CN109119044A - Electronic equipment - Google Patents

Abstract

The application provides a kind of electronic equipment.The electronic equipment includes shell, first light sensation component, second light sensation component, processor and display screen, spaced first through hole and the second through-hole are offered on the shell, the first light sensation component is by the first through hole sense ambient light brightness to obtain first environment light data, the second light sensation component is by the second through-hole sense ambient light line brightness to obtain second environment light data, the processor determines ambient light data according to the first environment light data and the second environment light data, and the processor adjusts the brightness of the display screen based on the ambient light data.The electronic equipment of the application can be improved processor and adjust based on the ambient light data accuracy when brightness of display screen.

Description

Electronic equipment

Technical field

This application involves technical field of communication equipment more particularly to a kind of electronic equipment.

Background technique

Electronic equipment generally includes light sensation component and display screen.Light sensation component is used for the light intensity of sense ambient light.It is aobvious Display screen generally includes viewing area and non-display area, and the viewing area of display screen is commonly used in information such as display text, picture, videos. The non-display area of the display screen is arranged around the viewing area, to cover some cablings in light sensation component and display screen. However, the light sensation component in traditional electronic equipment is easy to be hidden when electronic equipment is in transverse screen mode or vertical screen mode Gear, to influence detection of the light sensation component to environment light.

Summary of the invention

This application provides a kind of electronic equipment, the electronic equipment includes shell, the first light sensation component, the second light sensation group Part, processor and display screen offer spaced first through hole and the second through-hole, the first light sensation group on the shell Part obtains first environment light data by the first through hole sense ambient light brightness, and the second light sensation component passes through second Through-hole sense ambient light line brightness is to obtain second environment light data, and the processor is according to the first environment light data and institute It states second environment light data and determines ambient light data, and the processor adjusts the display screen based on the ambient light data Brightness.

Electronic equipment provided by the present application, since the electronic equipment includes the first light sensation component, the second light sensation component, institute The first light sensation component is stated by the first through hole sense ambient light brightness to obtain first environment light data, second light sensation Component is by the second through-hole sense ambient light line brightness to obtain second environment light data, and the processor is according to first ring Border light data and the second environment light data determine ambient light data, and the processor is adjusted based on the ambient light data Save the brightness of the display screen so that the processor adjust the display screen brightness and electronic equipment locating for environmental light intensity Degree more matches, and can be avoided influences light sensation due at least one through-hole in first through hole and the second through-hole is blocked when by user Detection of the component to environment light, and then improve accurate when processor adjusts brightness of display screen based on the ambient light data Property.

Detailed description of the invention

Fig. 1 is the schematic perspective view for the electronic equipment that the application first embodiment provides.

Fig. 2 is the top view for the electronic equipment that the application first embodiment provides.

Fig. 3 is the diagrammatic cross-section in Fig. 1 along I-I line.

Fig. 4 is the circuit diagram for the electronic equipment that the application first embodiment provides.

Fig. 5 is the enlarged structure schematic diagram at II shown in Fig. 3.

Fig. 6 is the enlarged structure schematic diagram at III shown in Fig. 3.

Fig. 7 is the schematic perspective view for the electronic equipment that the application second embodiment provides.

Fig. 8 is the top view for the electronic equipment that the application second embodiment provides.

Fig. 9 is the schematic perspective view for the electronic equipment that the application 3rd embodiment provides.

Figure 10 is the top view for the electronic equipment that the application 3rd embodiment provides.

Specific embodiment

Preferred embodiment of the present application is illustrated with reference to the accompanying drawing, so as to can be easier to the advantages of the application with feature In being readily appreciated by one skilled in the art, apparent explicitly defined to be made to the protection scope of the application.

Also referring to 1 to Fig. 3, Fig. 1 is the schematic perspective view for the electronic equipment that the application first embodiment provides； Fig. 2 is the top view for the electronic equipment that the application first embodiment provides；Fig. 3 is the diagrammatic cross-section in Fig. 1 along I-I line.Institute Stating electronic equipment 1 can be any equipment for having sense ambient light.Such as: tablet computer, mobile phone, electronic reader, individual The smart machines such as computer.The electronic equipment 1 includes shell 10, the first light sensation component 20, the second light sensation component 30, display screen 40 and processor 50.Spaced first through hole 13 and the second through-hole 14 are opened up on the shell 10.The first light sensation component 20 by the 13 sense ambient light brightness of first through hole to obtain first environment light data.The second light sensation component 30 passes through Second through-hole, 14 sense ambient light brightness is to obtain second environment light data.The processor 50 is according to the first environment light number Ambient light data is determined according to second environment light data, and the processor 50 adjusts described show based on the ambient light data The brightness of display screen 40.

The shell 10, which encloses, is set as accommodating space, and the accommodating space is for accommodating the first light sensation component 20, described Second light sensation component 30, the processor 50 and the display screen 40.The display screen 40 commonly used to display text, picture, Video etc..The display screen 40 can may be organic light-emitting diode (OLED) display screen for liquid crystal display.The display screen 40 It can be only screen having a display function, or be integrated with the screen of display and touch function.

