CN108965519B - Terminal equipment - Google Patents

Abstract

The invention provides a terminal device, comprising: the device comprises a shell, a main screen, an auxiliary screen and functional devices; a shell opening is formed in one side of the shell, and the main screen assembly is arranged at the shell opening; the functional device is arranged in the shell and is opened towards the shell; the main screen assembly is provided with a main screen opening, and the auxiliary screen assembly is arranged at the main screen opening; wherein the sub-screen assembly includes a transparent screen, and the functional device is disposed below the transparent screen; the functional device comprises a camera assembly and an optical sensing assembly. The user sends an instruction through the composite screen, so that the terminal equipment improves the screen transparency of the auxiliary screen assembly, and relevant functional components of the terminal equipment acquire or emit light to the outside through the transparent screen to implement corresponding functions. According to the invention, the functional device is arranged below the auxiliary screen assembly, and the auxiliary screen assembly is matched with the screen of the main screen assembly adopting the traditional screen for display, so that the screen occupation ratio of the terminal equipment is improved.

Description

Terminal equipment

Technical Field

The invention relates to the field of mobile equipment, in particular to terminal equipment.

Background

At present, with the development of electronic technology and information technology, intelligent terminals gradually become daily necessities of the public. While a user continuously pursues an intelligent terminal with a larger screen, the user also needs to maintain good user experience of the intelligent terminal, wherein one of typical interaction modes is to ensure that most operations are completed by one hand. Therefore, a high screen ratio is one of the current demands of the intelligent terminal, and the existing scheme of disposing the functional devices (such as a camera module and an ambient light sensor) requiring light below the transparent touch screen (such as a graphene screen) is one of the future trends. However, since the screen made of graphene is not mass-produced or commercially available in a large scale, there is a certain risk to users, and there may be an unpredictable problem, and there is a need for replacement and upgrade in the future. In addition, the solution of using the transparent screen and the conventional screen as a whole screen requires a better manufacturing process, and when the manufacturing cost is not enough to support the manufacturing process, the edge between the 2 screens using the composite screen solution may not be smooth and have a different feeling during the display.

Disclosure of Invention

The invention provides a terminal device adopting a composite screen, aiming at overcoming the defects of the prior art, reducing the problems possibly caused by the transparent screen as much as possible and reducing the cost.

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

a terminal device, comprising: the device comprises a shell, a main screen assembly, an auxiliary screen assembly and a functional device; a shell opening is formed in one side of the shell, and the main screen assembly is arranged at the shell opening; the functional device is arranged in the shell and is opened towards the shell, so that the space occupied by the functional device on the surface of the shell is reduced, more space is provided for a screen, and the proportion of the screen occupying the surface of the shell can be further improved; on the other hand, the shell and the main screen assembly can prevent functional devices arranged inside from being directly damaged and scratched to a certain extent, and the functional devices can still keep normal operation even if the main screen assembly or the shell is obviously damaged;

the main screen assembly is provided with a main screen opening, the auxiliary screen assembly is arranged at the main screen opening, and the size and the shape of the screen of the auxiliary screen assembly are consistent with those of the main screen opening, so that the screen of the auxiliary screen assembly is tightly attached to the screen of the main screen assembly, and a user can basically not feel the difference caused by the two screens at the edge of the main screen opening when the mobile phone is in operation; the auxiliary screen assembly comprises a transparent screen, and the functional device is arranged below the transparent screen; when a user uses the terminal equipment and needs to use the functional components, the user operates the screen formed by the main screen component and the auxiliary screen component to start the related functions of the functional components under the screen, and an operating system of the terminal equipment automatically closes or adjusts the screen of the auxiliary screen component to improve the transparency of the screen of the auxiliary screen component, so that the related functional components of the terminal equipment acquire or emit light to the outside from the outside through the transparent screen, and the functional components implement the corresponding functions, such as photographing and distance measurement; after the related functions of the functional components are used, the operating system of the terminal equipment restores the screen display content of the auxiliary screen assembly to be used as a whole screen with the screen of the main screen assembly; the functional device comprises a camera assembly and a light sensing assembly and is used for photographing, detecting ambient light and the like.

