CN112449031B - Screen module and electronic equipment - Google Patents

Abstract

The disclosure relates to a screen module and an electronic device. The screen module includes: a main screen and an auxiliary screen. When the auxiliary screen cooperates in the printing opacity portion on the main screen, the main screen is less than the default with the ascending distance of screen module thickness side along the imaging plane of auxiliary screen to make the difference of the appointed naked eye visual parameter of the imaging plane of main screen and auxiliary screen satisfy the default scope, avoid producing obvious visual difference because of appointed naked eye visual parameter between the imaging plane. In addition, the imaging multiple of the auxiliary screen, the imaging multiple of the main screen and the distance are matched, so that a continuous display effect is formed between the imaging graphs of the main screen and the auxiliary screen. Adopt above-mentioned screen module's electronic equipment's daylighting function module and supplementary screen can cooperate in turn in the printing opacity portion on the main screen, have ensured that electronic equipment's leading daylighting function realizes, have promoted the whole display effect of screen module simultaneously.

Description

Screen module and electronic equipment

Technical Field

The present disclosure relates to the field of electronic technologies, and in particular, to a screen module and an electronic device.

Background

In the related art, the improvement of the screen occupation ratio of the electronic device such as a mobile phone can increase the display effect of the screen and the overall user experience of the electronic device. And daylighting function modules such as leading camera need with set up in order to realize corresponding leading daylighting function in the front of electronic equipment again, and the setting of daylighting function module has taken up the screen at the positive display area of electronic equipment, has influenced the display area and the effect of screen.

Therefore, how to improve the screen display effect of the electronic device on the premise of ensuring the implementation of the front lighting function becomes a hot research problem in the current field.

Disclosure of Invention

The utility model provides a screen module and electronic equipment to ensure that leading daylighting function realizes, promote electronic equipment's screen display effect simultaneously.

According to an embodiment of the present disclosure, a screen module is provided, which includes a main screen and an auxiliary screen, wherein a light-transmitting portion is disposed on the main screen;

when the auxiliary screen is matched with the light transmission part, the distance between the imaging surface of the main screen and the imaging surface of the auxiliary screen in the thickness direction of the screen module is smaller than a preset value, so that the difference of the appointed naked eye visual parameters of the imaging surface of the main screen and the imaging surface of the auxiliary screen meets a preset range;

the imaging multiple of the auxiliary screen, the imaging multiple of the main screen and the distance are matched, so that a continuous display effect is formed between the imaging graph of the main screen and the imaging graph of the auxiliary screen.

Optionally, the specified visual parameters include at least one of a visual angle and a visual focal length formed by the user's eyes relative to the imaging plane of the main screen or the imaging plane of the auxiliary screen.

Optionally, the preset value is less than 2 mm.

Optionally, the screen module further includes a first guide rail disposed below the main screen and corresponding to the light-transmitting portion, and the auxiliary screen and the lighting functional module of the electronic device are movably assembled on the first guide rail to be alternately fitted to the light-transmitting portion.

Optionally, the first guide rail is a linear rail, and a middle portion of the linear rail is located below the light-transmitting portion.

Optionally, the first guide rail includes at least two rails, and a communication position of at least two of the rails corresponds to the light-transmitting portion.

Optionally, the printing opacity portion is including setting up the light trap in the main screen, the screen module still include with the second guide rail of first guide rail intercommunication, the second guide rail extends to in the light trap, and follow the axial setting of light trap.

According to a second aspect of the present disclosure, an electronic device is provided, the electronic device comprising: the screen module and the lighting function module are arranged on the base; the auxiliary screen and the daylighting functional module are arranged below the main screen and are alternately matched with the light transmission part.

Optionally, the electronic device further includes a control main board, where the control main board is electrically connected to the screen module and the lighting function module, respectively, so as to control the lighting function module and the auxiliary screen to alternately fit to the light-transmitting portion according to a control instruction, and/or adjust an imaging multiple of the auxiliary screen according to a distance between an imaging surface of the main screen and an imaging surface of the auxiliary screen.