Referring to Figure 4 together, Fig. 4 is the circuit diagram for the electronic equipment that the application first embodiment provides.Described One light sensation component 20, the second light sensation component 30 and the display screen 40 are electrically connected with the processor 50.

The electronic equipment 1 can obtain electronics by the first light sensation component 20, the second light sensation component 30 more fully hereinafter Ambient light data around equipment 1 avoids the problem that single light sensation component obtains ambient light data and is not enough, so that the place It is more accurate to manage the ambient light data that device 50 determines, and then improves the processor 50 based on the ambient light data to adjust The accuracy when brightness of display screen 40 is stated, more conducively user's operation uses the electronic equipment 1.

The environment light number can be implemented by any one following mode: the processor 50 is according to first ring The average value of border light data and the second environment light data is as the ambient light data；Alternatively, 50 basis of processor The larger value in the first environment light data and the second environment light data is as the ambient light data；Alternatively, described Processor 50 is according to the smaller value in the first environment light data and the second environment light data as the environment light number According to.Specifically, the processor 50 obtains the environment according to the first environment light data and the second environment light data Concrete scene when light data is described below.

When the absolute value of the first environment light data and the difference of the second environment light data is less than or equal to first When preset difference value, then the processor 50 using the average value of the first environment light data and the second environment light data as The ambient light data.When the absolute value of the first environment light data and the difference of the second environment light data is less than or waits When first preset difference value, then show the difference ratio between the first environment light data and the second environment light data It is smaller, that is, the ring that the brightness for the environment light that the first light sensation component 20 senses is sensed with the second light sensation component 30 The similar brightness of border light.For example, first preset difference value can be but be not limited only to for 5 luxs.Wherein, 1 Le gram This be 1 lumen luminous flux uniform irradiation on 1 square metre of area generated illumination.

When the absolute value of the first environment light data and the difference of the second environment light data is greater than or equal to second When preset difference value, and one in the first environment light data and the second environment light data is greater than or equal to the first benchmark Numerical value, another is less than the first numerical benchmark, then, the processor 50 is according to the first environment light data and described second The larger value in ambient light data determines ambient light data.Wherein, second preset difference value is greater than first preset difference value. When one in the first environment light data and the second environment light data is greater than or equal to the first numerical benchmark, in addition one It is a less than the first numerical benchmark, and the absolute value of the difference of the first environment light data and the second environment light data is greater than Or when being equal to the second preset difference value, then show the difference ratio between the first environment light data and the second environment light data Larger, at this point, one in the first through hole 13 or second through-hole 14 is blocked, another is not blocked.It lifts For example, second preset difference value can be but be not limited only to for 20 luxs.Specifically, when the first through hole 13 is hidden When gear, the environment light around the electronic equipment 1 is transmitted to the light of the first light sensation component 20 via the first through hole 13 It is less than the light intensity that the second light sensation component 30 is transmitted to via second through-hole 14 by force, at this point, the first environment light Data are far smaller than the second environment light data.Correspondingly, when second through-hole 14 is blocked, the electronic equipment 1 The environment light of surrounding is less than via the light intensity that the second through-hole 14 is transmitted to the second light sensation component 30 via the first through hole 13 are transmitted to the light intensity of the first light sensation component 20, at this point, the second environment light data is far smaller than the first environment Light data.

The processor 50 is determined according to the smaller value in the first environment light data and the second environment light data Ambient light data.Specifically, when the first environment light data and the second environment light data are all larger than the second numerical benchmark, And the absolute value of the difference of the first environment light data and the second environment light data be greater than the third preset difference value when, Then at this point, the first through hole 13 and second through-hole 14 are not blocked, and one of through-hole is closer in the external world Light source.The second numerical benchmark and described first are all larger than with the first environment light data and the second environment light data below The difference of ambient light data and the second environment light data, which is greater than for the third preset difference value, to be illustrated, at this point, institute State first through hole 13 compared to second through-hole 14 closer to light source in the external world when, the environment around the electronic equipment 1 Light is greater than via the light intensity that first through hole 13 is transmitted to the first light sensation component 20 to be transmitted to via second through-hole 14 The light intensity of the second light sensation component 30, the first environment light data will be far longer than the second environment light data.It is described Processor 50 determines ambient light data according to the smaller value of the first environment light data and the second environment light data.

In the present embodiment, the brightness of the display screen 40 is set as multiple grades, and the processor 50 is based on the environment Light data adjusts the brightness degree of the display screen 40.Specifically, the memory 60 (please referring to Fig. 4) of the electronic equipment 1 In be stored with the corresponding relationship of ambient light data section and display-screen brightness grading, the processor 50 is by the ambient light data It is compared with the ambient light data section in the corresponding relationship, which environment light number is belonged to the determination ambient light data According to section, and finds out the ambient light data section belonging to the ambient light data and correspond to display-screen brightness grading, root It is investigated that the display-screen brightness grading found adjusts the brightness of display screen.In the present embodiment, in the ambient light data section Ambient light data it is bigger, then the display-screen brightness grading is bigger, the more big then described processor of the display-screen brightness grading The brighter display of 50 display screens 40 adjusted according to the display-screen brightness grading.