According to the terminal device of the present invention, the following additional technical features may be provided:

in the above technical solution, preferably, the edge of the housing and the edge of the screen of the main screen assembly are both arc-shaped structures.

In the technical scheme, the shell with the arc-shaped edge is adopted, so that a user can hold the edge of the shell more comfortably, the problem caused by the sharp edge generated by a right-angle structure is reduced, and the user is prevented from being cut; the main screen subassembly still forms the arc edge the same with the casing simultaneously, makes the user when openly watching the screen of main screen subassembly, makes the edge of main screen subassembly press close to the casing edge as far as possible, improves the screen and accounts for the ratio.

In the above technical solution, preferably, the secondary screen assembly includes a first secondary screen assembly and a second secondary screen assembly, the primary screen assembly is provided with a first opening and a second opening corresponding to each other, the first opening is located in a direction of a middle bottom of the primary screen assembly displaying the content, and the second opening is located at one side of the first opening along a horizontal direction;

the first auxiliary screen component and the second auxiliary screen component are both provided with transparent screens;

the first auxiliary screen component is arranged at the first opening, and the second auxiliary screen component is arranged at the second opening.

In the technical scheme, the auxiliary screen assembly is respectively set as the first auxiliary screen assembly and the second auxiliary screen assembly, so that the functional devices required to be arranged under the transparent screen are separated, and different device layouts can be adopted in the terminal equipment according to requirements.

In addition, the first sub-screen assembly and the second sub-screen assembly can be set to match with a navigation bar virtual button of a non-entity terminal device operating system, especially a button of a navigation bar of a conventional android system, the screen edge sizes of the first sub-screen assembly and the second sub-screen assembly are set to be the size of the corresponding button, the first sub-screen assembly, the second sub-screen assembly and the screen edge of the opening of the corresponding main screen assembly are highlighted and are arranged right below the navigation bar button when the screen displays content, and the sub-screen assemblies can be used as virtual buttons of the operating system.

In the above technical solution, preferably, the camera assembly is disposed in the housing, located below the transparent screen of the first sub-screen assembly, and facing the transparent screen of the first sub-screen assembly; the light sensing component is arranged in the shell, is positioned below the transparent screen of the second auxiliary screen component and faces the transparent screen of the second auxiliary screen component.

In the technical scheme, a camera assembly and an optical sensing assembly are separately arranged, the camera assembly is arranged in the middle of a screen, and the camera is kept aligned to a user at the central position of the screen when the user performs self-shooting; the light sensing component can be arranged at a position which is not in the middle of the screen, and the function corresponding to the light sensing component can still be completed.

In the above technical solution, preferably, the camera assembly includes a plurality of cameras, and the optical sensing assembly includes a plurality of optical sensors.

In the technical scheme, a plurality of cameras in the camera assembly can enhance the photographing effect or provide more photographing functions, such as blurring the picture background; the light sensing assembly may also include a plurality of light sensors, such as an ambient light sensor, an infrared light sensor, a flood sensor and a distance sensor, each of which may be capable of achieving different effects in accordance with user requirements.

In the above technical solution, preferably, the cameras are arranged horizontally or longitudinally.

In the technical scheme, the cameras are horizontally and transversely arranged or vertically and longitudinally arranged, so that the pictures acquired by the two cameras are processed and processed through a relatively reasonable algorithm to obtain 1 picture with better effect, and the problem of poor effect possibly caused by other inclined arrangement modes is avoided.

In the above technical solution, preferably, the first sub-screen assembly and the second sub-screen assembly each include a base provided with an opening and a transparent screen provided at the opening of the base;

the base and main screen subassembly fixed connection.

