CN113542499A - Intelligent light sensing method and structure of mobile phone and mobile phone - Google Patents

Abstract

The invention provides an intelligent light sensation method, a structure and a mobile phone of the mobile phone, wherein a second ambient light sensor is arranged in the middle of a screen of the mobile phone and is matched with a first ambient light sensor at the top of the mobile phone, when the mobile phone is used in a cross screen mode, if one ambient light sensor is shielded to cause lower intensity of received light, the brightness of the screen of the mobile phone is not adjusted, and only if two ambient light sensors are shielded to cause lower intensity of the received light, the brightness of the screen of the mobile phone is dimmed, so that the effect that when the mobile phone is used in a cross screen game, the head/bottom of the mobile phone is held by two hands without the screen becoming dark can be met. Still through setting up the mistake shelters from the incident, at the continuous slip in-process of finger, and two ambient light sensor are all sheltered from this moment in time and lead to received light intensity lower, do not also carry out the brightness control of screen, satisfy the gaming experience.

Description

Intelligent light sensing method and structure of mobile phone and mobile phone

Technical Field

The invention relates to the technical field of smart phones, in particular to a smart light sensing method and structure of a mobile phone and the mobile phone.

Background

The environment light sensor of the existing mobile phone is generally distributed in an area close to the top/bottom of the mobile phone, the automatic dimming function is started in the actual horizontal screen application, and particularly in the process that two hands of a game scene respectively hold the head/bottom of the mobile phone and fingers continuously slide, a light sensing light receiving hole is easily shielded, so that the backlight is suddenly dark/suddenly and suddenly dim, and the experience is influenced.

Disclosure of Invention

In order to overcome the technical defects, the invention aims to provide a smart light sensation method and structure for a mobile phone and the mobile phone, which can prevent a mobile phone screen from being dim and dim when the head/bottom of the mobile phone is held by two hands and fingers continuously slide.

The invention discloses an intelligent light sensation method for a mobile phone, wherein a first ambient light sensor and a second ambient light sensor are respectively arranged at the top and the middle of a screen of the mobile phone; the first ambient light sensor and the second ambient light sensor are connected with a screen brightness adjusting module of the mobile phone; when the intensity of the ambient light received by the first ambient light sensor is smaller than a preset light intensity and the intensity of the ambient light received by the second ambient light sensor is larger than the preset light intensity, the screen brightness adjusting module does not change the current brightness of the screen; when the intensity of the ambient light received by the second ambient light sensor is smaller than the preset light intensity and the intensity of the ambient light received by the first ambient light sensor is larger than the preset light intensity, the screen brightness adjusting module does not change the current brightness of the screen; when the intensity of the ambient light received by the first ambient light sensor is less than a preset light intensity and the intensity of the ambient light received by the second ambient light sensor is less than the preset light intensity, the screen brightness adjusting module reduces the current brightness of the screen.

Preferably, when the intensity of the ambient light received by the first ambient light sensor is smaller than a preset light intensity and the intensity of the ambient light received by the second ambient light sensor is greater than the preset light intensity, the screen brightness adjusting module does not change the current brightness of the screen; when the intensity of the ambient light received by the second ambient light sensor is smaller than the preset light intensity and the intensity of the ambient light received by the first ambient light sensor is larger than the preset light intensity, the screen brightness adjusting module does not change the current brightness of the screen; when the intensity of the ambient light received by the first ambient light sensor is less than a preset light intensity, and the intensity of the ambient light received by the second ambient light sensor is less than the preset light intensity, the adjusting the current brightness of the screen by the screen brightness adjusting module further comprises: when the intensity of the ambient light received by the first ambient light sensor in a first preset time period is smaller than a preset light intensity, and the intensity of the ambient light received by the second ambient light sensor in the first preset time period is larger than the preset light intensity, the screen brightness adjusting module does not change the current brightness of the screen; when the intensity of the ambient light received by the second ambient light sensor in the first preset time period is smaller than the preset light intensity and the intensity of the ambient light received by the first ambient light sensor in the first preset time period is larger than the preset light intensity, the screen brightness adjusting module does not change the current brightness of the screen; when the intensity of the ambient light received by the first ambient light sensor in a first preset time period is smaller than a preset light intensity, and the intensity of the ambient light received by the second ambient light sensor in the first preset time period is smaller than the preset light intensity, the screen brightness adjusting module reduces the current brightness of the screen.

