CN210007736U - Electronic device - Google Patents

Abstract

electronic equipment provided by the embodiment of the application, the electronic equipment includes a 829 4 display screen and a rotating assembly, a display screen has a 1 th light-transmitting area, a display screen has a display surface, the rotating assembly is arranged on the side of the th display screen departing from the display surface, the rotating assembly includes a driving mechanism, a second display screen and a camera lens, and the second display screen and the camera lens are all connected with the driving mechanism, wherein at least of the driving mechanism drives the second display screen and the camera lens to move, so that the second display screen can display in the th light-transmitting area and display in the th light-transmitting area, or the camera lens can display in the th light-transmitting area and acquire an optical signal penetrating through the th light-transmitting area.

Description

Electronic device

Technical Field

The application relates to the technical field of electronics, in particular to kinds of electronic equipment.

Background

With the development of communication technology, electronic devices such as smart phones are becoming more and more popular. In the using process of the electronic equipment, the electronic equipment can display the picture by using the display screen of the electronic equipment.

In the related art, in order to obtain a larger screen occupation ratio, the display area and the non-display area of the electronic device are more and more increased, and the front camera area is set to be a non-display area which is not displayed, so that the display screen has a larger non-display area.

SUMMERY OF THE UTILITY MODEL

The embodiment of the application provides kinds of electronic equipment, can improve the screen of display screen and account for than.

The embodiment of the present application provides kinds of electronic equipment, it includes:

an th display screen, the th display screen having a th light-transmitting region, the th display screen having a display surface;

the rotating assembly is arranged on the side, deviating from the display surface , of the th display screen and comprises a driving mechanism, a second display screen and a camera lens, and the second display screen and the camera lens are connected with the driving mechanism;

the driving mechanism drives at least of the second display screen and the camera lens to move, so that the second display screen is opposite to the light-transmitting area and is displayed through the light-transmitting area, or the camera lens is opposite to the light-transmitting area and acquires an optical signal through the light-transmitting area.

The embodiment of the application provides an electronic equipment, its display screen has light transmission zone, it is equipped with rotating assembly to deviate from th display screen display surface side, rotating assembly's second display screen and camera lens all are connected with actuating mechanism, at least in actuating mechanism drive second display screen and the camera lens remove, so that the relative light transmission zone of second display screen, and see through light transmission zone shows, or so that the relative light transmission zone of camera lens, and acquire the light signal who sees through light transmission zone.

Drawings

It is obvious that the drawings in the following description are only embodiments of the present application, and other drawings can be obtained by those skilled in the art without inventive labor.

Fig. 1 is an structural schematic diagram of an electronic device according to an embodiment of the present application.

Fig. 2 is a schematic structural diagram of a rotating assembly in an electronic device according to an embodiment of the present disclosure.

Fig. 3 is a schematic structural diagram of a second rotating assembly in an electronic device according to an embodiment of the present disclosure.

Fig. 4 is an exploded schematic structural diagram of a rotating assembly in an electronic device according to an embodiment of the present disclosure.

Fig. 5 is a schematic cross-sectional structural diagram of a rotating assembly in an electronic device according to an embodiment of the present disclosure.

Fig. 6 is a schematic structural diagram of a second electronic device according to an embodiment of the present application.

Fig. 7 is a third schematic structural diagram of an electronic device according to an embodiment of the present application.

Fig. 8 is a fourth schematic structural diagram of an electronic device according to an embodiment of the present application.

Fig. 9 is a fifth structural schematic diagram of an electronic device according to an embodiment of the present application.

Fig. 10 is a sixth structural schematic diagram of an electronic device according to an embodiment of the present application.

Fig. 11 is a seventh structural schematic diagram of an electronic device according to an embodiment of the present application.

Fig. 12 is a schematic diagram of a control logic of a rotating assembly according to an embodiment of the present disclosure.

Detailed Description

The technical solutions in the embodiments of the present application will be described clearly and completely with reference to the drawings in the embodiments of the present application, it is obvious that the described embodiments are only partial embodiments of the present application , rather than all embodiments.

The embodiment of the application provides electronic devices, which will be described in detail below.

Referring to fig. 1 and fig. 2, fig. 1 is a structural schematic view of an electronic device according to an embodiment of the present disclosure, and fig. 2 is a structural schematic view of a rotating assembly in an electronic device according to an embodiment of the present disclosure, in which the electronic device 100 includes a th display screen 10 and a rotating assembly 20.

The th display screen 10 has a th light transmitting region 102 and the th display screen 10 also has a display surface 111.

The rotating assembly 20 is arranged on the th display screen 10 side departing from the display surface 111 , the rotating assembly 20 comprises a driving mechanism 62, a second display screen 64 and a camera lens 66, and the second display screen 64 and the camera lens 66 are both connected with the driving mechanism 62.

The driving mechanism 62 drives at least of the second display screen 64 and the camera lens 66 to move, so that the second display screen 64 is opposite to the light-transmitting area 102 and is displayed through the light-transmitting area 102, or so that the camera lens 66 is opposite to the light-transmitting area 102 and acquires an optical signal transmitted through the light-transmitting area 102.

