CN111986562A - Display screen and electronic equipment - Google Patents

Abstract

The embodiment of the application provides a display screen and electronic equipment, and the display screen comprises a main screen and at least one auxiliary screen. The main screen comprises a first main display unit and a second main display unit which are rotatably connected, and the auxiliary screen and the main screen are rotatably connected through a connecting piece. So design, through the integrated design of main screen and vice screen and main screen, can realize the integrated design of whole display screen to can reduce the integrated technology complexity of many screens, can reduce the space design degree of difficulty that sets up to electronic equipment's inner structure and device in addition, and because main screen and vice screen are the integrated design, can be convenient for follow-up transition display effect between realization main screen and the vice screen, and then the development of other product functions of being convenient for.

Description

Display screen and electronic equipment

Technical Field

The application relates to the technical field of display, in particular to a display screen and electronic equipment.

Background

In an electronic device using a multi-screen display design, display screen bodies of different sizes are usually set, and the display screen bodies of different sizes are assembled to the same electronic device through a complex integration process, so that in the process of multi-screen body integration, the process complexity of the assembly process of the electronic device is increased, and complex processes are increased.

Disclosure of Invention

Based on the deficiency of the existing design, the application provides a display screen and electronic equipment, through the integrated design of the primary screen and the integrated design of the secondary screen and the primary screen, the integrated design of the whole display screen can be realized, and thus the process complexity of multi-screen integration can be reduced.

According to a first aspect of the embodiments of the present application, a display screen (10) is provided, which includes a main screen (110) and at least one sub-screen (120), wherein the main screen (110) includes a first main display unit (111) and a second main display unit (112), the first main display unit (111) and the second main display unit (112) are rotatably connected through a rotating connector (113), and the sub-screen (120) and the main screen (110) are rotatably connected through a connecting member (connection).

In a possible embodiment of the first aspect, the number of the sub-screen (120) is one, and the sub-screen (120) is rotatably connected to the first main display unit (111) or the second main display unit (112).

In one possible embodiment of the first aspect, a side of the secondary screen (120) facing away from the display surface is fixedly bonded to a side of the first main display unit (111) or the second main display unit (112) facing away from the display surface by an adhesive layer (130).

In a possible embodiment of the first aspect, the number of the secondary screens (120) is two, and the two secondary screens are a first secondary screen (121) and a second secondary screen (122), respectively, the first secondary screen (121) is rotatably connected with the first main display unit (111), and the second secondary screen (122) is rotatably connected with the second main display unit (112).

In a possible implementation of the first aspect, the secondary screens (120) are two, respectively a first secondary screen (121) and a second secondary screen (122), wherein:

one side of the first auxiliary screen (121) departing from the display surface is fixedly bonded with the first main display unit (111) through a bonding layer (130), and the second auxiliary screen (122) is rotatably connected with the second main display unit (112); or;

one side of the second auxiliary screen (122) departing from the display surface is fixedly bonded with one side of the second main display unit (112) departing from the display surface through a bonding layer (130), and the first auxiliary screen (121) is rotatably connected with the first main display unit (111); or

One side of the first auxiliary screen (121) departing from the display surface is fixedly bonded with the first main display unit (111) through the bonding layer (130), and one side of the second auxiliary screen (121) departing from the display surface is fixedly bonded with one side of the second main display unit (112) departing from the display surface through the bonding layer (130).

In one possible embodiment of the first aspect, the material of the adhesive layer (130) is an optically transparent adhesive.

In one possible implementation manner of the first aspect, the display screen (10) includes a substrate (100) and a display function layer (200) located on the substrate (100), the display function layer (200) includes a first bending region (210) and a second bending region (220), the first bending region (210) corresponds to a connection between the first main display unit (111) and the second main display unit (112), and the second bending region (220) corresponds to a connection between the main screen (110) and the sub-screen (120).

In one possible implementation manner of the first aspect, a portion of the display function layer (200) located in the first bending region (210) is provided with display pixel units (201), and a portion of the display function layer (200) located in the second bending region (220) is not provided with display pixel units (201).

In one possible implementation of the first aspect, the display functional layer (200) is provided with display pixel cells (201) at portions of the first bending region (210) and the second bending region (220).

According to a second aspect of embodiments of the present application, there is provided an electronic device comprising the display screen (10) in any one of the possible implementations of the first aspect.