Preferably, when the intensity of the ambient light received by the first ambient light sensor is smaller than a preset light intensity and the intensity of the ambient light received by the second ambient light sensor is greater than the preset light intensity, the screen brightness adjusting module does not change the current brightness of the screen; when the intensity of the ambient light received by the second ambient light sensor is smaller than the preset light intensity and the intensity of the ambient light received by the first ambient light sensor is larger than the preset light intensity, the screen brightness adjusting module does not change the current brightness of the screen; when the intensity of the ambient light received by the first ambient light sensor is less than a preset light intensity, and the intensity of the ambient light received by the second ambient light sensor is less than the preset light intensity, the adjusting the current brightness of the screen by the screen brightness adjusting module further comprises: when the intensity of the ambient light received by the second ambient light sensor within the second preset time period is smaller than the preset light intensity, the event is regarded as a false occlusion event, and the screen brightness adjusting module does not change the current brightness of the screen and the screen brightness during the false occlusion event; the second preset time period is less than the first preset time period.

Preferably, when the intensity of the ambient light received by the second ambient light sensor within the second preset time period is smaller than the preset light intensity, it is determined as a false occlusion event, and the not changing the current brightness of the screen and the screen brightness during the false occlusion event by the screen brightness adjusting module further includes: and when the intensity of the ambient light received by the first ambient light sensor and/or the second ambient light sensor in the second preset time period is less than the preset light intensity, the event is regarded as a false shielding event, and the screen brightness adjusting module does not change the current brightness of the screen and the screen brightness during the false shielding event.

Preferably, the optical anti-shake device further comprises an anti-shake assembly, wherein the anti-shake assembly comprises an optical anti-shake module and an electronic anti-shake module; the first ambient light sensor and the second ambient light sensor are connected with the anti-shake component, and the anti-shake component is connected with the screen brightness adjusting module; when the anti-shake component senses that the mobile phone shakes within a third preset time period, the mobile phone is considered to be a shaking light error event, and the screen brightness adjusting module does not change the current brightness of the screen and the screen brightness during the mistaken shielding event.

The invention also discloses an intelligent light sensation structure of the mobile phone, wherein a first environment light sensation window for transmitting environment light is arranged at the top of the screen of the mobile phone, and a first environment light sensor for sensing the environment light is arranged at the position, corresponding to the first environment light sensation window, on the inner side of the screen of the mobile phone; a second ambient light sensing window for transmitting ambient light is arranged in the middle of the screen of the mobile phone, and a second ambient light sensor for sensing the ambient light is arranged at the inner side of the screen of the mobile phone and at the position corresponding to the second ambient light sensing window; the first ambient light sensor and the second ambient light sensor are arranged on the flexible circuit board and connected with a processor of the mobile phone, and the processor is connected with the screen brightness adjusting module; when the intensity of the ambient light received by the first ambient light sensor in a first preset time period is smaller than a preset light intensity, and the intensity of the ambient light received by the second ambient light sensor in the first preset time period is larger than the preset light intensity, the screen brightness adjusting module does not change the current brightness of the screen; when the intensity of the ambient light received by the second ambient light sensor in the first preset time period is smaller than the preset light intensity and the intensity of the ambient light received by the first ambient light sensor in the first preset time period is larger than the preset light intensity, the screen brightness adjusting module does not change the current brightness of the screen; when the intensity of the ambient light received by the first ambient light sensor in a first preset time period is smaller than a preset light intensity, and the intensity of the ambient light received by the second ambient light sensor in the first preset time period is smaller than the preset light intensity, the screen brightness adjusting module decreases the current brightness of the screen; and when the intensity of the ambient light received by the first ambient light sensor and/or the second ambient light sensor in the second preset time period is less than the preset light intensity, the event is regarded as a false shielding event, and the screen brightness adjusting module does not change the current brightness of the screen and the screen brightness during the false shielding event.

Preferably, the screen of the mobile phone comprises a middle part for displaying the picture and a frame part for not displaying the picture, and the top of the screen of the mobile phone is arranged on the frame part.

Preferably, the second ambient light sensing window is arranged at a central position of a screen of the mobile phone, and the central position is a cross point of diagonal lines of four corners of the middle part.