In the technical scheme, the auxiliary screen assembly is provided with the base connected with the main screen assembly, so that the first auxiliary screen assembly and the second auxiliary screen assembly can be respectively arranged on the first opening and the second opening of the main screen assembly, and the effect of mutual fixation with the main screen assembly is achieved; the auxiliary screen assembly is fixed by adopting glue for bonding, and the glue part is heated by using an electric hair drier or other heating equipment when the auxiliary screen assembly is detached, so that the glue can be melted and the screen assembly can be separated from the main screen assembly.

In the above technical solution, preferably, the shape of the transparent screen is a circle, a square, a rectangle, or a triangle.

In the technical scheme, the transparent screen is matched with the virtual buttons of the navigation bar of the terminal equipment operating system in the technical scheme, so that the edge of the transparent screen is just matched with the virtual buttons of the navigation bar, and the size of the transparent screen is consistent with the size of the virtual buttons of the navigation bar and has the same shape.

In the above technical solution, preferably, the transparent screen is a graphene screen.

In the technical scheme, the screen based on the graphene material is adopted, so that the screen is simple in structure and has better transparency; the graphene screen also has the strength and hardness similar to or better than that of a conventional screen, can reach or exceed the service life of a conventional mobile phone, and meets daily use requirements.

A terminal device, comprising: the device comprises a shell, a main screen component, a first auxiliary screen component, a second auxiliary screen component, a camera component and an optical sensing component; the first auxiliary screen component and the second auxiliary screen component are both provided with transparent screens; a shell opening is formed in one side of the shell, and the main screen assembly is arranged at the shell opening; the camera assembly and the optical sensing assembly are arranged in the shell and open towards the shell; the main screen assembly is provided with a first opening and a second opening, the first opening is positioned in the direction of the bottom of the middle of the main screen assembly for displaying contents, and the second opening is positioned on one side of the first opening along the horizontal direction; the first auxiliary screen component is arranged at the first opening, and the second auxiliary screen component is arranged at the second opening; the camera assembly is arranged in the shell, is positioned below the transparent screen of the first auxiliary screen assembly and faces the transparent screen of the first auxiliary screen assembly; the light sensing component is arranged in the shell, is positioned below the transparent screen of the second auxiliary screen component and faces the transparent screen of the second auxiliary screen component.

According to the terminal device of the present invention, the following additional technical features may be provided:

in the above technical solution, preferably, the shape of the transparent screen of the first sub-screen assembly is a circle, and the shape of the transparent screen of the second sub-screen assembly is a square.

In the technical scheme, the terminal device is matched with a conventional android operating system, the first secondary screen component is used as a Home key of a navigation bar of the android system, and the second secondary screen component is used as a rightful key (a multitask key or a menu key) of the navigation bar of the android system.

The invention at least comprises the following beneficial effects:

1. according to the invention, the main screen assembly and the auxiliary screen assembly with the openings are arranged, the base of the auxiliary screen assembly is bonded below the main screen assembly through the colloid, so that the screens of the auxiliary screen assembly and the main screen assembly are positioned on the same plane and used as a complete composite screen, and the use experience of a user is not influenced while the functional devices under the screens are provided; only need heat the colloid when dismantling, alright make the colloid melt and break away from the operation of easy to maintain or upgrading change with the base from main screen subassembly.

2. The invention also provides a main screen component which is respectively provided with a first opening and a second opening and a corresponding first auxiliary screen component and a corresponding second auxiliary screen component, wherein the first auxiliary screen component and the second auxiliary screen component are respectively provided with a transparent screen with the size and the shape corresponding to the navigation bar button of the conventional mobile phone operating system, the edge of the transparent screen is matched with the edge of the opening of the main screen component to display the outline of the navigation bar button, and the color of the navigation bar button is usually monochrome or color and similar gradual change, so that the difference of screen display at two sides of the edge of the opening can be effectively covered, the integral sense of the integral composite screen of the terminal equipment is enhanced, and the user experience is improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a front view of a terminal device.

Fig. 2 is a side view of the terminal device.