Optionally, the lighting function module includes at least one of a front camera, a photosensitive sensor, and an auxiliary shooting module.

The technical scheme provided by the embodiment of the disclosure can have the following beneficial effects:

this is disclosed sets up printing opacity portion through the main screen for the screen module to when making supplementary screen cooperate in the printing opacity portion on the main screen, the main screen is less than the default with the imaging surface of supplementary screen along the ascending distance in screen module thickness direction, so that the difference that makes the appointed naked eye visual parameter of the imaging surface of main screen and supplementary screen satisfies the preset range, avoids producing obvious visual difference because of appointed naked eye visual parameter between the imaging surface. In addition, the imaging multiple of the auxiliary screen, the imaging multiple of the main screen and the distance are matched, so that a continuous display effect is formed between the imaging graphs of the main screen and the auxiliary screen. Adopt above-mentioned screen module's electronic equipment's daylighting function module and supplementary screen can cooperate in turn in the printing opacity portion on the main screen, have ensured that electronic equipment's leading daylighting function realizes, have promoted the whole display effect of screen module simultaneously.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the disclosure.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present disclosure and together with the description, serve to explain the principles of the disclosure.

Fig. 1 is a schematic cross-sectional view illustrating a screen module according to an exemplary embodiment of the disclosure;

FIG. 2 is a schematic cross-sectional view illustrating a screen module according to another exemplary embodiment of the disclosure;

fig. 3 is a schematic front view of a screen module according to an exemplary embodiment of the disclosure;

FIG. 4 is a schematic front view of a screen module according to another exemplary embodiment of the disclosure;

FIG. 5 is a schematic cross-sectional view illustrating a screen module according to another exemplary embodiment of the disclosure;

fig. 6 is a schematic cross-sectional structure diagram of an electronic device in an exemplary embodiment of the disclosure.

Detailed Description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The implementations described in the exemplary embodiments below are not intended to represent all implementations consistent with the present disclosure. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the present disclosure, as detailed in the appended claims.

In the related art, the improvement of the screen occupation ratio of the electronic device such as a mobile phone can increase the display effect of the screen and the overall user experience of the electronic device. And daylighting function modules such as leading cameras need with set up in order to realize corresponding leading daylighting function in the front of electronic equipment again, and the setting of daylighting function module has taken the screen at the positive display area of electronic equipment, has influenced the display area and the effect of screen.

Fig. 1 is a schematic structural diagram of a screen module according to an exemplary embodiment of the present disclosure. As shown in fig. 1, the screen module 1 includes a main screen 11 and an auxiliary screen 12, and the main screen 11 is provided with a transparent portion 111. When the auxiliary screen 12 is fitted to the transparent portion 111, the distance d between the imaging surface 112 of the main screen 11 and the imaging surface 121 of the auxiliary screen 12 along the thickness direction of the screen module 1 is smaller than the preset value, so that the difference between the specified visual parameters of the naked eye of the imaging surface 112 of the main screen 11 and the imaging surface 121 of the auxiliary screen 12 satisfies the preset range. The imaging multiple of the auxiliary screen 12, the imaging multiple of the main screen 11 and the distance d are matched, so that a continuous display effect is formed between the imaging graph of the main screen 11 and the imaging graph of the auxiliary screen 12.

Through setting up printing opacity portion 111 for the main screen 11 of screen module 1 to make when auxiliary screen 12 cooperates the printing opacity portion 111 on the main screen 11, the distance d along screen module 1 thickness direction of the imaging plane 121 of main screen 11 and auxiliary screen 12 is less than the default, so that the difference of the appointed naked eye visual parameter of the imaging plane 112 of main screen 11 and the imaging plane 121 of auxiliary screen 12 satisfies the preset scope, avoid producing the visual difference because of appointing the naked eye visual parameter between the imaging plane 112 of main screen 11 and the imaging plane 121 of auxiliary screen 12. In addition, the imaging multiple of the auxiliary screen 12, the imaging multiple of the main screen 11 and the distance d are matched, so that a continuous display effect is formed between the imaging patterns of the main screen 11 and the auxiliary screen 12.