Preferably, the optical anti-shake device further comprises an anti-shake assembly, wherein the anti-shake assembly comprises an optical anti-shake module and an electronic anti-shake module; the first ambient light sensor and the second ambient light sensor are connected with the anti-shake component, and the anti-shake component is connected with the screen brightness adjusting module; when the anti-shake component senses that the mobile phone shakes within a third preset time period, the mobile phone is considered to be a shaking light error event, and the screen brightness adjusting module does not change the current brightness of the screen and the screen brightness during the mistaken shielding event.

The invention also discloses a mobile phone which comprises the intelligent light sensation structure of the mobile phone.

After the technical scheme is adopted, compared with the prior art, the method has the following beneficial effects:

1. the second ambient light sensor is arranged in the middle of the screen of the mobile phone and is matched with the first ambient light sensor at the top of the mobile phone, when the mobile phone is used in a horizontal screen mode, if one ambient light sensor is shielded to cause that the intensity of received light is low, the brightness of the screen of the mobile phone is not adjusted, and only if two ambient light sensors are shielded to cause that the intensity of the received light is low, the brightness of the screen of the mobile phone is dimmed, so that the effect that when the mobile phone is used for horizontal screen games, the head/bottom of the mobile phone is held by two hands and the screen is not darkened can be met;

2. through setting up the mistake shelters from the incident, at the continuous slip in-process of finger, and two ambient light sensor are all sheltered from this moment in time and lead to received light intensity lower, do not also carry out the brightness control of screen, satisfy the gaming experience.

Drawings

Fig. 1 is a flowchart of a smart light sensing method for a mobile phone according to the present invention;

fig. 2 is a schematic diagram of a smart light sensation structure of a mobile phone provided by the invention.

Wherein: the display device comprises a screen 1, a first environment light sensing windowing 2, a first environment light sensing sensor 3, a second environment light sensing windowing 4, a second environment light sensing sensor 5 and a flexible circuit board 6.

Detailed Description

The advantages of the invention are further illustrated in the following description of specific embodiments in conjunction with the accompanying drawings.

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.

The terminology used in the present disclosure is for the purpose of describing particular embodiments only and is not intended to be limiting of the disclosure. As used in this disclosure 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.

It is to be understood that although the terms first, second, third, etc. may be used herein to describe various information, such information should not be limited to these terms. These terms are only used to distinguish one type of information from another. For example, first information may also be referred to as second information, and similarly, second information may also be referred to as first information, without departing from the scope of the present disclosure. The word "if" as used herein may be interpreted as "at … …" or "when … …" or "in response to a determination", depending on the context.

In the description of the present invention, it is to be understood that the terms "longitudinal", "lateral", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on those shown in the drawings, and are used merely for convenience of description and for simplicity of description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, are not to be construed as limiting the present invention.

In the description of the present invention, unless otherwise specified and limited, it is to be noted that the terms "mounted," "connected," and "connected" are to be interpreted broadly, and may be, for example, a mechanical connection or an electrical connection, a communication between two elements, a direct connection, or an indirect connection via an intermediate medium, and specific meanings of the terms may be understood by those skilled in the art according to specific situations.

In the following description, suffixes such as "module", "component", or "unit" used to denote elements are used only for facilitating the explanation of the present invention, and have no specific meaning in themselves. Thus, "module" and "component" may be used in a mixture.

Referring to fig. 1, the invention discloses an intelligent light sensing method for a mobile phone, wherein a first ambient light sensor and a second ambient light sensor are respectively arranged at the top and the middle of a screen of the mobile phone, and the first ambient light sensor and the second ambient light sensor are connected with a screen brightness adjusting module of the mobile phone. The first ambient light sensor on the top is used for screen saving of the mobile phone when the mobile phone is called, and mistaken touch of the face and the ears on the screen of the mobile phone is prevented. Through set up second ambient light sensor in cell-phone screen middle part, with the cooperation of the first ambient light sensor at cell-phone top, use for horizontal screen mode when the cell-phone, if one of them ambient light sensor is sheltered from when leading to received light intensity lower, then do not carry out the light and shade adjustment of cell-phone screen, only two ambient light sensors are all sheltered from and lead to received light intensity lower, just can dim the luminance of cell-phone screen, with this can satisfy the cell-phone when carrying out horizontal screen recreation, cell-phone head/bottom is held to both hands and the effect that the screen can not darken.