For example, the brightness degree of the display screen 40 includes 6 grades, in the present embodiment, the display screen 40 Brightness grade is sequentially increased from 1 grade to 6.When the ambient light data section is the lux 0-10, the display-screen brightness grading It is 1 grade.If at this point, when the ambient light data is any number in the lux 0-10, the processor 50 adjusts described The brightness of display screen 40 is 1 grade.When the ambient light data section is the lux 11-50, the display-screen brightness grading is 2 Grade.If at this point, when the ambient light data is any number in the lux 11-50, the processor 50 adjusts described aobvious The brightness of display screen 40 is 2 grades.When the ambient light data section is the lux 51-300, the display-screen brightness grading is 3 Grade.If at this point, when the ambient light data is any number in the lux 51-300, the processor 50 adjusts described The brightness of display screen 40 is 3 grades.When the ambient light data section is the lux 301-1000, the display-screen brightness grading It is 4 grades.If at this point, when the ambient light data is any number in the lux 301-1000, the processor 50 is adjusted The brightness of the display screen 40 is 4 grades.When the ambient light data section is the lux 1001-5000, the display screen is bright Spending grade is 5 grades.If at this point, the ambient light data be the lux 1001-5000 in any number when, the processing The brightness that device 50 adjusts the display screen 40 is 5 grades.It is described when the ambient light data is 5001 and 5001 or more lux Brightness of display screen is 6 grades.If at this point, the ambient light data be 5001 and 5001 or more luxs in any number when, The brightness that the processor 50 adjusts the display screen 40 is 6 grades.

Wherein, the first light sensation component 20 includes a first sub-light sense component, and first through hole includes one first son Through-hole, the first sub-light sense component 200 obtain the first subenvironment light by the first sub-through hole sense ambient light brightness Data.The processor 50 determines first environment light data based on the first subenvironment light data, in the present embodiment, described One subenvironment light data is as first environment light data.The second light sensation component 30 includes a second sub-light sense component, the Two through-holes 14 include second sub-through hole, and the second sub-light sense component 300 senses environment by second sub-through hole 140 Brightness is to obtain the second subenvironment light data.The processor 50 determines second environment light number based on the second subenvironment light data According in the present embodiment, the second subenvironment light data is as second environment light data.The processor 50 is according to described First environment light data and second environment light data determine ambient light data, and the processor 50 is based on the ambient light data To adjust the brightness of the display screen 40.

It is to be appreciated that in other embodiments, the first light sensation component 20 includes multiple first sub-light sense components 200 (please referring to Fig. 9), first through hole 13 include multiple first sub-through holes 130, and corresponding one of each first sub-light sense component 200 the One sub-through hole 130.In Fig. 9, what is illustrated is that the first light sensation component 20 includes two the first sub-light sense components 200, Correspondingly, the first through hole 13 includes two the first sub-through holes 130.First sub-light sense component 200 by with it is described first son Corresponding first sub-through hole, the 130 sense ambient light brightness of light sensation component 200 is to obtain the first subenvironment light data.The place It manages device 50 and first environment light data is determined based on the first subenvironment light data.The second light sensation component 30 includes multiple second sons Light sensation component 300, the second through-hole 14 include multiple second sub-through holes 140, and corresponding one of each second sub-light sense component 300 the Two sub-through holes 140.Each second sub-light sense component 300 passes through second sub-through hole corresponding with the first sub-light sense component 200 140 sense ambient light brightness are to obtain the second subenvironment light data.The processor 50 is determined based on the second subenvironment light data Second environment light data.The processor 50 determines environment light number according to the first environment light data and second environment light data According to, and the processor 50 adjusts the brightness of the display screen 40 based on the ambient light data.

Wherein, the first environment light data can be implemented by any one following mode.

The processor 50 removes the maximum value and minimum value in the multiple first subenvironment light data, the processor 50 using the average value of remaining first subenvironment light data as the first environment light data.

Maximum value in all first subenvironment light datas is denoted as the first environment light data by the processor 50.Tool Body, processor 50 noted earlier is please referred to according to larger in the first environment light data and the second environment light data It is worth the description for determining ambient light data, details are not described herein.

Minimum value in all first subenvironment light datas is denoted as the first environment light data by the processor 50.Tool Body, processor 50 noted earlier is please referred to according to smaller in the first environment light data and the second environment light data It is worth the description for determining ambient light data, details are not described herein.

Wherein, the second environment light data can be implemented by any one following mode.

The processor 50 removes the maximum value and minimum value in the multiple second subenvironment light data, the processor 50 using the average value of remaining second subenvironment light data as the second environment light data.

Maximum value in all second subenvironment light datas is denoted as the second environment light data by the processor 50.Tool Body, processor 50 noted earlier is please referred to according to larger in the first environment light data and the second environment light data It is worth the description for determining ambient light data, details are not described herein.

Minimum value in all second subenvironment light datas is denoted as the second environment light data by the processor 50.Tool Body, processor 50 noted earlier is please referred to according to smaller in the first environment light data and the second environment light data It is worth the description for determining ambient light data, details are not described herein.

