to store and place, and occupies less space.

While particular embodiments of the present utility model have been described above, it will be appreciated by those skilled in the art that these are merely illustrative, and that many variations or modifications may be made to the embodiments without departing from the principles and spirit of the utility model, the scope of which is defined only by the appended claims.

Claims (7)

1. The LED screen based on glass display is characterized by comprising at least one screen unit, wherein a plurality of screen units are spliced and connected in sequence;

the screen unit comprises a unit frame and an LED transparent glass display screen arranged in the unit frame in a framing manner; the LED transparent glass display screen comprises a front layer, an intermediate layer and a rear layer which are sequentially overlapped along the thickness direction, wherein the front layer and the rear layer are transparent glass, and the intermediate layer is a transparent LED crystal film screen; and a display driving module is arranged in the border of the unit frame and is electrically connected with the LED crystal film screen.

2. A LED screen based on glass display according to claim 1, wherein the surface of the front layer or/and the rear layer is further provided with an atomized film.

3. The LED screen based on glass display of claim 1, wherein the lower bezel of the unit frame includes a lower bottom cover, a lower front cover, and a lower rear cover connected to each other, the lower bottom cover, the lower front cover, and the lower rear cover enclosing an inner space for mounting the display driving module.

4. A LED screen based on glass display according to claim 3, wherein a power module for electrically connecting with the display driving module is further installed in the inner space.

5. The LED screen based on glass display of claim 3, wherein the left frame or/and the right frame of the unit frame is provided with a wire passing hole communicated with the inner space, and the adjacent screen units connected in sequence are spliced to realize signal and power connection through the wire passing hole.

6. A LED screen based on glass display according to claim 3, wherein the middle section of the lower bottom cover is provided with a groove, a rotatable bar flush with the bottom surface of the lower bottom cover is provided in the groove, and the rotatable bar is connected with the lower bottom cover through a rotating shaft.

7. The LED screen based on glass display of claim 1, wherein adjacent screen units connected in sequence are connected by hinges.