Specifically, the method comprises the following steps:

when a user carries out a horizontal screen game, the head/bottom of the mobile phone is held by two hands, so that the intensity of the ambient light received by the first ambient light sensor is smaller than the preset light intensity, the intensity of the ambient light received by the second ambient light sensor is larger than the preset light intensity, and the current brightness of the screen is not changed by the screen brightness adjusting module;

when the intensity of the ambient light received by the second ambient light sensor is smaller than the preset light intensity and the intensity of the ambient light received by the first ambient light sensor is larger than the preset light intensity, the screen brightness adjusting module does not change the current brightness of the screen;

when the intensity of the ambient light received by the first ambient light sensor is smaller than the preset light intensity and the intensity of the ambient light received by the second ambient light sensor is smaller than the preset light intensity, the ambient light is considered to be dark at the moment, and then the current brightness of the screen is reduced by the screen brightness adjusting module.

Through the cooperation of the first environment light sensor at the top of the mobile phone screen and the second environment light sensor at the middle part, the condition that the screen brightness is dimmed under the condition that the actual environment light is darker can be met, the condition that the screen brightness becomes low when the first environment light sensor at the top/bottom is sheltered from when the mobile phone carries out the horizontal screen game can be prevented, and the game experience of a user is improved.

Preferably, in order to prevent the excessive sensitivity of the screen brightness adjustment, the invention sets a time limit for the brightness adjustment of the screen, specifically:

when a user carries out a horizontal screen game, the head/bottom of the mobile phone is held by two hands, so that the intensity of the ambient light received by the first ambient light sensor in a first preset time period is smaller than a preset light intensity, and the intensity of the ambient light received by the second ambient light sensor in the first preset time period is larger than the preset light intensity, and the current brightness of the screen is not changed by the screen brightness adjusting module;

when the intensity of the ambient light received by the second ambient light sensor in the first preset time period is less than the preset light intensity and the intensity of the ambient light received by the first ambient light sensor in the first preset time period is greater than the preset light intensity, the screen brightness adjusting module does not change the current brightness of the screen;

when the intensity of the ambient light received by the first ambient light sensor in the first preset time period is smaller than the preset light intensity, and the intensity of the ambient light received by the second ambient light sensor in the first preset time period is smaller than the preset light intensity, the ambient light is considered to be darker at the moment, and then the current brightness of the screen is reduced by the screen brightness adjusting module.

Preferably, when playing a horizontal screen game on a mobile phone, a user holds the head/bottom of the mobile phone with both hands and continuously slides fingers in the middle of the screen, and at this time, the intensity of the ambient light received by both the first ambient light sensor and the second ambient light sensor is smaller than the preset light intensity, but this operation is a normal operation in the game process, so in order to prevent the brightness of the mobile phone screen from being overlooked in the normal operation of the game, the invention further sets a mistaken blocking event mechanism, specifically:

when the fingers continuously slide in the middle of the screen, the intensity of the ambient light received by the second ambient light sensor in the second preset time period is smaller than the preset light intensity, the event is considered to be a mistaken shielding event, and the screen brightness adjusting module does not change the current brightness of the screen and the screen brightness during the mistaken shielding event.

Since the gesture operation of the game is generally fast, the second preset time period is generally set to be smaller than the first preset time period.

Preferably, because there is a fast false occlusion event caused by gesture change or position change at the top/bottom of the mobile phone, the false occlusion event of the two ambient light sensors is considered in the present invention, that is, when the intensity of the ambient light received by the first ambient light sensor in the second preset time period is smaller than the preset light intensity, or the intensity of the ambient light received by the second ambient light sensor in the second preset time period is smaller than the preset light intensity, or the intensities of the ambient light received by the first ambient light sensor and the second ambient light sensor in the second preset time period are smaller than the preset light intensity, both the false occlusion events are considered, and the screen brightness adjustment module does not change the current brightness of the screen and the screen brightness during the false occlusion event.