Further, referring to Fig. 1 to Fig. 3, the shell 10 includes the first side 11 and second being oppositely arranged Side 12.The first light sensation component 20 and the second light sensation component 30 are arranged in the first side 11, first light Sense component 20 and the second light sensation component 30 are located at 12 midpoint of 11 midpoint of first side and the second side The two sides of line.By being arranged the first light sensation component 20 and the second light sensation component 30 in first side 11, the first light is avoided Sense component 20 and the second light sensation component 30 are blocked simultaneously.To solve in the prior art only be arranged a light sensation component and This light sensation component the problem of caused acquisition ambient light data is not enough when being blocked.And the first light sensation component 20 the second light sensation components 30 are located at the line at 12 midpoint of 11 midpoint of first side and the second side Two sides can obtain the ambient light intensity around electronic equipment 1 more fully hereinafter, improve the processor 50 and determine the ring The accuracy of border light data improves the accuracy when processor 50 adjusts the display screen 40.

Please refer to fig. 5, Fig. 5 is the enlarged structure schematic diagram at II shown in Fig. 3.In the present embodiment, institute Stating the first light sensation component 20 further includes the first light guide 22 and the first optical sensor 23.First light guide 22 has first to enter Smooth surface 221 and the first light-emitting surface 222.First incidence surface 221 is by the first through hole 13 (also referring to Fig. 1 and figure 2) towards the outside of the shell 10, inside and first light-emitting surface of first light-emitting surface 222 towards the shell 10 222 corresponding first optical sensors 23 are arranged.Specifically, first optical sensor 23 includes the first light-receiving surface 231, described First light-receiving surface 231 is used for the light being emitted received from first light-emitting surface 222.Described in first light-receiving surface, 231 face The setting of first light-emitting surface 222.The area of first light-receiving surface 231 is less than the area of first light-emitting surface 222 and described the The area of one light-receiving surface 231 is greater than the area of the first through hole 13.The first light-emitting surface as described in 231 face of the first light-receiving surface 222 settings, and area of the area of first light-receiving surface 231 less than first light-emitting surface 222 and first light-receiving surface 231 area is greater than the area of the first through hole 13, so that the light around the electronic equipment 1 enters from first through hole 13 It is more exposed on first light-receiving surface 231 afterwards.In the present embodiment, first incidence surface 221 protrudes the shell The surface of body 10, such structure setting can make more environment light be transmitted to described via first incidence surface 221 The inside of one light guide 22.Referring to Figure 6 together, Fig. 6 is the enlarged structure schematic diagram at III shown in Fig. 3.Described second Light sensation component 30 includes the second light guide 32 and the second optical sensor 33.Second light guide 32 has the second incidence surface 321 And second light-emitting surface 322.Second incidence surface 321 by second through-hole 14 towards the outside of the shell 10, it is described Second light-emitting surface 322 towards the shell 10 inside and corresponding second optical sensor 33 of second light-emitting surface 322 set It sets.Specifically, second optical sensor 33 includes the second light-receiving surface 331, and second light-receiving surface 331 is used for received from described The light of second light-emitting surface 322 outgoing.The setting of second light-emitting surface 322 described in second light-receiving surface, 331 face.Described second by The area of smooth surface 331 is less than the area of second light-emitting surface 322 and the area of first light-receiving surface 331 is greater than described second The area of through-hole 14.The setting of the second light-emitting surface 322 as described in 331 face of the second light-receiving surface, and second light-receiving surface 331 Area is less than the area of second light-emitting surface 322 and the area of second light-receiving surface 331 is greater than the first through hole 13 Area, so that the light around the electronic equipment 1 more exposes to second light-receiving surface after the entrance of first through hole 13 On 331.In the present embodiment, second incidence surface 321 protrudes the surface of the shell 10, and such structure setting can make Obtain the inside that more environment light are transmitted to second light guide 32 via second incidence surface 321.Due to the electronics Environment light around equipment 1 is preferably conducted on the first light-receiving surface 231 of first optical sensor 23 and second light On second light-receiving surface 331 of sensor 33, the detection accuracy of the first optical sensor 23 and the second optical sensor 33 is improved, is improved The processor 50 determines the accuracy of the ambient light data.

Environment light around the electronic equipment 1 enters light into the first of first light guide 22 by first through hole 13 Face 221, the light into first incidence surface 221 is conducted in the inside of the first light guide 22, from the of the first light guide 22 One light-emitting surface 222 is irradiated on the light-receiving surface 231 of the first optical sensor 23, so that the first optical sensor 23 receives electronics 1 surrounding environment light of equipment.The environment light is converted to the first electric signal by first optical sensor 23, and electric by described first Signal is sent to the processor 50.Wherein, first electric signal constitutes the first environment light data.The electronic equipment Environment light around 1 enters the first incidence surface 321 of second light guide 32 by the second through-hole 14, enters into described second The light of smooth surface 321 conducts inside the 32 of the second light guide, is irradiated to second from the second light-emitting surface 322 of the second light guide 32 On the light-receiving surface 331 of optical sensor 33, so that the second optical sensor 33 receives 1 surrounding environment light of electronic equipment.It is described Second optical sensor 33 will receive environment light and be converted to the second electric signal, and second electric signal is sent to the processing Device 50.Wherein, second electric signal constitutes the second environment light data.The processor 50 is according to the first environment light Data and ambient light data is determined with the second environment light data, and the processor 50 is adjusted based on the ambient light data Save the brightness of the display screen 40.