Fig. 3 is a schematic diagram of a terminal device in which a transparent screen of a first sub-screen assembly is in a circular shape.

Fig. 4 is a schematic diagram of a navigation bar button of a terminal device with a circular transparent screen of a first sub-screen assembly when a conventional android system is operated.

Fig. 5 is a schematic structural front view of a first sub-screen assembly and a second sub-screen assembly.

FIG. 6 is a schematic side view of the first and second secondary screen assemblies.

1 represents a housing, 2 represents a main screen assembly, 3 represents a first sub-screen assembly, 31 represents a camera assembly, 4 represents a second sub-screen assembly, 41 represents a photo-sensing assembly, 5 represents a handset, 6 represents a shortcut key, 1001 represents a base, and 1002 represents a transparent screen of the sub-screen assembly.

Detailed Description

The drawings are for illustrative purposes only and are not to be construed as limiting the present patent application;

for the purpose of better illustrating the embodiments, certain features of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product;

it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

It is to be understood that the terminology used in the embodiments of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used in the description of the invention and the appended claims, the singular forms "a", "an", and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It should also be understood that the term "and/or" as used herein refers to and encompasses any and all possible combinations of one or more of the associated listed items. Furthermore, the terms "first," "second," and the like in the description and in the claims, as well as in the drawings, are used for distinguishing between different objects and not necessarily for describing a particular order. Any description herein of the secondary screen assembly is as "the screen of the secondary screen assembly" and "the screens of the secondary and primary screen assemblies," wherein the secondary screen assembly employs a transparent screen.

The technical solution of the present invention is further described below with reference to the accompanying drawings and examples.

As shown in fig. 1, fig. 1 is a front view of the terminal device of the present invention in a screen-off or power-off state. The present embodiment is mainly described with reference to the terminal device and the components included in the terminal device in fig. 1 as an example. Specifically, the terminal device includes: the device comprises a shell 1, a main screen component 2, an auxiliary screen component and a functional device;

a shell opening is formed in one side of the shell 1, the main screen assembly 2 is arranged at the shell opening, as shown in fig. 2, a screen of the main screen assembly 2 is slightly higher than the shell 1, so that a user can operate the edge of the screen of the main screen assembly 2, and a physical shortcut key 6 is further arranged on the side surface of the shell 1, so that the user can conveniently perform emergency operation; the functional device is arranged in the shell 1 and is opened towards the shell, so that the functional device can emit, collect or process any one or more of light, pulse, ultrasonic wave and other signals towards a user when the functional device is operated by the user; the main screen component 2 is provided with a main screen opening, the auxiliary screen components are arranged at the main screen opening, in the embodiment, the number of the auxiliary screen components is 2, the main screen component 2 is provided with openings corresponding to the 2 auxiliary screen components respectively, so that the screens of the auxiliary screen components and the screen of the main screen component 2 are arranged on the same plane and the edges between the screens are tightly attached;

the auxiliary screen assembly comprises a transparent screen, the functional devices are arranged below the transparent screen, the transparent screen of the auxiliary screen assembly and the screen of the main screen assembly 2 are in the same plane, only the screen of the main screen assembly 2 can be seen from the side surface of the terminal equipment, but the screen of the auxiliary screen assembly cannot be seen, so that a composite screen formed by the screen of the main screen assembly 2 and the screen of the auxiliary screen assembly has better integrity and consistency, and a user cannot obviously perceive the screen of the auxiliary screen assembly when the terminal equipment runs; the functional device comprises a camera assembly 31 and an optical sensing assembly 41, wherein the camera assembly 31 and the optical sensing assembly 41 are both arranged below the transparent screen, and an operating system of the terminal controls the display of the transparent screen to enable the display to reach the maximum transparency, so that the camera assembly 31 and the optical sensing assembly 41 sense external light below the screen.