Wherein, the difference of the specified visual parameters of the imaging surface 112 of the main screen 11 and the imaging surface 121 of the auxiliary screen 12 satisfies the preset range, it may be that the specified visual parameters of the imaging surface 112 of the main screen 11 and the imaging surface 121 of the auxiliary screen 12 are consistent or nearly consistent, so that the user does not generate obvious visual difference to the contents projected by the main screen and the auxiliary screen when watching the image contents projected by the screens.

In this case, the continuous display effect is formed between the image patterns of the main screen 11 and the auxiliary screen 12, which includes two aspects, namely, the consistency of the display contents of the two screens, and the consistency (consistency or close consistency) of the size ratio of the display patterns of the two screens. The graphics displayed by the combination of the main screen 11 and the auxiliary screen 12 may be content displayed at or near a complete screen without visually displaying a difference or split in content due to the main screen 11 and the auxiliary screen 12 not belonging to the same screen.

It should be noted that the specified visual parameter of the naked eye may be at least one of a visual angle and a visual focal length formed by the user's naked eye with respect to the imaging plane 112 of the main screen 11 or the imaging plane 121 of the auxiliary screen 12. That is, when the distance d between the imaging plane 112 of the main screen 11 and the imaging plane 121 of the auxiliary screen 12 in the thickness direction of the electronic device 3 is smaller than the preset value, the difference between the angle of view or the visual focal length of the imaging plane 112 of the main screen 11 and the imaging plane 121 of the auxiliary screen 12 based on the distance d satisfies the preset range visually with the naked eye of the user, and no parallax is formed. The visual angle refers to an included angle formed by light rays led out from the upper end, the lower end or the left end and the right end of the main screen 11 or the auxiliary screen 12 at the optical centers of human eyes when the main screen 11 or the main screen 11 is seen by the naked eyes. The smaller the size of the object, the farther from the viewer, the smaller the viewing angle, and vice versa. Visual focus refers to: the distance d from the optical center of the human eye to the focal point of the light collection when the parallel light emitted from the main screen 11 or the auxiliary screen 12 is incident. Since the distance d between the imaging surface 112 of the main screen 11 and the imaging surface 121 of the auxiliary screen 12 is smaller than the preset value, when the human eyes watch the main screen 11 and the auxiliary screen 12, the difference between the visual focal lengths of the two satisfies the preset range, and no parallax is generated.

At this time, it is sufficient to adjust the difference in imaging size between the main screen 11 and the auxiliary screen 12 due to the imaging plane distance d, even if the imaging multiple of the auxiliary screen 12 is slightly larger than that of the main screen 11, so that the imaging images of the auxiliary screen 12 and the main screen 11 achieve a continuous display effect. Wherein, the imaging multiples and the distance d of the auxiliary screen 12 and the main screen 11 are matched.

Wherein, the imaging multiple of the auxiliary screen 12 and the main screen 11 matches with each other with the distance d, and preferably, the ratio of the imaging multiple of the auxiliary screen 12 and the main screen 11 can be set in a positive correlation manner with the distance d, that is, the larger the distance d between the imaging surface 121 of the auxiliary screen 12 and the imaging surface 112 of the main screen 11 is, the larger the ratio of the imaging multiple of the auxiliary screen 12 to the imaging multiple of the main screen 11 is. Preferably, the imaging magnification of the main screen 11 may be constant, and the imaging magnification of the auxiliary screen 12 may be adjusted accordingly based on the distance d.

In the above embodiment, the preset value may be less than 2 mm, or the preset value may be further reduced according to the processing and manufacturing precision of the screen module 1, so as to reduce the influence of the distance d between the imaging surface 112 of the main screen 11 and the imaging surface 121 of the auxiliary screen 12 on the formation of a continuous display effect of the imaging patterns of the main screen 11 and the auxiliary screen 12, which is not limited by the present disclosure.