Preferably, when the mobile phone shakes, the light intensity received by the ambient light sensor changes due to the change of the position of the light source, so that in order to prevent the screen brightness change caused by the shaking of the mobile phone from being excessively sensitive, the anti-shaking device is further provided, the anti-shaking device comprises an optical anti-shaking module and an electronic anti-shaking module, the first ambient light sensor and the second ambient light sensor are connected with the anti-shaking module, and the anti-shaking module is connected with the screen brightness adjusting module. When the anti-shake component senses that the mobile phone shakes within a third preset time period, the mobile phone is considered as a shaking light error event, and the screen brightness adjusting module does not change the current brightness of the screen and the screen brightness during the mistaken shielding event.

Referring to fig. 2, the invention further discloses an intelligent light sensation structure of a mobile phone, wherein a first environment light sensation window 2 for transmitting environment light is arranged at the top or the bottom of a screen 1 of the mobile phone, and a first environment light sensor 3 for sensing the environment light is arranged at a position, corresponding to the first environment light sensation window 2, inside the screen 1 of the mobile phone and is used for sensing the environment light transmitted through the first environment light sensation window 2. The middle part of the screen 1 of the mobile phone is provided with a second environment light sensing windowing 4 used for transmitting the environment light, and the corresponding positions of the inner side of the screen 1 of the mobile phone and the second environment light sensing windowing 4 are provided with a second environment light sensor 5 used for sensing the environment light which is transmitted through the second environment light sensing windowing 4.

The first ambient light sensor 3 and the second ambient light sensor 5 are arranged on the flexible circuit board 6 and connected with a processor of the mobile phone, and the processor is connected with the brightness adjusting module of the screen 1. The processor performs the following logical operations, and adjusts the mobile phone screen 1 through the screen 1 brightness adjusting module by the sensing light intensity of the first ambient light sensor 3 and the second ambient light sensor 5.

Specifically, the method comprises the following steps:

when a user carries out a horizontal screen game, the head/bottom of the mobile phone is held by two hands, so that the intensity of the ambient light received by the first ambient light sensor 3 in a first preset time period is smaller than a preset light intensity, and the intensity of the ambient light received by the second ambient light sensor 5 in the first preset time period is larger than the preset light intensity, and the brightness adjusting module of the screen 1 does not change the current brightness of the screen 1;

when the intensity of the ambient light received by the second ambient light sensor 5 in the first preset time period is smaller than the preset light intensity and the intensity of the ambient light received by the first ambient light sensor 3 in the first preset time period is larger than the preset light intensity, the brightness adjusting module of the screen 1 does not change the current brightness of the screen 1;

when the intensity of the ambient light received by the first ambient light sensor 3 in the first preset time period is smaller than the preset light intensity, and the intensity of the ambient light received by the second ambient light sensor 5 in the first preset time period is smaller than the preset light intensity, it is considered that the ambient light is really dark at this time, the brightness adjusting module of the screen 1 reduces the current brightness of the screen 1;

when the finger continuously slides on the screen 1, the intensity of the ambient light received by the first ambient light sensor 3 and/or the second ambient light sensor 5 in the second preset time period is smaller than the preset light intensity, it is considered as a false occlusion event, and the brightness adjustment module of the screen 1 does not change the current brightness of the screen 1 and the brightness of the screen 1 during the false occlusion event.

Through the structure and the processing logic of the processor, the mobile phone screen 1 cannot be overlooked when a user holds the head/bottom of the mobile phone with two hands and fingers slide continuously, and the game experience of the user is improved.

Preferably, the screen 1 of the mobile phone comprises a middle part for displaying pictures and a frame part for not displaying pictures, and the top of the screen 1 of the mobile phone is arranged on the frame part, i.e. is not a picture display area and is more likely to be a double-hand holding part.

Preferably, when a game is played, the area of the screen 1 that is frequently touched is only the periphery of the screen 1, and the central area is usually the core area of the screen display, and no or few gesture operations are performed, so the second ambient light sensing windowing window 4 is arranged at the central position of the screen 1 of the mobile phone, and the central position is the intersection of the diagonal lines of the four corners of the middle part.