Specifically, in this embodiment, the opening of casing 1 sets up at casing 1 openly, and casing 1 openly still is equipped with the marginal opening of casing that is not covered by main screen subassembly 2 for the setting requires lower part to vertical length, and in this embodiment, the part that sets up at the marginal opening of casing is earphone 5, provides sufficient speaker area through improving horizontal length, from the reduction with main screen subassembly 2 occupy the conflict of casing opening surface position. In the present embodiment, the housing 1 may be a plastic, glass, or ceramic housing, or may be a housing made of a combination of multiple materials among the above-mentioned housing materials; the screen of the main screen assembly 2 is an LCD or OLED or AMOLED panel.

In one embodiment, the edge of the housing and the edge of the screen of the main screen assembly 2 are both arc-shaped structures, and in a modified embodiment, the edge of the screen of the main screen assembly 2 may also be a right-angle structure.

In one embodiment, the sub-screen assembly comprises a first sub-screen assembly 3 and a second sub-screen assembly 4, the main screen assembly 2 is provided with a first opening and a second opening, the first opening and the second opening respectively correspond to the first sub-screen assembly 3 and the second sub-screen assembly 4, namely, the size and the shape of the first opening are consistent with the screen size and the shape of the first sub-screen assembly 3, the size and the shape of the second opening are consistent with the screen size and the shape of the second sub-screen assembly 4, the first opening and the second opening are both positioned at a navigation bar below the screen display content of the main screen assembly 2, the first opening is positioned in the middle bottom direction of the display content of the main screen assembly 2, the second opening is positioned at one side of the first opening along the horizontal direction, in a modified embodiment, the first opening and the second opening are positioned on the premise of keeping the navigation bar positioned below the screen display content, the navigation bar can be arranged at different positions in the navigation bar according to requirements;

the first auxiliary screen component 3 and the second auxiliary screen component 4 are both provided with transparent screens;

the first auxiliary screen component 3 is arranged at the first opening, the second auxiliary screen component 4 is arranged at the second opening, and the transparent screen of the first auxiliary screen component 3 and the transparent screen of the second auxiliary screen component 4 are both in the same plane with the screen of the main screen component 2;

specifically, in this embodiment, the terminal device operates using a conventional android system, and the navigation bar of the android system includes 3 conventional virtual buttons, which are respectively from left to right: triangular buttons, circular buttons, square buttons. As shown in fig. 3, the first opening is circular and is provided at the circular button, the transparent screen of the first sub-screen assembly 3; the second opening is square and is arranged at the square button; in use, as shown in fig. 4, when the terminal device runs the conventional android system, the circular button and the square button of the navigation bar are just above the first opening and the second opening, the screen edges of the first sub-screen assembly 3 and the second sub-screen assembly 4 both display the corresponding navigation bar button icon outlines, and the screen of the main screen assembly 2 also matches the displayed icon outlines at the edges of the first opening and the second opening, so that the sense of difference between the sub-screen assembly and the main screen assembly 2 is further reduced; in some situations, when the screen edges of the secondary screen assembly and the primary screen assembly 2 cannot be perfectly matched, for example, due to technical reasons or the need to control the cost, the embodiment is particularly effective, can obviously weaken the remarkable degree of the opening, and enables a user to feel the existence of the opening of the primary screen assembly 2 as little as possible; in the modified embodiment, the number of the navigation bar buttons can be one or more, the navigation bar buttons are triangular, rectangular, square or circular, the size and shape of the screens of the first secondary screen component and the second secondary screen component can be set according to the shape of the navigation bar buttons, the setting of the secondary screen component and the function period can be carried out by the same principle as the previous embodiment, namely, the screens on both sides of the opening of the main screen component 2 display the navigation bar buttons in a monochromatic or approximate gradient tone, and the effect of covering and weakening the edge of the opening is achieved.