In one embodiment, first optical sensor 23 is photosensitive sensor, and first optical sensor 23 receives Internal resistance to environment light, first optical sensor 23 can change according to the intensity of the environment light.Specifically, when described When the intensity of environment light is bigger, the internal resistance of first optical sensor 23 is smaller, correspondingly, flows through first optical sensor 23 Electric current it is bigger.Wherein, the electric current for flowing through first optical sensor 23 constitutes first electric signal, wherein the electric current For analog signal；Or the digital signal sampled to the electric current for flowing through first optical sensor 23 constitutes described the One electric signal.

Second optical sensor 33 is photosensitive sensor, and second optical sensor 33 receives environment light, described the The internal resistance of two optical sensors 33 can change according to the intensity of the environment light.Specifically, when the intensity of the environment light is got over When big, the internal resistance of second optical sensor 33 is smaller, and correspondingly, the electric current for flowing through second optical sensor 33 is bigger.Its In, the electric current for flowing through second optical sensor 33 constitutes second electric signal, wherein the electric current is analog signal；Or The digital signal that person samples the electric current for flowing through second optical sensor 33 constitutes second electric signal.

The material of first light guide 22 is transparent polymer material.First light guide 22 include first base material with And it is filled in multiple first particles in the first base material.First particle is evenly distributed in the first base material, institute State the uniformity that the first particle helps to improve the environment light being emitted described in from the first light-emitting surface 222.

The material of second light guide 32 is transparent polymer material.Second light guide 32 include the second substrate with And it is filled in multiple second particles in second substrate.Second particle is evenly distributed in second substrate, institute State the uniformity that the second particle helps to improve the environment light being emitted described in from the second light-emitting surface 322.

Specifically, the material of the first base material in first light guide 22 and the second substrate in second light guide 32 Matter can be but be not limited only to using acrylic material or makrolon material etc..

Further, Fig. 7 and Fig. 8 is please referred to, Fig. 7 is the stereochemical structure signal of electronic equipment provided by second embodiment Figure；Fig. 8 is the top view of electronic equipment provided by second embodiment.The present embodiment and the first embodiment are essentially identical, The difference is that in the present embodiment, the shell 10 includes the first side 11 and second side 12 being oppositely arranged, described First light sensation component 20 is arranged in the first side 11, and the second light sensation component 30 is arranged in the second side 12 On, the first light sensation component 20 and the second light sensation component 30 are located at 11 midpoint of first side and described second The two sides of the line at 12 midpoint of side.By being arranged the first light sensation component 20 in the first side 11, described the Two light sensation components 30 are arranged in the second side 12, and the first light sensation component 20 the second light sensation components 30 divide Not Wei Yu 12 midpoint of 11 midpoint of first side and the second side line two sides, enable light sensation component simultaneously The ambient light intensity for obtaining two side peripheries of the shell 10 improves the processor 50 and determines the ambient light data Accuracy.

Fig. 9 and Figure 10 is please referred to, Fig. 9 is the schematic perspective view of electronic equipment 1 provided by 3rd embodiment；Figure 10 For the top view of electronic equipment provided by 3rd embodiment.The present embodiment and the second embodiment are essentially identical, difference It is in in the present embodiment, the first light sensation component 20 includes two the first sub-light sense components 200, the first through hole 13 include two the first sub-through holes 130.Described two first sub-light sense components 200 are felt by described two first sub-through holes 130 Environmental light brightness is surveyed to obtain two the first subenvironment light datas.It is true that the processor 50 is based on two the first subenvironment light datas Determine first environment light data.The second light sensation component 30 includes two the second sub-light sense components 300, and second through-hole 14 wraps Include two the second sub-through holes 140.Described two second sub-light sense components 300 sense ring by described two second sub-through holes 140 Border brightness is to obtain two the second subenvironment light datas.The processor 50 determines based on two the second subenvironment light datas Two ambient light datas.

Wherein, the first environment light data can be implemented by any one following mode.

The processor 50 is using the average value of two the first subenvironment light datas as the first environment light data.

Maximum value in two the first subenvironment light datas is determined the first environment light data by the processor 50.Tool Body, processor 50 noted earlier is please referred to according to larger in the first environment light data and the second environment light data It is worth the description for determining ambient light data, details are not described herein.

Minimum value in two the first subenvironment light datas is denoted as the first environment light data by the processor 50.Tool Body, processor 50 noted earlier is please referred to according to smaller in the first environment light data and the second environment light data It is worth the description for determining ambient light data, details are not described herein.

Wherein, the second environment light data can be implemented by any one following mode.