Based on any one of the above aspects, the first main display unit and the second main display unit of the main screen are rotatably connected through a rotating connecting piece, and the auxiliary screen and the main screen are connected through a connecting piece. By the design, the integrated design of the whole display screen can be realized through the integrated design of the main screen and the integrated design of the auxiliary screen and the main screen, so that the process complexity of multi-screen integration can be reduced, and the space design difficulty of the internal structure and the device setting of the electronic equipment can be reduced. In addition, the main screen and the auxiliary screen are integrally designed, so that the transition display effect between the main screen and the auxiliary screen can be conveniently realized subsequently, and further, the development of functions of other products is more convenient.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present application and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained from the drawings without inventive effort.

FIG. 1 shows one of the structural schematics of a display screen provided by a conventional design;

FIG. 2 illustrates a second schematic structural view of a display screen provided by a conventional design;

FIG. 3 is a schematic diagram of a display screen according to an embodiment of the present disclosure;

fig. 4 shows a second schematic structural diagram of a display screen provided in the embodiment of the present application;

fig. 5 is a third schematic structural diagram of a display screen provided in an embodiment of the present application;

FIG. 6 is a diagram illustrating a fourth exemplary structure of a display screen provided in an embodiment of the present application;

FIG. 7 is a fifth schematic view showing a structure of a display screen provided in an embodiment of the present application;

FIG. 8 is a schematic diagram illustrating a partial cross-sectional structure of a display screen provided by an embodiment of the present application;

fig. 9 shows a second schematic partial sectional view of a display screen provided in an embodiment of the present application.

Detailed Description

In order to make the purpose, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it should be understood that the drawings in the present application are for illustrative and descriptive purposes only and are not used to limit the scope of protection of the present application.

As described in the background, conventional multi-screen designs lack the solution of the integrated design. For example, fig. 1 and 2 respectively show a schematic diagram of a display screen provided by a conventional design. In detail, the main screen and the sub screen of the display screen are separately designed and then assembled into the electronic device, for example, the main screen and the sub screen may be respectively set to be screen bodies with different sizes and then respectively assembled on the same electronic device, such as a smart phone, a tablet computer, and the like. The inventor researches and discovers that the design not only increases a plurality of complex processes and influences other structural designs, but also influences the actual experience of products. For example, for an electronic device, the areas of the main screen and the sub screen designed on the electronic device need to be considered separately, which may cause difficulty in spatial design of the internal structure and device arrangement of the electronic device. For another example, since the main screen and the sub-screen are separately designed, it is difficult to achieve a transitional display effect between the main screen and the sub-screen, which may affect the development of other product functions.

It should be noted that the above prior art solutions have defects which are the results of practical and careful study by the inventor, therefore, the discovery process of the above technical problems and the solutions proposed by the following embodiments of the present application for the above problems should be the contribution of the inventor to the present application in the course of the invention creation process, and should not be understood as technical contents known by those skilled in the art.

Based on the above technical problems discovered by the inventor, the embodiments of the present application provide an improved structure of a display screen to solve the above problems discovered by the inventor that the manufacturing process is complicated due to the separate design of the main screen and the sub screen and other structural designs of the electronic device are affected.

In detail, the display screen provided by the embodiment of the application comprises a main screen and at least one auxiliary screen. The main screen comprises a first main display unit and a second main display unit which are connected in a rotating mode, and the auxiliary screen is connected with the main screen through a connecting piece.

In summary, the display screen provided by the embodiment of the present application can realize the integrated design of the whole display screen through the integrated design of the main screen and the integrated design of the auxiliary screen and the main screen, so that the process complexity of multi-screen integration can be reduced. In addition, the space design difficulty of the internal structure and the device setting of the electronic equipment can be reduced, and the main screen and the auxiliary screen are integrally designed, so that the transition display effect between the main screen and the auxiliary screen can be conveniently realized subsequently, and further, the development of other product functions is more convenient.

Some exemplary implementations of the above-described display screen are described in detail below with reference to the drawings accompanying the description of the embodiments of the present application.

Referring to fig. 3, fig. 3 is a schematic structural diagram of a display screen 10 according to an embodiment of the present disclosure. The display screen 10 may include a main screen 110 and at least one sub screen 120, the main screen 110 includes a first main display unit 111 and a second main display unit 112, the first main display unit 111 and the second main display unit 112 are rotatably connected by a rotary connector 113, and the sub screen 120 and the main screen 110 are connected by a connector.