In one embodiment, the camera assembly 31 is arranged within the casing 1, below the transparent screen of the first sub-screen assembly 3, towards the transparent screen of the first sub-screen assembly 3; the photo-sensing assembly 41 is disposed within the housing 1 below the transparent screen of the second sub-screen assembly 4, facing the transparent screen of the second sub-screen assembly 4. The camera assembly 31 and the light sensing assembly 41 may each be one or more. In the embodiment, as the size of the transparent screen of the auxiliary screen component needs to be matched with the size of the navigation bar button of the terminal equipment operating system, a large number of functional devices with large occupied area cannot be accommodated; therefore, the camera assembly 31 and the optical sensing assembly 41 are respectively arranged, so that the camera assembly 31 is positioned in the middle of the screen, and the camera is kept aligned with the user at the central position of the screen when the user performs self-photographing; the light sensing assembly 41 can be disposed at a position other than the center of the screen, and still perform the corresponding function of the light sensing assembly 41. In the modified embodiment, when the number of the camera assemblies 31 and the number of the optical sensing assemblies 41 are small enough and the total occupied area is small enough, the camera assemblies and the optical sensing assemblies can be arranged under the same sub-screen assembly, so that the space is saved.

In one embodiment, camera assembly 31 includes a plurality of cameras, and light sensing assembly 41 includes a plurality of light sensors; the multiple cameras can be matched with an image processing algorithm to carry out image optimization, so that the photographing effect is enhanced or more photographing functions are provided, such as blurring a picture background; light sensing component 41 may also include a plurality of light sensors, such as ambient light sensor, infrared light sensor, floodlight sensor and distance sensor, and each sensor can reach different effects according to the user's demand, for example, detect the user face, make terminal equipment awaken up and carry out the unblock through face identification from the state of turning off the screen.

In one embodiment, the cameras are arranged transversely or longitudinally, so as to significantly improve the quality of pictures obtained by the cameras; when a user needs to self-shoot or the terminal equipment needs the front camera to actively perform facial recognition unlocking, the transparent screen is controlled by the terminal equipment to reach a transparent state, the appearance aesthetic feeling of the terminal equipment can be increased by the aid of the cameras which are arranged in order, and the processing difficulty is reduced.

In one embodiment, as shown in fig. 5, each of the first sub-screen assembly 3 and the second sub-screen assembly 4 comprises a base 1001 with an opening and a transparent screen 1002 arranged at the opening of the base 1001, as shown in fig. 6, the transparent screen 1002 is slightly higher than the base 1001, the base 1001 is installed below the main screen assembly 2, and the transparent screen 1002 is at the same height as the screen of the main screen assembly 2 and is displayed as a whole screen; base 1001 fixed mounting is in the below of main screen subassembly 2, makes the user see the middle convex of vice screen subassembly from the base 1001 and the intelligence that openly can't see vice screen subassembly, be in the transparent screen 1002 part of coplanar with the screen of main screen subassembly, and particular embodiment is for bonding through the colloid, adopts the heating tool to heat the colloid when needs are dismantled, makes it melt, alright part from main screen subassembly 2 with the base 1001 of vice screen subassembly.

In one embodiment, as shown in fig. 3 and 4, the transparent screen 1002 is circular or square or rectangular or triangular in shape; when the terminal equipment runs a conventional android system, circular buttons and square buttons of a navigation bar of the terminal equipment are just positioned on a first opening and a second opening, and screens of a first secondary screen component 3 and a second secondary screen component 4 are positioned at the corresponding openings and have corresponding sizes and shapes, so that screen edges of the first secondary screen component 3, the second secondary screen component 4 and a first opening and a second opening of a main screen component 2 simultaneously display the icon outlines of the navigation bar buttons corresponding to the screen edges, the edges of the openings can be obviously weakened, and the complete sense and the body sense of a composite screen consisting of the secondary screen component and the main screen component 2 are enhanced; in some situations, when the screen edges of the secondary screen assembly and the primary screen assembly 2 cannot be perfectly matched, for example, due to technical reasons or the need to control the cost, the embodiment is particularly effective, and can obviously weaken the remarkable degree of the opening, so that the user cannot feel the existence of the opening of the primary screen assembly 2 as much as possible.