Electronic equipment 100 can show through display screen 10 and second display screen 64 jointly when showing, improves the screen and accounts for the ratio, realizes the display of full face, and electronic equipment 100 can obtain the light that sees through light-permeable zone 102 through camera lens 66 when autodyne, and then realizes autodyne.

It should be noted that, the electronic device 100 selects of the second display screen 64 and the camera lens 66 to operate at the same time of , for example, when the second display screen 64 and the th display screen 10 display images together, the camera lens 66 does not operate, and when the camera lens 66 acquires an optical signal outside the electronic device 100 through the th light-transmitting area 102, the second display screen 64 does not operate.

The th Display screen 10 forms a Display surface of the electronic device 100, and is used for displaying information such as images and texts, the th Display screen 10 may be a Liquid Crystal Display (LCD) or an Organic Light-Emitting Diode (OLED) Display screen.

the display screen 10 may be a profile screen, the the display screen 10 may include a display area 11 and a non-display area 12, wherein the display area 11 performs the display function of the 0 th display screen 10 for displaying images, texts, etc. the non-display area 12 does not display information, the non-display area 12 may include a 2 th transparent area 102 where 1 small blocks are not displayed, the th transparent area 102 may be located at the top of the th display screen 10, such as the middle of the top, the side of the top , etc., the th transparent area 102 may be a display area 11 on both sides and bottom, the th transparent area 102 may also be located in the middle of the display area 11, i.e., the th transparent area 102 is a display area 11 on the periphery, the th transparent area 102 may also be located at other positions as needed, such as the middle, bottom, side, etc. of the th display screen 10.

The second display screen 64 can display images through the th light-transmitting area 102 to assist the th display screen 10 in displaying or matching with the th display screen 10, the second display screen 64 can be displayed independently, that is, the displayed content is unrelated to the content displayed by the th display screen 10, the second display screen 64 and the th display screen 10 can also be displayed together, that is, the displayed content can be the same as , and the content displayed by the second display screen 64 just makes up for the missing part of the th display screen 10.

The th display screen 10 has a th transparent area 102, a th transparent area 102 is a non-display area 12 of the th display screen 10. the th transparent area 102 is a high-transmittance area, the th display screen 10 has a cover plate, a display layer and the like, the display layer is a through hole corresponding to the th transparent area 102, and the cover plate covers the display layer and the th transparent area 102.

The camera module of the electronic device 100 includes a camera lens 66, a sensor, a digital processor chip, a camera circuit board, and the like, wherein when the camera lens 66 is opposite to the th light transmission region 102, the camera module obtains an external light signal transmitted through the th light transmission region 102 through the camera lens 66, and any of the sensor, the digital processor chip, and the camera circuit board may be opposite to the th light transmission region 102 or not opposite to the th light transmission region 102, and when the camera lens 66 takes a picture towards the th light transmission region 102, the camera lens can be used as a camera lens of a front-facing camera.

In , the second display screen 64 and the camera lens 66 face the same side, and the driving mechanism 62 can drive the second display screen 64 and the camera lens 66 to move, so that of the second display screen 64 and the camera lens 66 are opposite to the light-transmitting region 102 and are opposite to the display region 11.

Specifically, the second display screen 64 and the camera lens 66 face the same side, which means that the second display screen 64 faces a side for displaying, and the camera lens 66 also obtains an external light signal from a side, for example, the second display screen 64 faces the same side as the display screen 10, the camera lens 66 faces the 111 side of the display screen 10, and the camera lens 66 obtains a light signal from the display screen 10 outside the 111 side.

The driving mechanism 62 can simultaneously drive the second display screen 64 and the camera lens 66 to move, so that of the second display screen 64 and the camera lens 66 can move relative to the 8295 th transparent area 102 and th relative to the display area 11, a functional device (a second display screen or a camera lens) relative to the th transparent area 102 works, for example, the second display screen 64 can display an image through the th transparent area 102 relative to the th transparent area 102, the camera lens 66 can correspond to the display area 11, the second display screen 64 can display an image through the 583 th transparent area 102 to assist the th display screen 10 to display or cooperate with the th display screen 10 to display, and the camera lens does not work.

With continued reference to fig. 2, the rotating assembly 20 may move the second display screen 64 and the camera lens 66 through the rotating shaft 622. specifically, the rotating assembly 20 includes the rotating shaft 622, the rotating shaft 622 is located between the second display screen 64 and the camera lens 66, and the driving mechanism 62 drives the second display screen 64 and the camera lens 66 to rotate around the rotating shaft 622, so that of the second display screen 64 and the camera lens 66 are opposite to the transparent area 102 and is opposite to the display area 11.

The second display screen 64 and the camera lens 66 are both connected with the rotating shaft 622, and the motor drives the rotating shaft 622 to rotate, so as to drive the second display screen 64 and the camera lens 66 to rotate around the rotating shaft 622, so that of the second display screen 64 and the camera lens 66 are opposite to the transparent area 102 and of the display area 11, that is, the second display screen 64 and the camera lens 66 can be switched to be opposite to the transparent area 102, and the second display screen 64 or the camera module opposite to the transparent area 102 can work.