In the above embodiment, the auxiliary screen 12 and the lighting functional module 2 such as the front camera may be disposed under the main screen 11 at the same time, and move in various ways such as a guide rail and a turntable to alternately fit the light-transmitting portion 111 on the main screen 11, and the fitting relationship between the auxiliary screen 12 and the main screen 11 will be exemplarily described by using the guide rail as an example:

in an embodiment, as shown in fig. 2, the screen module 1 further includes at least one first guide rail 13 disposed below the main screen 11 and corresponding to the light-transmitting portion 111, and the auxiliary screen 12 and the lighting functional module 2 of the electronic device 3 are slidably assembled on the first guide rail 13 to be alternately fitted to the light-transmitting portion 111. When the lighting function is switched to the display function of the screen module 1, the lighting function module 2 leaves the position corresponding to the light-transmitting part 111 along the first guide rail 13, and the auxiliary screen 12 moves to the position corresponding to the light-transmitting part 111 of the first guide rail 13 along the first guide rail 13; when the display function is switched to the lighting function, the lighting function module 2 moves along the first guide rail 13 toward the position corresponding to the light-transmitting portion 111, and the auxiliary screen 12 moves away from the position corresponding to the light-transmitting portion 111 along the first guide rail 13, thereby achieving the alternate matching between the auxiliary screen 12 and the lighting function module 2.

The auxiliary screen 12 and the lighting functional module 2 can be assembled on the first guide rail 13 separately, and the movement corresponding to the position of the auxiliary screen 12 is realized through control, so that the movement and matching flexibility of the auxiliary screen 12 and the lighting functional module 2 are improved. Or, in other embodiments, the screen module 1 may further include a bracket, the lighting function module 2 and the auxiliary screen 12 are assembled on the bracket to form a synchronously moving whole, and the position relationship between the lighting function module 2 and the auxiliary screen 12 fixed on the bracket is fixed, so that the control convenience and the structural stability of the two in the moving process are improved.

As shown in fig. 3, the first guide rail 13 may be a straight rail, and a middle portion of the straight rail is located below the light-transmitting portion 111. The simple structure of straight line track helps reducing the first track and occupies electronic equipment 3 inner space on the one hand, and on the other hand can also simplify the motion path of supplementary screen 12 and daylighting functional module 2, promotes structural reliability and control convenience. The middle part of the linear track corresponds to the light-transmitting part 111, and the lighting function module 2 and the auxiliary screen 12 can be respectively arranged at two sides of the middle part of the linear track, so that the moving distance d of the lighting function module 2 and the auxiliary screen 12 towards the corresponding position of the light-transmitting part 111 is reduced, and the function switching efficiency is improved.

Alternatively, as shown in fig. 4, the first guide rail 13 includes at least two rails, and a communication portion of at least two of the rails corresponds to the light-transmitting portion 111. The arrangement of at least two tracks for the first guide rail 13 can avoid the interference between the auxiliary screen 12 and the lighting functional module 2 in the moving process, and improve the flexibility of movement. Particularly, when the plurality of lighting function modules 2 are assembled on the first guide rail 13, the structural interference in the moving process can be avoided, and the control is convenient.

In the above embodiment, the light-transmitting portion 111 may be a structural member made of a light-transmitting material, or may be a hole structure formed on the main screen 11, which is not limited in the present disclosure.

In another embodiment, as shown in fig. 5, the light-transmitting portion 111 includes a light-transmitting hole disposed in the main screen 11, and the screen module 1 further includes a second guide rail 14 communicating with the first guide rail 13, the second guide rail 14 extending into the light-transmitting hole and being disposed along an axial direction of the light-transmitting hole. The provision of the second guide rail 14 facilitates, for the auxiliary screen 12, axial movement of the auxiliary screen 12 along the light-transmitting holes so as to bring the imaging plane 121 of the auxiliary screen 12 close to the imaging plane 112 of the main screen 11, even so that the imaging plane 121 of the auxiliary screen 12 is coplanar with the imaging plane 112 of the main screen 11. The arrangement of the second guide rail 14 is for the lighting functional module 2, so that the light collection of the lighting functional module 2 is facilitated. For example, when the lighting functional module 2 is a camera, focusing, zooming and other operations can be realized by the movement of the camera along the second guide rail 14, so as to improve the quality of the shot image.