In any of the above embodiments, the transparent screen 1002 is a graphene screen. The main screen assembly 2 adopts a traditional LCD or OLED or AMOLED panel, so that the stability and reliability of the screen of the main screen assembly 2 are ensured; meanwhile, the auxiliary screen component with smaller size is made of a transparent screen material, such as a graphene screen, so that potential adverse effects possibly caused by an immature transparent screen material can be reduced as much as possible, and the quality of a product can be detected more easily in the production process and the reject ratio is reduced because the auxiliary screen component is smaller; even when the terminal equipment has an accident after being put on the market and needs to be recalled on a large scale, the auxiliary screen assembly has smaller volume and lower cost, and can further reduce loss compared with the replacement of a transparent screen with the same size as the main screen assembly 2.

In a modified embodiment, as shown in fig. 3, the terminal device of the present embodiment includes: the device comprises a shell, a main screen component, a first auxiliary screen component, a second auxiliary screen component, a camera component and an optical sensing component; the first auxiliary screen component and the second auxiliary screen component are both provided with transparent screens; a shell opening is formed in one side of the shell, and the main screen assembly is arranged at the shell opening; the camera assembly and the optical sensing assembly are arranged in the shell and open towards the shell; the main screen assembly is provided with a first opening and a second opening, the first opening is positioned in the direction of the bottom of the middle of the main screen assembly for displaying contents, and the second opening is positioned on one side of the first opening along the horizontal direction; the first auxiliary screen component is arranged at the first opening, and the second auxiliary screen component is arranged at the second opening; the camera assembly is arranged in the shell, is positioned below the transparent screen of the first auxiliary screen assembly and faces the transparent screen of the first auxiliary screen assembly; the light sensing component is arranged in the shell, is positioned below the transparent screen of the second auxiliary screen component and faces the transparent screen of the second auxiliary screen component.

In one embodiment, the transparent screen of the first sub-screen assembly is square in shape and the transparent screen of the second sub-screen assembly is circular in shape; the effect when using is as shown in fig. 4, and the screen boundary pixel point cooperates with the boundary pixel point of main screen at corresponding opening part and shows the outline of navigation bar button, reduces the apparent degree of opening and the difference that brings because installation and material are different between main screen subassembly and the vice screen subassembly remarkably.

In the invention, the terminal device is also provided with a main circuit board, a chip set, a processor, a memory card, a power supply and the like which are consistent with a conventional intelligent terminal, the main screen component 2 and the auxiliary screen component are connected with internal components of the conventional intelligent terminal such as the main circuit board, the chip set, the processor, the memory card, the power supply and the like through data lines or other means, and realize the operations and functions such as data display, interaction, power supply, customization functions and the like through a mobile phone operating system (such as an android operating system and an apple operating system).

It should be understood that the above-described embodiments of the present invention are merely examples for clearly illustrating the present invention, and are not intended to limit the embodiments of the present invention. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the claims of the present invention.

Claims (7)

1. A terminal device, comprising: the device comprises a shell, a main screen assembly, an auxiliary screen assembly and a functional device;

a shell opening is formed in one side of the shell, and the main screen assembly is arranged at the shell opening;

the functional device is arranged in the shell and is opened towards the shell;

the main screen assembly is provided with a main screen opening, and the auxiliary screen assembly is arranged at the main screen opening;

wherein the sub-screen assembly includes a transparent screen, and the functional device is disposed below the transparent screen;

the functional device comprises a camera assembly and an optical sensing assembly;

the auxiliary screen assembly comprises a first auxiliary screen assembly and a second auxiliary screen assembly, the main screen assembly is provided with a corresponding first opening and a corresponding second opening, the first opening is positioned in the middle bottom direction of the displayed content of the main screen assembly, and the second opening is positioned on one side of the first opening along the horizontal direction;

the first auxiliary screen component and the second auxiliary screen component are both provided with transparent screens;