Referring to fig. 3 to fig. 5, fig. 3 is a second structural schematic diagram of a rotating assembly in an electronic device according to an embodiment of the present disclosure, fig. 4 is an exploded structural schematic diagram of the rotating assembly in the electronic device according to the embodiment of the present disclosure, and fig. 5 is a cross-sectional structural schematic diagram of the rotating assembly in the electronic device according to the embodiment of the present disclosure. The pivoting assembly 20 also enables movement of the second display screen 64 and the camera lens 66 via the drive gear 6282. Specifically, the rotating assembly 20 includes a transmission gear 6282, a display screen bracket 6284 and a camera bracket 6286, the second display screen 64 is fixedly disposed on the display screen bracket 6284, and the camera lens 66 is fixedly disposed on the camera bracket 6286.

The transmission gear 6282 is disposed between the display screen bracket 6284 and the camera bracket 6286, the display screen bracket 6284 is provided with a transmission rack 6285 on the side opposite to the transmission gear 62 , the camera bracket 6286 is provided with a second transmission rack 6282 on the side opposite to the transmission gear 62 , the transmission rack 6285 and the second transmission rack 6282 are both in fit connection with the transmission gear 6282, the transmission gear 6282 can drive the display screen bracket 6284 to move along the direction parallel to the display surface 111 of the display screen 10 through the transmission rack 6285, and the transmission gear 6282 can drive the camera bracket 6286 to move along the direction parallel to the display surface 111 of the display screen 10 through the second transmission rack 6282, so that of the second display screen 64 and the camera lens 66 are opposite to the light transmission region 102 and the are opposite to the display region 11.

The transmission gear 6282 is matched with the display screen bracket 6284 and the camera bracket 6286 to move the second display screen 64 and the camera lens 66 and move in a direction parallel to the th display screen 10 display surface 111, so that of the second display screen 64 and the camera lens 66 are opposite to the other of the transparent area 102 and the display area 11, that is, the second display screen 64 and the camera lens 66 can be switched to be opposite to the transparent area 102 and the second display screen 64 or the camera module opposite to the transparent area 102 is enabled to work, the other opposite to the display area 11 is disabled, and the opposite display area 11 can also be understood as being arranged at the back of the display area 11 of the display screen 10.

It should be noted that at least items of a light supplement lamp, a flash lamp, a distance sensor, a proximity sensor, a light sensor, a receiver and the like can be arranged on the camera support where the camera lens is arranged, at least items of a distance sensor, a proximity sensor, a light sensor, a receiver and the like can be arranged on the display support where the second display screen is arranged, and certainly, other functional devices do not need to be arranged on the camera support and/or the display support.

In other embodiments, please refer to fig. 6, and fig. 6 is a schematic diagram of a second structure of the electronic device according to the embodiment of the present disclosure, in which the second display screen 64 and the camera lens 66 in the electronic device 100 face to the same side, the camera lens 66 faces to the -th transparent area 102, the second display screen 64 is located between the camera lens 66 and the -th display screen 10, and the driving mechanism 62 drives the second display screen 64 to switch between the -th transparent area 102 and the opposite display area 11.

Specifically, the second display screen 64 and the camera lens 66 face the same side, which means that the second display screen 64 faces a side for displaying, and the camera lens 66 also obtains an external light signal from a side, for example, the second display screen 64 faces the same side as the display screen 10, the camera lens 66 faces the 111 side of the display screen 10, and the camera lens 66 obtains a light signal from the display screen 10 outside the 111.

The camera lens 66 directly faces the light transmission area 102, the second display screen 64 is arranged between the camera lens 66 and the 0 display screen 10, the driving mechanism 62 drives the second display screen 64 to move, and the driving mechanism 62 drives the second display screen 64 to switch between the light transmission area 102 and the display area 11 which are opposite to the .A second display screen 64 works when the driving mechanism 62 drives the second display screen 64 to be opposite to the light transmission area 102, the second display screen 64 can display images through the light transmission area 102 to assist the display screen 10 to display or display in cooperation with the display screen 10, and the camera module does not work.

With continued reference to fig. 6, the rotating assembly 20 may move the second display 64 through the rotating shaft 622. specifically, the rotating assembly 20 includes the rotating shaft 622, the driving mechanism 62 is connected to the second display 64 through the rotating shaft 622, and the driving mechanism 62 drives the second display 64 to rotate around the rotating shaft 622, so that the second display 64 is switched between the opposite transparent areas 102 and the opposite display areas 11.

The second display screen 64 is connected to the rotating shaft 622, and the motor drives the rotating shaft 622 to rotate, so as to drive the second display screen 64 to rotate around the rotating shaft 622, so that the second display screen 64 is switched between the relatively th transparent area 102 and the relatively display area 11, that is, when the second display screen 64 is switched between the relatively th transparent area 102, the second display screen 64 is displayed through the th transparent area 102, and when the second display screen 64 is switched between the relatively display area 11, the second display screen 64 no longer shields the camera lens 66, and the camera lens 66 can obtain an external optical signal penetrating through the th transparent area 102.

Referring to fig. 7, fig. 7 is a schematic structural diagram of an electronic device according to an embodiment of the present disclosure, in which the rotating assembly 20 can further realize the movement of the second display 64 through the sliding rail 624, specifically, the rotating assembly 20 includes the sliding rail 624, the second display 64 is disposed on the sliding rail 624, and the driving mechanism 62 drives the second display 64 to slide on the sliding rail 624, so that the second display 64 is switched between the opposite light-transmitting area 102 and the opposite display area 11.