Based on the above design, the first main display unit 111 and the second main display unit 112 are rotatably connected through the rotating connecting piece 113, and the auxiliary screen 120 and the main screen 110 are connected through the connecting piece, so that the integrated design of the whole display screen 10 can be realized, the process complexity of multi-screen integration can be reduced, in addition, the space design difficulty of the internal structure and the device setting of the electronic equipment can be reduced, and because the main screen 110 and the auxiliary screen 120 are integrally designed, the subsequent transition display effect between the main screen 110 and the auxiliary screen 120 can be conveniently realized, and further, the development of other product functions can be more conveniently realized.

Further, the number of the sub-screens 120 may be selected according to actual design requirements, for example, in one possible embodiment, there may be one sub-screen 120, and the sub-screen 120 is connected to the first main display unit 111 or the second main display unit 112. For example, the sub screen 120 may be connected to the first main display unit 111, or the sub screen 120 may also be connected to the second main display unit 112.

As an exemplary scheme, the integrated design between the sub-screen 120 and the main screen 110 may be implemented by a static bending manner, that is, the sub-screen 120 and the main screen 110 cannot rotate relatively. In one possible embodiment, a side of the sub-screen 120 facing away from the display surface and a side of the first main display unit 111 or the second main display unit 112 facing away from the display surface may be fixedly bonded by the adhesive layer 130. For example, as shown in fig. 3, the sub-panel 120 and the first main display unit 111 may be in a static bending state, and at this time, a side of the sub-panel 120 facing away from the display surface and a side of the first main display unit 111 facing away from the display surface are fixedly bonded by the bonding layer 130. For another example, when the sub-screen 120 and the second main display unit 112 are in a static bending state, a side of the sub-screen 120 facing away from the display surface may be fixedly bonded to a side of the second main display unit 112 facing away from the display surface through the adhesive layer 130. In this way, the secondary screen 120 may appear in the display screen 10 as a unitary design with the primary screen 110 facing away from each other.

For another example, as another exemplary scheme, the integrated design between the sub-screen 120 and the main screen 110 may also be implemented in a dynamic bending manner, that is, the sub-screen 120 and the main screen 110 may be bent dynamically and may rotate relatively to each other. For example, as shown in fig. 4, in one possible embodiment, the sub-screen 120 may be movably coupled with the first main display unit 111 or the second main display unit 112 only by a rotational coupling member (not shown in fig. 4) without being adhesively fixed. The sub-screen 120 is movably connected to the first main display unit 111 only by a rotational connector, or to the second main display unit 112 only by a rotational connector. In this way, the secondary screen 120 may present a relatively rotatable, unitary design with the primary screen 110 in the display screen 10.

Further, in a possible embodiment, the sub-screens 120 may be two, for example, as shown in fig. 5, the sub-screens 120 may include a first sub-screen 121 and a second sub-screen 122, the first sub-screen 121 is connected to the first main display unit 111, and the second sub-screen 122 is connected to the second main display unit 112. Alternatively, in other possible embodiments, the first sub screen 121 is connected to the second main display unit 112, and the second sub screen 122 is connected to the first main display unit 111. Further, it is understood that the first sub-screen 121 and the second sub-screen 122 may be designed in different forms according to the requirements of actual product functions, for example, in some possible exemplary designs, the first sub-screen 121 and the second sub-screen 122 may also be designed in different sizes, or in different screen body shapes, but not limited thereto.

In the above design, as an exemplary scheme, a side of the first sub-panel 121 facing away from the display surface is fixedly bonded to the first main display unit 111 through the adhesive layer 130, and/or a side of the second sub-panel 122 facing away from the display surface is fixedly bonded to a side of the second main display unit 112 facing away from the display surface through the adhesive layer.

For example, the first sub-panel 121 and the second sub-panel 122 may both adopt a static bending integrated design, for example, the first sub-panel 121 and the second sub-panel 122 may not rotate relative to the main panel 110 due to a static bending state. As shown in fig. 5, a side of the first sub-panel 121 facing away from the display surface is fixedly bonded to the first main display unit 111 by the adhesive layer 130, and a side of the second sub-panel 122 facing away from the display surface is fixedly bonded to a side of the second main display unit 112 facing away from the display surface by the adhesive layer 130. In this way, the first sub-screen 121 and the second sub-screen 122 may present an integrated design in which the display surfaces are deviated from each other in the display screen 10 with the main screen 110.