the first auxiliary screen component is arranged at the first opening, and the second auxiliary screen component is arranged at the second opening;

the camera assembly is arranged in the shell, is positioned below the transparent screen of the first auxiliary screen assembly and faces the transparent screen of the first auxiliary screen assembly; the optical sensing assembly is arranged in the shell, is positioned below the transparent screen of the second auxiliary screen assembly and faces the transparent screen of the second auxiliary screen assembly;

the terminal equipment is matched with an android system for use, the shape of a transparent screen of a first secondary screen assembly is circular, the first secondary screen assembly is used as a Home key of a navigation bar of the android system, the shape of a transparent screen of a second secondary screen assembly is square, and the second secondary screen assembly is used as a multi-task key of the navigation bar of the android system;

wherein, the edge of the screen of the first secondary screen component and the edge of the screen of the main screen component are matched to display the same color or gradient color at the edge of the first opening for displaying H_oThe icon outline of the me key, the edge of the screen of the second secondary screen component and the edge of the screen of the main screen component at the second opening are matched to display the same color or gradient color, and the icon outline is used for displaying the icon outline of the multitask key;

wherein the camera assembly comprises one or more cameras and the light sensor comprises one or more of an ambient light sensor, an infrared light sensor, a flood sensor and a distance sensor.

2. The terminal device of claim 1, wherein the housing edge and the screen edge of the main screen assembly are both arc-shaped structures.

3. The terminal device of claim 1, wherein the camera assembly comprises a plurality of cameras and the optical sensing assembly comprises a plurality of optical sensors.

4. The terminal device of claim 3, wherein the cameras are arranged in a landscape or portrait orientation.

5. The terminal device according to any one of claims 1 to 4, wherein the first sub-screen assembly and the second sub-screen assembly each comprise a base provided with an opening and a transparent screen provided at the opening of the base;

the base and main screen assembly fixed connection.

6. Terminal device according to claim 5, characterized in that the transparent screen is circular or square or rectangular or triangular in shape.

7. A terminal device, comprising: the device comprises a shell, a main screen component, a first auxiliary screen component, a second auxiliary screen component, a camera component and an optical sensing component;

the first auxiliary screen component and the second auxiliary screen component are both provided with transparent screens;

a shell opening is formed in one side of the shell, and the main screen assembly is arranged at the shell opening;

the camera assembly and the optical sensing assembly are arranged in the shell and open towards the shell;

the main screen assembly is provided with a first opening and a second opening, the first opening is positioned in the direction of the bottom of the middle of the displayed content of the main screen assembly, and the second opening is positioned on one side of the first opening along the horizontal direction;

the first auxiliary screen component is arranged at the first opening, and the second auxiliary screen component is arranged at the second opening;

the camera assembly is arranged in the shell, is positioned below the transparent screen of the first auxiliary screen assembly and faces the transparent screen of the first auxiliary screen assembly;

the optical sensing assembly is arranged in the shell, is positioned below the transparent screen of the second auxiliary screen assembly and faces the transparent screen of the second auxiliary screen assembly;

the terminal equipment is matched with an android operating system for use, the shape of a transparent screen of a first secondary screen assembly is circular, the first secondary screen assembly is used as a Home key of a navigation bar of the android system, the shape of a transparent screen of a second secondary screen assembly is square, and the second secondary screen assembly is used as a multi-task key of the navigation bar of the android system;

the edge of the screen of the first auxiliary screen component and the edge of the screen of the main screen component are matched with each other to display the same color or gradient color at the edge of the first opening and are used for displaying the icon outline of the Home key, and the edge of the screen of the second auxiliary screen component and the edge of the screen of the main screen component are matched with each other to display the same color or gradient color at the edge of the second opening and are used for displaying the icon outline of the multitask key;

wherein the camera assembly comprises one or more cameras and the light sensor comprises one or more of an ambient light sensor, an infrared light sensor, a flood sensor and a distance sensor.

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