The processor 50 is using the average value of two the second subenvironment light datas as the second environment light data.

Maximum value in two the second subenvironment light datas is determined the second environment light data by the processor 50.Tool Body, processor 50 noted earlier is please referred to according to larger in the second environment light data and the second environment light data It is worth the description for determining ambient light data, details are not described herein.

Minimum value in two the second subenvironment light datas is denoted as the second environment light data by the processor 50.Tool Body, processor 50 noted earlier is please referred to according to smaller in the second environment light data and the second environment light data It is worth the description for determining ambient light data, details are not described herein.

Further, referring to Figure 4 together, the electronic equipment 1 further includes state sensing device 70, the state sensing device 70 for detecting whether the electronic equipment 1 is in transverse screen state.The sensor 70 is electrically connected with the processor 50.Work as institute The probability that first light sensation component 20 described in stating when electronic equipment 1 is in transverse screen state is blocked is greater than the second light sensation component 30 The probability being blocked, when the electronic equipment 1 is in transverse screen state, the processor 50 is according to the second environment light data To adjust the brightness of the display screen 40.

The state sensing device 70 is for detecting whether the electronic equipment 1 is in transverse screen state.The state sensing device 70 can be but be not limited only to gravity sensor, acceleration transducer, direction sensor, gyroscope etc..Specifically, the present embodiment In the brightness of the display screen 40 is adjusted for obtaining the state of electronic equipment 1 by gravity sensor.

The gravity sensor includes the energy-stored spring being separately positioned in X, Y, Z axis, and the energy-stored spring is quick by elasticity Sensing unit is made.When the electronic equipment 1 inclination, inclination identical with the electronic equipment 1 occurs for the gravity sensor, The energy-stored spring being arranged in X, Y, Z axis due to by gravity and deformation occurs, make the setting in X, Y, Z axis On energy-stored spring internal resistance change, and then the output voltage of the gravity sensor is made to change, the processor 50 The tilt angle of the gravity sensor relative level is determined according to the output voltage, and then true according to the tilt angle Whether the fixed electronic equipment 1 is in transverse screen.Electronic equipment 1 further includes the first long side being oppositely arranged and the second long side and phase To the third short side and the 4th short side of setting, third short side is separately connected first long side and second long side, and described Four short sides are separately connected first long side and the second long side.The transverse screen state refers to that user holds the third short side or institute It states the 4th short side or user while holding the third short side and the 4th short side.Vertical screen state refers to that user holds institute It states the first long side or second long side or user while holding first long side and the second long side.

The processor 50 determines whether the electronic equipment 1 is in transverse screen according to the tilt angle.Specifically, when When the tilt angle is in preset transverse screen angular range, the electronic equipment 1 is in transverse screen state；When the inclination angle When degree is in preset vertical screen angular range, the electronic equipment 1 is in vertical screen.Preset transverse screen angular range and vertical screen angle Degree range can rule of thumb data be set.Preset transverse screen angular range is that the tilt angle is extremely small more than or equal to 0 ° In equal to 45 ° and more than or equal to 135 ° to less than equal to 180 °, preset vertical screen angular range is that the tilt angle is greater than 45 ° To less than 135 °.When the electronic equipment 1 is in transverse screen state, the probability that the first light sensation component 20 is blocked is greater than described The probability that second light sensation component 30 is blocked.The first light sensation component 20, which is blocked, refers to that the first through hole 13 is hidden by user Gear, described here blocking is blocked completely including the first through hole 13 and part is blocked.When 13 quilt of first through hole When blocking completely, prevent environment light is from being transmitted to the first light guide 22 and first optical sensor via first through hole 13 23；When 13 part of first through hole is blocked, environment light via the first through hole 13 be transmitted to the first light guide 22 and The light intensity of first optical sensor 23 is less than the first preset threshold, wherein first preset threshold is less than or equal to described When first through hole 13 is not blocked, light intensity that first optical sensor 23 receives.Second light sensation component, 30 quilt Block and refer to that second through-hole 14 is blocked by user, described here blocking blocked safely including second through-hole 14 and Part is blocked.When second through-hole 14 blocks completely again, prevent environment light is from being transmitted to via the second through-hole 14 Two light guides are so that environment light cannot be transmitted to second light guide 32 via the second through-hole 14 and second light passes Sensor 33；When 14 part of the second through-hole is blocked, environment light is transmitted to the second light guide via second through-hole 14 32 and second optical sensor 33 light intensity less than the second preset threshold, wherein second preset threshold is less than or equal to When second through-hole 14 is not blocked, light intensity that second optical sensor 33 receives.Due to the processor 50 The brightness that the display screen 40 is adjusted according to the second environment light data is avoided since user's hand blocks and then influences institute The influence for stating the accuracy of first environment light data improves the accuracy that the processor 50 determines the ambient light data.