Specifically, when switching from the display function to the lighting function, the auxiliary screen 12 is moved out of the light-transmitting hole along the second guide rail 14, and then moved away from the position corresponding to the light-transmitting hole along the first guide rail 13. The lighting functional module 2 moves to the light-transmitting hole along the first guide rail 13 and then moves along the second track to realize corresponding lighting and shooting. When switching from the lighting function to the display function, the lighting function module 2 is moved out of the light-transmitting hole along the second guide rail 14, and then moved away from the position corresponding to the light-transmitting hole along the first guide rail 13. The auxiliary screen 12 moves to a preset position along the second track after moving to the position of the light-transmitting hole along the first guide rail 13, so as to realize a corresponding display function in cooperation with the main screen 11.

It should be noted that the light-transmitting portion 111 may be disposed in the edge region of the main screen 11 to reduce the influence on the display effect of the central region of the main screen 11 and reduce the influence on the overall display effect of the cooperation effect of the main screen 11 and the auxiliary screen 12. In another embodiment, the light-transmitting portion 111 may be further disposed in a central area of the main screen 11, so as to facilitate the disposition of the first guide rail 13 and the second guide rail 14, increase the installation space of the auxiliary screen 12 and the lighting functional module 2, and reduce the installation difficulty.

In addition, the screen module 1 may further include a cover 15, and the cover 15 covers the main screen 11. The main screen 11 and the auxiliary screen 12 may be one of an OLED (Organic Light-Emitting Diode) and an LCD (Liquid Crystal Display), and may be set and assembled according to specific structures and Display requirements, which is not limited by the present disclosure. For example, an OLED may be selected for the auxiliary screen 12 of the screen module 1 to improve the color contrast and the viewing angle of the auxiliary screen 12, so as to improve the matching effect of the auxiliary screen 12 and the main screen 11. Alternatively, the main screen 11 of the screen module 1 may also adopt an OLED to improve the light and thin performance of the main screen 11, and further reduce the parallax generated when the screen module cooperates with the main screen 11 for display.

The present disclosure further proposes an electronic device, as shown in fig. 6, the electronic device 3 comprising: the lighting function module 2 and the screen module 1, the auxiliary screen 12 and the lighting function module 2 are arranged below the main screen 11 and are alternatively matched with the light-transmitting part 111. The structural configuration of the screen module 1 may be the same as that in the above embodiments, and will not be described herein again.

Through setting up the printing opacity portion 111 for the main screen 11 of screen module 1, and make when auxiliary screen 12 cooperates the printing opacity portion 111 on the main screen 11, the distance d that the imaging surface 111 of main screen 11 and the imaging surface 121 of auxiliary screen 12 are along screen module 1 thickness direction is less than the default, so that the difference that makes the appointed naked eye visual parameter of the imaging surface 111 of main screen 11 and the imaging surface 121 of auxiliary screen 12 satisfies the preset scope, avoid producing the visual difference because of appointed naked eye visual parameter between the imaging surface 111 of main screen 11 and the imaging surface 121 of auxiliary screen 12. In addition, the imaging multiples of the auxiliary screen 12 and the main screen 11 are matched with the distance d, so that a continuous display effect is formed between the imaging patterns of the main screen 11 and the auxiliary screen 12. The lighting function module 2 and the auxiliary screen 12 of the electronic device 3 using the screen module 1 can be alternatively matched with the light-transmitting part 111 on the main screen 11, so that the front lighting function of the electronic device 3 is realized, and the whole display effect of the screen module 1 is improved.

In the above embodiment, the electronic device 3 further includes a control main board electrically connected to the screen module 1 and the lighting function module 2, respectively, to control the lighting function module 2 and the auxiliary screen 12 to be alternately fitted to the light-transmitting portion 111 according to the control instruction, and/or to adjust the imaging multiple of the auxiliary screen 12 according to the distance d between the imaging surface 112 of the main screen 11 and the imaging surface 121 of the auxiliary screen 12.