The second display 64 is connected to the slide rail 624, and the motor drives the second display 64 to move along the slide rail 624, so that the second display 64 switches between the -th transparent area 102 and the -th transparent area 102, that is, when the second display 64 is opposite to the -th transparent area 102, the second display 64 displays through the -th transparent area 102, when the second display 64 is opposite to the -th transparent area 11, the second display 64 no longer shields the camera lens 66, and the camera lens 66 can obtain an external optical signal through the -th transparent area 102.

Referring to fig. 8, fig. 8 is a schematic diagram illustrating a fourth structure of an electronic device according to an embodiment of the present disclosure. Referring to fig. 3 and 4, the rotating assembly 20 can also move the second display 64 through a transmission gear 6282. Specifically, the rotating assembly 20 includes a transmission gear 6282, a display screen bracket 6284 and an auxiliary bracket 6288, and the second display screen 64 is fixedly disposed on the display screen bracket 6284.

The main difference between this embodiment and the example of fig. 3 to 3 is that a transmission gear 6282 is disposed between a display screen support 6284 and an auxiliary support 6288, the display screen support 6284 is provided with a transmission rack 6285 on the side opposite to the transmission gear 6282 , the auxiliary support 6288 is provided with a third transmission rack 6287 on the side opposite to the transmission gear 6282 , both the transmission rack 6285 and the third transmission rack are cooperatively connected with the transmission gear 6282, and the transmission gear 6282 can drive the auxiliary support to move along the direction parallel to the display surface 111 of the display screen 10 through the transmission rack 6285, so that the second display screen 64 is switched between the relative light-transmitting region 102 and the relative display region 11.

The transmission gear 6282 cooperates with the display bracket 6284 and the auxiliary bracket 6288 to move the second display 64 and move in a direction parallel to the display surface 111 of the display 10 of the second , so that the second display 64 is switched between the th transparent region 102 and the opposite display region 11. that is, when the second display 64 is opposite to the th transparent region 102, the second display 64 displays through the th transparent region 102. when the second display 64 is opposite to the display region 11, the second display 64 no longer shields the camera lens 66, the camera lens 66 can acquire an external light signal transmitted through the th transparent region 102. the camera lens 66 does not need to move, and the auxiliary bracket 6288 can be made small and not occupy space.

At least items of a distance sensor, a proximity sensor, a light sensor, a receiver and the like can be arranged on the display screen bracket where the second display screen is arranged.

In the above embodiment in which the second display screen 64 is disposed between the camera lens 66 and the th display screen 10, because a space for placing the second display screen 64 is further provided between the camera lens 66 and the th display screen 10, it can also be understood that a large gap is provided between the camera lens 66 and the th display screen 10, a camera motor can be disposed in a camera module corresponding to the camera lens 66, and when the camera lens 66 is used as a front camera, the front camera also has focusing and zooming functions, so as to improve the shooting quality of the front camera.

Referring to fig. 9, fig. 9 is a schematic view of a fifth structure of an electronic device according to an embodiment of the present disclosure, the electronic device 100 further includes a rear case 50, a accommodating space is formed between the th display screen 10 and the rear case 50, and the rotating assembly 20 is disposed in the accommodating space.

The rotating assembly 20 can be arranged in the electronic device 100 to switch the second display screen 64 and the camera lens 66, wherein light-transmitting areas 102 of are arranged relative to the display screen 10 according to requirements, for example, when the second display screen 64 is required to display, the second display screen 64 is arranged relative to the light-transmitting area 102, and the second display screen 64 is driven to display information so as to assist or match the display screen 10, when the camera lens 66 is required, the camera lens 66 is arranged relative to the light-transmitting area 102, and the camera module is driven to work, and external light signals penetrating through the light-transmitting area 102 are acquired through the camera lens 66, so that the effects of self-shooting and the like are achieved.

The th display screen 10 can have a cover plate and a display panel, the display panel has a through hole, the cover plate covers the display panel, the cover plate also covers the through hole, the th light-transmitting area corresponds to the through hole, it can also be understood that the th light-transmitting area is the area where the through hole is located, the second display screen or the camera lens displays images or obtains outside light through the through hole and the cover plate corresponding to the through hole.

The display panel may further include a th portion and a second portion, the light transmittance of the th portion is greater than that of the second portion, and the 0 th portion is a 1 th light transmission region, it may also be understood that no through hole is provided on the display panel, the th portion and the second portion share the same substrates, if the display panel is a liquid crystal display panel, the th portion and the second portion share the th substrate and the second substrate which are oppositely disposed, and no liquid crystal for display, TFT circuits, etc. are provided corresponding to the th portion, if the display panel is an OLED display panel, the th portion and the second portion share the th substrate and the second substrate which are oppositely disposed, and no organic light emitting material for display, TFT circuits, etc. are provided corresponding to the th portion.