Further, the electronic equipment 1 further includes memory 60, and the memory is electrically connected with the processor 50. The memory 60 stores the first preset data, when the first environment light data and second environment light data are respectively less than first When preset data, the brightness that the processor 50 keeps the display screen 40 current is constant, wherein when the first through hole 13 and When second through-hole 14 is blocked, the first environment light data and second environment light data are respectively less than the first present count According to.Specifically, when first environment light data and second environment light data are respectively less than the first preset data, and the duration is less than etc. In threshold time, then the brightness that the processor 50 keeps the display screen 40 current is constant.Wherein, threshold time can be according to tool Body actual conditions are set, for example, the threshold time can be but be not limited only to for 3s.When first environment light and second environment Light is respectively less than the first preset data, and when the duration is greater than the threshold time, according to the first ring described in the processor 50 Border light data and the second environment light data determine ambient light data, and the processor 50 is adjusted based on the ambient light data Save the brightness of display screen 40.When first environment light data and second environment light data are respectively less than the first preset data, and continue Between be less than or equal to threshold time and since the duration is shorter then show that user accidentally blocks the first light sensation component at this time 20 and the second light sensation component 30 time it is shorter, avoiding leads to the processing due to faulty operation in user's short period Device 50 adjusts the brightness of the display screen 40 and the problem of the unmatched deficiency of environment light, and then improves the processor 50 and adjust The accuracy when brightness of the display screen 40.

Further, when the first environment light data is less than first preset data and the second environment light data When more than or equal to first preset data, the processor 50 is using the second environment light as ambient light data.When described First through hole 13 is blocked and second through-hole 14 is not blocked, and it is default that the first environment light data is less than described first Data and the second environment light data are more than or equal to first preset data, and the processor 50 is by the second environment light Data are as ambient light data.By when first through hole 13 is blocked, the processor 50 is by the second environment light data As ambient light data, influence of the first environment light data to the ambient light data is reduced, the processor is improved 50 determine the accuracy of the ambient light data.

Further, in conjunction with the electronic equipment of previously described arbitrary structures, in first time period, the processor 50 It controls the first light sensation component 20 and the second light sensation component 30 and environmental light brightness is detected with first frequency；At second Between in section, the processor 50 controls the first light sensation component 20 and the second light sensation component 30 is detected with second frequency Environmental light brightness, wherein the first frequency is less than the second frequency, the variation journey of environment light in the first time period Degree is less than the variation degree of environment light in the second time period.For example, in the first segment time environment light transformation degree Less than the variation degree of environment light in the second time period, at 11 points in the morning at 14 points in afternoon can be in first time period, It can be 17 points to 19 points at dusk of afternoon in two periods.11 points of the morning variations to the ambient light in 14 periods of afternoon Degree is less than variation degree of at 17 points in the afternoon to the ambient light in 19 periods at dusk.The first time period and described Two periods set according to the concrete condition of environment light variation degree.Since the processor 50 described in first time period is controlled It makes the first light sensation component 20 and the second light sensation component 30 and environmental light brightness is detected with first frequency, in second time period Interior, the processor 50 controls the first light sensation component 20 and the second light sensation component 30 and detects environment with second frequency Brightness, compared to environmental light brightness is detected according to fixed test frequency, the scheme in present embodiment can be to avoid power consumption Excessive and 50 process resource of processor occupies more.

Further, it is preset when the ambient light data is greater than or equal to first less than the duration of the second preset data When the time, the processor 50 adjusts the brightness of the display screen 40 based on the ambient light data with third frequency；Work as institute When stating duration of the ambient light data less than the second preset data less than first preset time, the processor 50 is based on The ambient light data adjusts the brightness of the display screen 40 with the 4th frequency, and the third frequency is less than the 4th frequency Rate.When the ambient light data is greater than or equal to first preset time less than the duration of the second preset data, then The electronic equipment 1 is in the environment of constant light, for example, general office or general reading room etc..At this point, the processing Device 50 adjusts the brightness of the display screen 40 based on the ambient light data with third frequency；When the ambient light data is less than When the duration of second preset data is less than first preset time, then the electronic equipment 1 is in the ring of light variation Border, the processor 50 adjust the brightness of the display screen 40, the third based on the ambient light data with the 4th frequency Frequency is less than the 4th frequency.By big compared to the second preset data or small and judge institute according to ambient light data is compared The ambient light data duration big compared to the second preset data or small is stated, to judge that environment locating for electronic equipment 1 becomes Change situation, avoids 1 long-time of electronic equipment and be under the scene of constant light and still maintain high-frequency and detect environmental light brightness And keep upper frequency adjustment display screen 40 brightness and the problem that causes power consumption excessive, to improve electronic equipment 1 Cruise duration.For example, the second preset data can be set to 300 luxs, and first preset time can be set to 5 Minute.