Preferably, the optical anti-shake device further comprises an anti-shake assembly, wherein the anti-shake assembly comprises an optical anti-shake module and an electronic anti-shake module. First ambient light sensor 3, second ambient light sensor 5 are connected with the anti-shake subassembly, and the anti-shake subassembly is connected with screen 1 brightness adjustment module. When the anti-shake component senses that the mobile phone shakes within a third preset time period, the mobile phone is considered as a shaking light error event, and the screen 1 brightness adjusting module does not change the current brightness of the screen 1 and the brightness of the screen 1 during the mistaken shielding event.

The invention also discloses a mobile phone which comprises the intelligent light sensation structure of the mobile phone, and the screen 1 of the mobile phone cannot be ignored in the processes that the mobile phone is used for a horizontal screen game, the head part/the bottom part of the mobile phone is held by two hands and fingers slide continuously.

It should be noted that the embodiments of the present invention have been described in terms of preferred embodiments, and not by way of limitation, and that those skilled in the art can make modifications and variations of the embodiments described above without departing from the spirit of the invention.

Claims (10)

1. An intelligent light sensation method for a mobile phone is characterized in that a first ambient light sensor and a second ambient light sensor are respectively arranged at the top and the middle of a screen of the mobile phone; the first ambient light sensor and the second ambient light sensor are connected with a screen brightness adjusting module of the mobile phone;

when the intensity of the ambient light received by the first ambient light sensor is smaller than a preset light intensity and the intensity of the ambient light received by the second ambient light sensor is larger than the preset light intensity, the screen brightness adjusting module does not change the current brightness of the screen;

when the intensity of the ambient light received by the second ambient light sensor is smaller than the preset light intensity and the intensity of the ambient light received by the first ambient light sensor is larger than the preset light intensity, the screen brightness adjusting module does not change the current brightness of the screen;

when the intensity of the ambient light received by the first ambient light sensor is less than a preset light intensity and the intensity of the ambient light received by the second ambient light sensor is less than the preset light intensity, the screen brightness adjusting module reduces the current brightness of the screen.

2. The smart light sensation method for the mobile phone according to claim 1, wherein when the intensity of the ambient light received by the first ambient light sensor is smaller than a preset light intensity and the intensity of the ambient light received by the second ambient light sensor is larger than the preset light intensity, the screen brightness adjustment module does not change the current brightness of the screen; when the intensity of the ambient light received by the second ambient light sensor is smaller than the preset light intensity and the intensity of the ambient light received by the first ambient light sensor is larger than the preset light intensity, the screen brightness adjusting module does not change the current brightness of the screen; when the intensity of the ambient light received by the first ambient light sensor is less than a preset light intensity, and the intensity of the ambient light received by the second ambient light sensor is less than the preset light intensity, the adjusting the current brightness of the screen by the screen brightness adjusting module further comprises:

when the intensity of the ambient light received by the first ambient light sensor in a first preset time period is smaller than a preset light intensity, and the intensity of the ambient light received by the second ambient light sensor in the first preset time period is larger than the preset light intensity, the screen brightness adjusting module does not change the current brightness of the screen;

when the intensity of the ambient light received by the second ambient light sensor in the first preset time period is smaller than the preset light intensity and the intensity of the ambient light received by the first ambient light sensor in the first preset time period is larger than the preset light intensity, the screen brightness adjusting module does not change the current brightness of the screen;

when the intensity of the ambient light received by the first ambient light sensor in a first preset time period is smaller than a preset light intensity, and the intensity of the ambient light received by the second ambient light sensor in the first preset time period is smaller than the preset light intensity, the screen brightness adjusting module reduces the current brightness of the screen.

3. The smart light sensation method for the mobile phone according to claim 1, wherein when the intensity of the ambient light received by the first ambient light sensor is smaller than a preset light intensity and the intensity of the ambient light received by the second ambient light sensor is larger than the preset light intensity, the screen brightness adjustment module does not change the current brightness of the screen; when the intensity of the ambient light received by the second ambient light sensor is smaller than the preset light intensity and the intensity of the ambient light received by the first ambient light sensor is larger than the preset light intensity, the screen brightness adjusting module does not change the current brightness of the screen; when the intensity of the ambient light received by the first ambient light sensor is less than a preset light intensity, and the intensity of the ambient light received by the second ambient light sensor is less than the preset light intensity, the adjusting the current brightness of the screen by the screen brightness adjusting module further comprises:

when the intensity of the ambient light received by the second ambient light sensor within the second preset time period is smaller than the preset light intensity, the event is regarded as a false occlusion event, and the screen brightness adjusting module does not change the current brightness of the screen and the screen brightness during the false occlusion event;

the second preset time period is less than the first preset time period.