It should be noted that the lighting functional module 2 may be one or more of a front camera, a photosensitive sensor, an auxiliary shooting functional module, and the like, and the disclosure does not limit this.

When the electronic device 3 includes a plurality of lighting functional modules 2, and the lighting functional modules 2 are two or more of the front camera, the photosensor and the auxiliary shooting functional module, the plurality of lighting functional modules 2 can be assembled with the first guide rail 13 or the second guide rail 14 in a sliding manner, so as to be alternately matched with the light-transmitting portion 111 to realize respective lighting functions. The structure arrangement not only reduces the structural complexity of the electronic equipment 3, but also promotes the functional richness of the electronic equipment 3.

The electronic device 3 may be a mobile phone, a tablet computer, or the like, which is not limited by this disclosure.

Other embodiments of the disclosure will be apparent to those skilled in the art from consideration of the specification and practice of the disclosure disclosed herein. This application is intended to cover any variations, uses, or adaptations of the disclosure following, in general, the principles of the disclosure and including such departures from the present disclosure as come within known or customary practice within the art to which the disclosure pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the disclosure being indicated by the following claims.

It will be understood that the present disclosure is not limited to the precise arrangements described above and shown in the drawings and that various modifications and changes may be made without departing from the scope thereof. The scope of the present disclosure is limited only by the appended claims.

Claims (10)

1. A screen module, comprising: the screen comprises a main screen and an auxiliary screen arranged below the main screen, wherein a light-transmitting part is arranged on the main screen;

when the auxiliary screen is matched with the light transmission part, the distance between the imaging surface of the main screen and the imaging surface of the auxiliary screen along the thickness direction of the screen module is smaller than a preset value, so that the difference of the specified visual parameters of naked eyes of the imaging surface of the main screen and the imaging surface of the auxiliary screen meets a preset range;

the imaging multiple of the auxiliary screen, the imaging multiple of the main screen and the distance are matched, so that a continuous display effect is formed between the imaging graph of the main screen and the imaging graph of the auxiliary screen.

2. The screen module of claim 1, wherein the specified visual parameters include at least one of a visual focus and a viewing angle formed by a user's eyes relative to an imaging plane of the main screen or an imaging plane of the auxiliary screen.

3. The screen module of claim 1, wherein the predetermined value is less than 2 mm.

4. The screen module as recited in claim 1, further comprising at least one first rail disposed below the main screen and corresponding to the light-transmitting portion, wherein the auxiliary screen and the lighting function module of the electronic device are movably assembled on the first rail to be alternatively fitted to the light-transmitting portion.

5. The screen module of claim 4, wherein the first guide rail is a linear rail, and a middle portion of the linear rail is located below the light-transmitting portion.

6. The screen module as recited in claim 4, wherein the first guide comprises at least two rails, wherein a connection position of at least two of the rails corresponds to the light-transmitting portion.

7. The screen module of claim 4, wherein the light transmissive portion comprises a light transmissive hole disposed in the main screen, the screen module further comprising a second rail in communication with the first rail, the second rail extending into the light transmissive hole and disposed along an axial direction of the light transmissive hole.

8. An electronic device, comprising: the screen module and lighting module of any one of claims 1-7; the auxiliary screen and the lighting functional module are arranged below the main screen and are alternatively matched with the light transmission part.

9. The electronic device according to claim 8, further comprising a control motherboard electrically connected to the screen module and the lighting module respectively, for controlling the lighting module and the auxiliary screen to be alternately fitted to the light-transmitting portion according to a control command, and/or adjusting an imaging magnification of the auxiliary screen according to a distance between an imaging surface of the main screen and an imaging surface of the auxiliary screen.

10. The electronic device according to claim 8, wherein the lighting function module comprises at least one of a front camera, a photo sensor, and an auxiliary camera module.

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