In other embodiments, please refer to fig. 10, where fig. 10 is a sixth schematic structural diagram of an electronic device according to an embodiment of the present disclosure, the rear housing 50 has a second transparent region 502, the rotating assembly 20 includes a turning mechanism 626 in addition to the driving mechanism 62 for driving the second display screen 64 and the camera lens 66 to move in the above embodiments, and the turning mechanism 626 can switch the second display screen 64 and the camera lens 66 between the first transparent region and the second transparent region 502.

The rotating assembly 20 may include a turning mechanism 626, and the turning mechanism 626 can turn the second display screen 64 and the camera lens 66 inside the accommodating space so that the second display screen 64 and the camera lens 66 are switched between the opposite th light-transmitting area 102 and the opposite second light-transmitting area 502.

When the camera lens 66 faces the second light-transmitting area 502, the camera lens 66 can be used as a rear camera, the front camera and the rear camera can share camera lenses 66, and certainly can share camera modules, camera lenses 66 or camera modules can be shared by the front camera and the rear camera, camera lenses 66 or camera modules can be saved, the front camera in the related art adopts a camera module with weak focusing function because of space requirements and other reasons, in the embodiment, the front camera and the rear camera share camera modules, a camera module with strong functions can be adopted, the front camera also has focusing and zooming functions, the front camera is a camera module with strong functions, but the front camera in the related art has weak functions and cannot have poor self-photographing effect, and the second display screen 64 faces the second light-transmitting area 502, and can be used as an auxiliary display screen for displaying missed call information, self-calling time, missed call information and the like.

The second display 64 and the camera lens 66 can be used as large functional modules, and the turning mechanism 626 includes a turning motor, and the turning motor can drive the large functional modules to turn over integrally.

The rotating assembly 20 can directly drive the second display screen 64 and the camera lens 66 to turn over, for example, the second display screen 64 and the camera lens 66 are arranged in the middle of the accommodating space, and the accommodating space has a larger space, so that the second display screen 64 and the camera lens 66 turn over.

Referring to fig. 11, fig. 11 is a seventh structural schematic diagram of the electronic device according to the embodiment of the present disclosure, the rotating assembly 20 further includes a moving mechanism 640, the moving mechanism 640 can drive the second display screen 64 and the camera lens 66 to move along a direction perpendicular to the display surface 111 of the display screen 10, before driving the second display screen 64 and the camera lens 66 to turn, the moving mechanism 640 drives the second display screen 64 and the camera lens 66 to move along a direction perpendicular to the display surface 111 of the display screen 10, for example, the second display screen 64 and the camera lens 66 face the transparent region 102, the second display screen 64 and the camera lens 66 move away from the transparent region 102 before driving the second display screen 64 and the camera lens 66 to turn, so that the second display screen 64 and the camera lens 66 face the second transparent region 102, after turning, the second display screen 64 and the camera lens 66 can be controlled to move toward the second transparent region 502, the second display screen 64 and the camera lens 66 can be controlled to turn immediately after turning, and the camera lens 64 and the camera lens 66 can be controlled to move through the second transparent region 502.

Similarly, the second display screen 64 and the camera lens 66 face the second light-transmitting area 502, the second display screen 64 and the camera lens 66 may be directly driven to turn over, or the second display screen 64 and the camera lens 66 may be driven to move in a direction away from the second light-transmitting area 502 first, and then the second display screen 64 and the camera lens 66 are driven to turn over, so that the second display screen 64 and the camera lens 66 face the th light-transmitting area 102, the second display screen 64 and the camera lens 66 may be controlled to work immediately after turning over, or the second display screen 64 and the camera lens 66 may be driven to move towards the th light-transmitting area 102 through the moving mechanism 640 after turning over, and then the second display screen 64 and the camera lens 66 are controlled to work.

The display screen 10's display layer has the through-hole, moving mechanism 640 drives the second display screen 64 to get into in this through-hole, the display surface of display screen 10 and the display surface of second display screen 64 are at the same horizontal plane or roughly at the same horizontal plane, display screen 10 and second display screen 64 do not have the difference in height, display screen 10 and second display screen 64 cooperate when showing with content, almost can not see the concatenation display, reach the display effect of screens, really reach full screen display.

The second transparent region 502 of the rear housing 50 may be a through hole, or may be an transparent protective layer, such as a highly transparent protective layer formed of glass, resin, plastic, or the like.

It should be noted that the moving mechanism 640 of the rotating assembly 20 may not be engaged with the tilting mechanism, that is, in embodiments, the rotating assembly 20 does not have the tilting mechanism, but the moving mechanism 640 is engaged with the driving mechanism, the second display screen and the camera lens 66, etc. the moving mechanism 640 can drive the second display screen 64 and the camera lens 66 to move in the direction perpendicular to the display surface 111 of the th display screen 10. for example, when the second display screen 64 is opposite to the th transparent area 102, the moving mechanism drives the second display screen 64 closer to the th transparent area 102, so that the display surfaces of the second display screen 64 and the th display screen 10 are on the same display surface . if the th display screen 10 has a through hole corresponding to the th transparent area 102, the second display screen 64 can be moved into the through hole, the display surface of the th display screen 10 and the display surface of the second display screen 64 can be moved into the through hole at the same height as that of the first display screen 897 or substantially at the same height as that of the th display screen and the second display screen 64, the second display screen 64 can reach the height of the second display area of the zoom camera lens 5848, and the second display screen 102, and the third display screen can reach the same height of the third display screen 99 th display screen 24, and the third display screen can reach the same height of the third display screen 6, and the same height of the third display screen 99 th camera lens, and the third display screen 24, and the third display screen 99, and the third display.