For another example, the first sub-screen 121 and the second sub-screen 122 may both adopt an integrated design of dynamic bending, that is, the first sub-screen 121 and the second sub-screen 122 may be in a dynamic bending state with the main screen 110, and may rotate relatively. As shown in fig. 6, the first sub screen 121 is movably connected to the first main display unit 111 only by a rotation connection (not shown in fig. 6), and the second sub screen 122 is movably connected to the second main display unit 112 only by a rotation connection. Thus, the first sub-screen 121 and the second sub-screen 122 may present a relatively rotatable integrated design with the main screen 110 in the display screen 10.

For another example, one of the first sub-panel 121 and the second sub-panel 122 may adopt an integrated design of dynamic bending, and the other may adopt an integrated design of static bending. For example, the first sub-panel 121 and the main panel 110 may be relatively rotated in a dynamic bending state, and the second sub-panel 122 and the main panel 110 may be relatively rotated in a static bending state. Alternatively, the first sub-panel 121 and the main panel 110 may be in a static bending state and may not rotate relatively, and the second sub-panel 122 and the main panel 110 may be in a dynamic bending state and may rotate relatively. For example, as shown in fig. 7, a side of the first sub-panel 121 facing away from the display surface is fixedly bonded to the first main display unit 111 through the adhesive layer 130, and the second sub-panel 122 is movably connected to the second main display unit 112 only through a rotary connection member (not shown in fig. 7). In this way, the first sub-screen 121 may present an integral design in the display screen 10 that is offset from the main screen 110, and the second sub-screen 122 may present an integral design in the display screen 10 that is rotatable relative to the main screen 110.

In one possible embodiment, the Adhesive layer 130 may be formed of Optically Clear Adhesive (OCA), and the optical Adhesive layer may be formed by making an optical acrylic Adhesive into a non-substrate, and then attaching a release film to each of the upper and lower bottom layers, which is a double-sided Adhesive tape without a substrate material, and may be used as a preferred Adhesive. Alternatively, the adhesive layer 130 may be a resistive optical adhesive or a capacitive optical adhesive, and is not limited in particular.

Further, in a possible embodiment, please refer to fig. 8 in combination, which shows a schematic partial cross-sectional structure of the display screen 10. The display screen 10 may include a substrate 100, a display function layer 200 on the substrate 100, and a cover plate 300 on the display function layer 200, wherein the display function layer 200 and the cover plate 300 may be fixedly bonded by an adhesive layer 300.

The substrate 100 may be a deformable and bendable flexible substrate made of a flexible material. For example, the substrate 100 may use a flexible substrate with a shape memory property of a deformable layer.

In this embodiment, as shown in fig. 3 to 8, the display function layer 200 may include a first bending region 210 and a second bending region 220, where the first bending region 210 is disposed corresponding to a connection portion between the first main display unit 111 and the second main display unit 112, and the second bending region 220 is disposed corresponding to a connection portion between the main screen 110 and the sub-screen 120.

For example, one end of the first bending region 210 is integrally connected to the first main display unit 111, the other end is integrally connected to the second main display unit 112, one end of the second bending region 220 is integrally connected to the main screen 110, and the other end is integrally connected to the sub-screen 120. In a specific implementation, when the first main display unit 111 and the second main display unit 112 are rotationally bent through the rotational connection member 113, the first bending region 210 may be bent and deformed correspondingly with the degree of the rotational bending. Correspondingly, when the main screen 110 and the sub-screen 120 are rotationally bent through the rotational connection member, the second bending region 220 may also be bent and deformed correspondingly according to the degree of the rotational bending.

The display function layer 200 may include a plurality of display pixel units 201 arranged in an array, for example, RGB pixel units including three colors of red (R), blue (G), and green (B), or may further include a pixel unit of white (W) on the basis of a pixel unit of three colors of RGB, a pixel unit forming four colors of RGBW, and the like.