4. The method as claimed in claim 3, wherein when the intensity of the ambient light received by the second ambient light sensor within the second predetermined time period is less than the predetermined light intensity, it is determined as a false occlusion event, and the not changing the current brightness of the screen and the screen brightness during the false occlusion event by the screen brightness adjustment module further comprises:

and when the intensity of the ambient light received by the first ambient light sensor and/or the second ambient light sensor in the second preset time period is less than the preset light intensity, the event is regarded as a false shielding event, and the screen brightness adjusting module does not change the current brightness of the screen and the screen brightness during the false shielding event.

5. The smart light sensation method for the mobile phone according to claim 1, further comprising an anti-shake component, wherein the anti-shake component comprises an optical anti-shake module and an electronic anti-shake module; the first ambient light sensor and the second ambient light sensor are connected with the anti-shake component, and the anti-shake component is connected with the screen brightness adjusting module;

when the anti-shake component senses that the mobile phone shakes within a third preset time period, the mobile phone is considered to be a shaking light error event, and the screen brightness adjusting module does not change the current brightness of the screen and the screen brightness during the mistaken shielding event.

6. A smart light sensation structure of a mobile phone is characterized in that a first ambient light sensation window for transmitting ambient light is arranged at the top of a screen of the mobile phone, and a first ambient light sensor for sensing the ambient light is arranged at the position, corresponding to the first ambient light sensation window, on the inner side of the screen of the mobile phone; a second ambient light sensing window for transmitting ambient light is arranged in the middle of the screen of the mobile phone, and a second ambient light sensor for sensing the ambient light is arranged at the inner side of the screen of the mobile phone and at the position corresponding to the second ambient light sensing window;

the first ambient light sensor and the second ambient light sensor are arranged on the flexible circuit board and connected with a processor of the mobile phone, and the processor is connected with the screen brightness adjusting module;

when the intensity of the ambient light received by the first ambient light sensor in a first preset time period is smaller than a preset light intensity, and the intensity of the ambient light received by the second ambient light sensor in the first preset time period is larger than the preset light intensity, the screen brightness adjusting module does not change the current brightness of the screen;

when the intensity of the ambient light received by the second ambient light sensor in the first preset time period is smaller than the preset light intensity and the intensity of the ambient light received by the first ambient light sensor in the first preset time period is larger than the preset light intensity, the screen brightness adjusting module does not change the current brightness of the screen;

when the intensity of the ambient light received by the first ambient light sensor in a first preset time period is smaller than a preset light intensity, and the intensity of the ambient light received by the second ambient light sensor in the first preset time period is smaller than the preset light intensity, the screen brightness adjusting module decreases the current brightness of the screen;

and when the intensity of the ambient light received by the first ambient light sensor and/or the second ambient light sensor in the second preset time period is less than the preset light intensity, the event is regarded as a false shielding event, and the screen brightness adjusting module does not change the current brightness of the screen and the screen brightness during the false shielding event.

7. The smart light sensation structure of the mobile phone as claimed in claim 6, wherein the screen of the mobile phone comprises a frame part for displaying a picture and a frame part for not displaying a picture, and the top of the screen of the mobile phone is arranged on the frame part.

8. The mobile phone smart light sensation structure according to claim 6, wherein the second ambient light sensation window is arranged at a central position of a screen of the mobile phone, and the central position is an intersection of diagonal lines of four corners of the middle part.

9. The smart light sensation structure of the mobile phone according to claim 6, further comprising an anti-shake assembly, wherein the anti-shake assembly comprises an optical anti-shake module and an electronic anti-shake module;

the first ambient light sensor and the second ambient light sensor are connected with the anti-shake component, and the anti-shake component is connected with the screen brightness adjusting module;

when the anti-shake component senses that the mobile phone shakes within a third preset time period, the mobile phone is considered to be a shaking light error event, and the screen brightness adjusting module does not change the current brightness of the screen and the screen brightness during the mistaken shielding event.

10. A mobile phone, characterized by comprising the smart light sensation structure of the mobile phone as claimed in the above claims 6-9.

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