The second transparent region 502 of the rear housing 50 may be a through hole, or may be an transparent protective layer, such as a highly transparent protective layer formed of glass, resin, plastic, or the like.

When the processor receives a th display instruction, the processor is used for controlling the driving mechanism to set the second display screen relative to the th light transmission area so that the image of the second display screen is displayed through the th light transmission area, and when the processor receives a th shooting instruction, the processor is used for controlling the driving mechanism to set the camera lens relative to the th light transmission area so that the camera lens acquires an optical signal penetrating through the th light transmission area.

It should be noted that, the camera module in which the camera lens is located in the above embodiments may be a plurality of camera modules, such as 3, 4 or more, where each camera modules correspond to camera lenses, and the camera modules may be provided with a plurality of camera modules as needed, for example, the camera modules include a main camera module, a sub-camera module, a depth-of-field camera module, a blurring camera module, and the like, and for another example, the camera module may include or two or more of a main camera module, a sub-camera module, a 3D structured light module, and a TOF module, and the TOF module is a time-of-flight 3D imaging module, where the plurality of camera modules may be arranged in rows or rows, or may be parallel to a top edge or a side edge of a th display screen, and the plurality of camera modules may be provided in circles, delta shapes, squares, and the like.

The electronic equipment further comprises a processor, wherein the processor is used for detecting whether a control instruction is acquired or not, when an th display instruction is received, the driving mechanism sets the second display screen relative to the th light transmission area so that an image of the second display screen is displayed through the th light transmission area, and when a th shooting instruction is received, the driving mechanism sets the camera lens relative to the th light transmission area so that the camera lens acquires an optical signal penetrating the th light transmission area.

Referring to fig. 12, fig. 12 is a schematic diagram of a rotating element control logic according to an embodiment of the present disclosure, wherein rotating element control logics are further provided in an electronic device, the electronic device may include any electronic devices in the foregoing embodiments, and a rotating element is disposed in the electronic device, and the rotating element control logic specifically includes:

101, detecting whether a control instruction is acquired.

102, when receiving the th display command, the driving mechanism sets the second display screen opposite to the th light-transmitting area so that the image of the second display screen is displayed through the th light-transmitting area.

Electronic equipment includes display screen and rotating assembly, and the display screen has light-permeable area, and the display screen has the display surface, and rotating assembly sets up and deviates from display surface side in the display screen, and rotating assembly includes actuating mechanism, second display screen and camera lens, and second display screen and camera lens all are connected with actuating mechanism.

The second display screen can display images through the th light-transmitting area to assist the th display screen to display or cooperate with the th display screen to display, the second display screen can be displayed independently, namely, the displayed content is unrelated to the content displayed by the th display screen, the second display screen and the th display screen can also be displayed together, namely, the displayed content can be the same as content, and the content displayed by the second display screen just makes up for the missing part of the th display screen.

103, when receiving the th shooting instruction, the driving mechanism sets the camera lens relative to the th light transmission area so that the camera lens acquires a light signal transmitted through the th light transmission area.

The camera lens can acquire an external light signal penetrating through the th light-transmitting area and obtain an image according to the external light signal.

Electronic equipment is when showing, can show through display screen and second display screen jointly, it accounts for the ratio to improve the screen, realize the display of full screen, when electronic equipment is when autodyne, can acquire the external light signal who passes through light transmission area through the camera lens, and then realize autodyne, so, electronic equipment both can satisfy the auto heterodyne function through the relative light transmission area of camera lens, can also realize through the relative light transmission area of display screen that display screen and second display screen display image jointly, realize the effect of full screen.

In embodiments, the pivot assembly includes a pivot shaft, the pivot shaft being located between the second display screen and the camera lens.

When an th display instruction is received, the driving mechanism drives the rotating shaft to rotate, and drives the second display screen to be arranged relative to the th light-transmitting area, so that an image of the second display screen is displayed through the th light-transmitting area.

When an th shooting instruction is received, the driving mechanism drives the rotating shaft to rotate, and the camera lens is driven to be arranged relative to the th light transmission area, so that the camera lens acquires a light signal penetrating through the th light transmission area.

, the rotating assembly includes a transmission gear, a display screen bracket and a camera bracket, the second display screen is fixed on the display screen bracket, the camera lens is fixed on the camera bracket, the transmission gear is arranged between the display screen bracket and the camera bracket, the display screen bracket is provided with a transmission rack on the side opposite to the transmission gear , the camera bracket is provided with a second transmission rack on the side opposite to the transmission gear , the transmission rack and the second transmission rack are both connected with the transmission gear in a matching way, the transmission gear can drive the display screen bracket to move along the direction parallel to the display screen display surface through the transmission rack, the transmission gear can drive the camera bracket to move along the direction parallel to the display screen display surface through the second transmission rack, the rotating assembly control logic specifically includes:

when an th display instruction is received, the driving mechanism drives the transmission gear to rotate, the second display screen is driven to be arranged relative to the th light-transmitting area, and therefore images of the second display screen are displayed through the th light-transmitting area.