Based on this, in a possible implementation manner, for the first bending region 210 and the second bending region 220, the display function of the first bending region 210 and the second bending region 220 can be realized by designing the display pixel unit 201, so that the overall display effect is better, and the electronic device product with lower requirement on bending performance can be adapted. For another example, the display pixel unit 201 of the first bending region 210 or the second bending region 220 may be removed, so that although the first bending region 210 or the second bending region 220 does not display, the requirement for the bending property of the entire display screen 10 is reduced, and the electronic device product with higher requirement for the bending property may be adapted.

For example, referring to fig. 8, the display pixel units 201 are disposed on the portions of the display function layer 200 located in the first bending region 210 and the second bending region 220, so that the display functions of the first bending region 210 and the second bending region 220 can be realized. For another example, referring to fig. 9, a portion of the display function layer 200 located in the first bending region 210 is provided with a display pixel unit 201, and a portion of the display function layer 200 located in the second bending region 220 is not provided with the display pixel unit 201, so that the second bending region 220 between the main panel 110 and the sub-panel 120 is not designed with a display function.

In addition, the embodiment of the present application further provides an electronic device having the above display screen 10, where the electronic device may be, but is not limited to, a smart phone, a tablet computer, and the like.

The embodiments described above are only a part of the embodiments of the present application, and not all of the embodiments. The components of the embodiments of the present application, as generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations. Thus, the detailed description of the embodiments of the present application provided in the accompanying drawings is not intended to limit the scope of the application, but is merely representative of selected embodiments of the application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims. Moreover, all other embodiments that can be made available by a person skilled in the art without making any inventive step based on the embodiments of the present application shall fall within the scope of protection of the present application.

Claims (10)

1. The display screen is characterized in that the display screen (10) comprises a main screen (110) and at least one auxiliary screen (120), the main screen (110) comprises a first main display unit (111) and a second main display unit (112), the first main display unit (111) and the second main display unit (112) are rotatably connected through a rotating connecting piece (113), and the auxiliary screen (120) and the main screen (110) are connected through a connecting piece.

2. A display screen according to claim 1, characterised in that the secondary screen (120) is one, the secondary screen (120) being rotatably connected to the first main display unit (111) or the second main display unit (112).

3. A display screen according to claim 2, characterised in that the side of the secondary screen (120) facing away from the display surface is fixedly bonded to the side of the first main display unit (111) or the second main display unit (112) facing away from the display surface by means of a bonding layer (130).

4. A display screen according to claim 1, characterised in that the secondary screens (120) are two, respectively a first secondary screen (121) and a second secondary screen (122), the first secondary screen (121) being rotatably connected to the first main display unit (111) and the second secondary screen (122) being rotatably connected to the second main display unit (112).

5. A display screen according to claim 1, characterised in that the secondary screens (120) are two, respectively a first secondary screen (121) and a second secondary screen (122), wherein:

one side of the first auxiliary screen (121) departing from the display surface is fixedly bonded with the first main display unit (111) through a bonding layer (130), and the second auxiliary screen (122) is rotatably connected with the second main display unit (112); or;

one side of the second auxiliary screen (122) departing from the display surface is fixedly bonded with one side of the second main display unit (112) departing from the display surface through a bonding layer (130), and the first auxiliary screen (121) is rotatably connected with the first main display unit (111); or

One side of the first auxiliary screen (121) departing from the display surface is fixedly bonded with the first main display unit (111) through the bonding layer (130), and one side of the second auxiliary screen (121) departing from the display surface is fixedly bonded with one side of the second main display unit (112) departing from the display surface through the bonding layer (130).

6. A display screen according to claim 5, characterised in that the material of the adhesive layer (130) is an optically clear adhesive.

7. A display screen according to any one of claims 1 to 6, characterized in that the display screen (10) comprises a substrate (100) and a display functional layer (200) on the substrate (100), the display functional layer (200) comprises a first bending region (210) and a second bending region (220), the first bending region (210) corresponds to the connection between the first main display unit (111) and the second main display unit (112), and the second bending region (220) corresponds to the connection between the main screen (110) and the secondary screen (120).

8. A display screen according to claim 7, characterized in that the display pixel units (201) are arranged on the part of the display function layer (200) located in the first bending region (210), and the display pixel units (201) are not arranged on the part of the display function layer (200) located in the second bending region (220).

9. A display screen according to claim 7, characterised in that the portions of the display function layer (200) located in the first bending region (210) and the second bending region (220) are each provided with a display pixel cell (201).

10. An electronic device, characterized in that it comprises a display screen (10) according to any one of claims 1-9.

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