When an th shooting instruction is received, the driving mechanism drives the transmission gear to rotate, and drives the camera lens to be arranged relative to the th light transmission area, so that the camera lens acquires a light signal penetrating through the th light transmission area.

In , the display screen further includes a display area, the second display screen and the camera lens face the same side, the camera lens faces the light transmitting area, and the second display screen is located between the camera lens and the display screen.

When an th display instruction is received, the driving mechanism drives the second display screen to move, and the second display screen is arranged relative to the th light-transmitting area, so that an image of the second display screen is displayed through the th light-transmitting area.

When an th shooting instruction is received, the driving mechanism drives the second display screen to move, and the second display screen is arranged relative to the display area, so that the camera lens acquires an optical signal penetrating through the th light transmission area.

The driving mechanism drives the second display screen to move through a rotating shaft, a sliding rail, a transmission gear and the like.

The driving mechanism drives the second display screen to move through the rotating shaft, and specifically comprises a rotating assembly, a driving mechanism and a driving mechanism, wherein the rotating assembly comprises a rotating shaft, the driving mechanism is connected with the second display screen through the rotating shaft, and the driving mechanism drives the second display screen to rotate around the rotating shaft, so that the second display screen is switched between a relatively th light transmission area and a relatively displayed area.

The driving mechanism drives the second display screen to move through the rotating shaft, and specifically comprises a rotating assembly, a second display screen and a driving mechanism, wherein the rotating assembly comprises a sliding rail, the second display screen is arranged on the sliding rail, and the driving mechanism drives the second display screen to slide on the sliding rail, so that the second display screen is switched between a relative th light transmission area and a relative display area.

The driving mechanism drives the second display screen to move through the transmission gear, and specifically comprises a rotating assembly, a display screen support and an auxiliary support, wherein the second display screen is fixedly arranged on the display screen support, the transmission gear is arranged between the display screen support and the auxiliary support, a transmission rack is arranged on the side, opposite to the transmission gear , of the display screen support, a third transmission rack is arranged on the side, opposite to the transmission gear , of the auxiliary support, the transmission rack and the third transmission rack are both in matched connection with the transmission gear, and the transmission gear can drive the auxiliary support to move in a direction parallel to a display surface of the display screen through the transmission rack, so that the second display screen is switched between a light-transmitting area and an opposite display area.

The electronic equipment further comprises a rear shell, wherein a containing space is formed between the th display screen and the rear shell, the rotating assembly is arranged in the containing space, the rear shell is provided with a second light transmitting area, the rotating assembly comprises a turnover mechanism, the turnover mechanism can switch the second display screen and the camera lens between the th light transmitting area and the second light transmitting area, and the rotating assembly control logic specifically comprises:

when a rear shooting instruction is received, the rotating mechanism is controlled to enable the camera lens to be opposite to the second light transmission area, if the camera lens faces the rear shell, the camera lens is enabled to be opposite to the second light transmission area through the driving mechanism, if the camera lens faces the th display screen, the camera lens is firstly turned over, and then the camera lens is enabled to be opposite to the second light transmission area.

When a front shooting instruction is received, the rotating mechanism is controlled to enable the lens of the camera to be opposite to the th light transmission area.

If the camera lens faces the th display screen, the camera lens is opposite to the th light-transmitting area through the driving mechanism, if the camera lens faces the rear shell, the camera lens is firstly turned over, and then the camera lens is opposite to the th light-transmitting area.

In the embodiment, before the camera lens is turned, the camera lens can be moved backwards through the moving mechanism, and after the camera lens is turned over, the camera lens is moved forwards through the moving mechanism, wherein when the camera lens is opposite to the light-transmitting area, the camera lens is moved backwards, namely, towards the direction away from the light-transmitting area, and when the camera lens is moved forwards, the camera lens is moved towards the light-transmitting area.

The rotating assembly further comprises a moving mechanism but not a turnover mechanism, the moving mechanism can drive the second display screen and the camera lens to move along the direction vertical to the display surface of the th display screen, and the rotating assembly control logic specifically comprises:

when the second display screen is opposite to the th light-transmitting area, the control moving mechanism drives the second display screen to move towards the th light-transmitting area;

when the camera lens is opposite to the th light-transmitting area, the movement control mechanism does not move or drives the camera lens to move away from the th light-transmitting area.

For example, when the second display screen is opposite to the transparent area, the moving mechanism drives the second display screen to be closer to the transparent area, so that the display surfaces of the second display screen and the th display screen are actually on the same display surface, if the th display screen is provided with a through hole corresponding to the th transparent area, the second display screen can be moved into the through hole, the display surface of the th display screen and the display surface of the second display screen are on the same horizontal plane or approximately on the same horizontal plane, the th display screen and the second display screen have no height difference, and when the th display screen and the second display screen are matched to display the same content, the spliced display can be hardly seen, the display effect of the same screens can be achieved, the real full-screen display can be achieved.

The present embodiment further provides storage media, where the storage media stores a computer program, and when the computer program runs on a computer, the computer executes the rotating assembly control logic described in any embodiment.

It should be noted that, as one of ordinary skill in the art will appreciate, all or part of the steps in the various control logics of the above embodiments may be implemented by instructing the relevant hardware through a computer program, which may be stored in a computer-readable storage medium, which may include, but is not limited to: read Only Memory (ROM), Random Access Memory (RAM), magnetic or optical disks, and the like.

The electronic devices provided by the embodiments of the present application are described in detail above, and the principles and implementations of the present application are described herein using specific examples, which are provided only to help understanding of the present application. Meanwhile, for those skilled in the art, according to the idea of the present application, there may be variations in the specific embodiments and the application scope, and in summary, the content of the present specification should not be construed as a limitation to the present application.

Claims (11)

1. An electronic device of the type , comprising:

   an th display screen, the th display screen having a th light-transmitting region, the th display screen having a display surface;

   the rotating assembly is arranged on the side, deviating from the display surface , of the th display screen and comprises a driving mechanism, a second display screen and a camera lens, and the second display screen and the camera lens are connected with the driving mechanism;

   the driving mechanism drives at least of the second display screen and the camera lens to move, so that the second display screen is opposite to the light-transmitting area and is displayed through the light-transmitting area, or the camera lens is opposite to the light-transmitting area and acquires an optical signal through the light-transmitting area.
2. 2. The electronic device of claim 1, wherein the th display screen further comprises a display area, the second display screen and the camera lens facing a same side;

   the driving mechanism drives the second display screen and the camera lens to move, so that of the second display screen and the camera lens are opposite to the light-transmitting area and of the second display screen and the camera lens are opposite to the display area.
3. 3. The electronic device of claim 2, wherein the rotating assembly comprises a rotating shaft between the second display screen and the camera lens, and wherein the driving mechanism drives the second display screen and the camera lens to rotate around the rotating shaft, so that of the second display screen and the camera lens are opposite to the transparent area and of the display area.
4. 4. The electronic device of claim 2, wherein the rotating assembly comprises a transmission gear, a display screen bracket and a camera bracket, the second display screen is fixedly arranged on the display screen bracket, and the camera lens is fixedly arranged on the camera bracket;

   drive gear set up in the display screen support with between the camera support, the display screen support is relative the drive gear side is equipped with the transmission rack, the camera support is relative the drive gear side is equipped with the second transmission rack, the transmission rack with the second transmission rack all with drive gear cooperation is connected, drive gear can pass through transmission rack drive the display screen support is along the parallel the direction of display screen display surface removes, drive gear can pass through the drive of second transmission rack the camera support is along the parallel the direction of display screen display surface removes, so that the second display screen with in the camera lens are relative the light-transmitting zone is in addition relative the display area.
5. 5. The electronic device of claim 1, wherein the th display screen further comprises a display area, the second display screen and the camera lens facing a same side;

   the camera lens faces the th light-transmitting area, the second display screen is located between the camera lens and the th display screen, and the driving mechanism drives the second display screen to switch between the th light-transmitting area and the display area.
6. 6. The electronic device of claim 5, wherein the rotating assembly comprises a rotating shaft, and the driving mechanism is connected to the second display screen through the rotating shaft, and the driving mechanism drives the second display screen to rotate around the rotating shaft so as to switch the second display screen between the th transparent area and the display area.
7. 7. The electronic device of claim 5, wherein the rotating assembly comprises a sliding rail, the second display screen is disposed on the sliding rail, and the driving mechanism drives the second display screen to slide on the sliding rail, so as to switch the second display screen between the th transparent area and the display area.
8. 8. The electronic device of claim 5, wherein the rotating assembly comprises a transmission gear, a display screen bracket and an auxiliary bracket, and the second display screen is fixedly arranged on the display screen bracket;

   drive gear set up in the display screen support with between the auxiliary stand, the display screen support is relative the drive gear side is equipped with the driving rack, the auxiliary stand is relative the drive gear side is equipped with the third driving rack, the driving rack with the third driving rack all with the drive gear cooperation is connected, drive gear can pass through the driving rack drive the auxiliary stand is along the parallel the direction of display screen display surface removes, so that the second display screen is relative the light zone with relative switch between the display area.
9. 9. The electronic device of any of , further comprising a rear housing, wherein a accommodating space is formed between the display screen and the rear housing, the rotating assembly is disposed in the accommodating space, and the rear housing has a second light-transmitting region;

   the rotating assembly comprises a turnover mechanism, and the turnover mechanism can switch the second display screen and the camera lens between a position opposite to the th light transmission area and a position opposite to the second light transmission area.
10. 10. The electronic device of claim 1, wherein the rotating assembly further comprises a moving mechanism capable of driving the second display screen and the camera lens to move in a direction perpendicular to the display surface of the th display screen.
11. 11. The electronic device of claim 1, further comprising a processor coupled to the rotating assembly;

    when the processor receives an th display instruction, the processor is used for controlling the driving mechanism to arrange the second display screen relative to the th light-transmitting area so that an image of the second display screen is displayed through the th light-transmitting area;

    when the processor receives an th shooting instruction, the processor is used for controlling the driving mechanism to arrange the camera lens relative to the th light transmission area, so that the camera lens acquires a light signal penetrating through the th light transmission area.

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