Further, the processor 50 is adjusted based on the current brightness of the display screen 40 and the ambient light data The brightness of the display screen 40.When the current brightness of the display screen 40 is minimum brightness and ambient light data is gradually increased, Alternatively, when the current brightness of the display screen 40 is maximum brightness and ambient light data is gradually reduced, 50 base of processor The brightness of the display screen is adjusted in the 5th frequency；When the current brightness of the display screen 40 is in minimum brightness and maximum brightness Between and ambient light data when being gradually increased, alternatively, when the current brightness of the display screen 40 is in minimum brightness and most light Between degree and when ambient light data is gradually reduced, the processor 50 adjusts the brightness of the display screen 40 based on the 6th frequency, Wherein, the 5th frequency is greater than the 6th frequency.By being in minimum brightness or maximum brightness in the display screen 40 In the case where, the processor 50 adjusts the brightness of the display screen 40 based on the 5th frequency, can make the display screen 40 Brightness increased or reduced with the variation of ambient light data rapidly, reduce because scene conversion it is rapid caused by display screen 40 Brightness cannot adjust in time and to sense of discomfort caused by user security risk.

Further, the processor 50 obtains the weather conditions of 1 present position of electronic equipment, and is set according to the electronics The brightness of the display screen 40 is adjusted for the weather conditions of 1 present position.Since different weather conditions will lead to the electricity Environment light around sub- equipment 1 is different, and the processor 50 is adjusted according to the weather conditions of 1 present position of electronic equipment The brightness of the display screen 40 further improves the accuracy of the adjusting of brightness of display screen 40.Specifically, the electronic equipment 1 The weather conditions of present position are fine days, the processor 50 control the first light sensation component and the second light sensation component with 7th frequency detecting environmental light brightness, and be the first brightness according to the brightness that obtained ambient light data adjusts display screen 40.When The weather conditions of 1 present position of electronic equipment are the cloudy days, and the processor 50 controls the first light sensation component and the Two light sensation components adjust the display screen 40 according to obtained ambient light data with the 8th frequency detecting environmental light brightness Brightness is the second brightness.7th frequency is less than the 8th frequency, and second brightness is less than first brightness.At it His weather condition, the brightness that the processor 50 adjusts the display screen 40 see the place of the processor 50 under cloudy situation Reason mode, details are not described herein.

Further, the processor 50 obtains the electricity of the electronic equipment 1, and according in the electronic equipment 1 Electricity adjusts the brightness of the display screen 40.When the electronic equipment 1 is in normal state of charge, the processor 50 is controlled The first light sensation component and the second light sensation component are made with the 9th frequency detecting environmental light brightness, and according to obtained environment The brightness of light data adjusting display screen 40.The electronic equipment 1 is in 1 remaining capacity of electronic equipment when normal state of charge Account for total electricity ratio be greater than or equal to etc. default remaining proportion.Specifically, the default remaining proportion can be 10 Five.When the electronic equipment 1 is in low battery state, the processor 50 controls the first light sensation component and the second light Component is felt with the tenth frequency detecting environmental light brightness, and the brightness of display screen 40 is adjusted according to obtained ambient light data.Institute The tenth frequency is stated less than the 9th frequency.The processor 50 adjusts the display with the 9th frequency in low battery state The brightness of screen 40, reduces the power consumption that the electronic equipment 1 is in low battery state, extends the continuation of the journey of the electronic equipment 1 Time.The low battery state refers to that 1 remaining capacity of electronic equipment accounts for the ratio of total electricity less than default remaining proportion.

Further, the processor 50 obtains the charged state of the electronic equipment 1, and the processor 50 is according to described The charged state of electronic equipment 1 adjusts the brightness of the display screen 40.When the electronic equipment 1 is in charged state, institute State the brightness that processor 50 adjusts the display screen 40 based on the ambient light data with the 11st frequency.When the electronics is set Standby 1 when being in discharge condition, and the processor 50 adjusts the display screen based on the ambient light data with the 12nd frequency 40 brightness.The charged state refers to that the electronic equipment 1 connects upper external power supply.11st frequency is less than described the 12 frequencies.The brightness that the display screen 40 is adjusted due to the tenth frequency of the processor 50 is reduced the electronics and set Standby 1 power consumption under charged state shortens 1 charging time of electronic equipment.

Further, when the operation inadequate resource of the electronic equipment 1, in the 50 shutoff operation system of processor not Common application program or unessential application program, to discharge the operation resource of electronic equipment 1.Electronics described here is set Standby 1 operation inadequate resource refers to that the operation resource of electronic equipment 1 is less than the processor 50 and controls the first light sensation component And second light sensation component detect environmental light brightness and adjust the brightness of display screen according to obtained ambient light data needed for The operation resource wanted.Avoid the brightness for causing the processor 50 that can not adjust the display screen 40 because running inadequate resource. The application program being of little use in the operating system refers to that within a preset time, the processor 50 is applied according in operating system The running frequency of program is ranked up, and the processor 50 sets the application program that running frequency is less than predeterminated frequency to seldom Application program.The preset time can be one day, and the predeterminated frequency can be 5 times.Specifically, in one day, institute It states application program of the processor 50 by running frequency less than 5 times and is set as the application program being of little use.The unessential application Program, which refers to, does not influence the software that the operating system operates normally.Specifically, the closing of instant message applications does not influence the behaviour Make system normal operation.When being in operation inadequate resource due to the electronic equipment 1, in the 50 shutoff operation system of processor The application program or not unessential application program being of little use avoid to release the operation resource of the electronic equipment 1 Cause the processor 50 that can not adjust the bright of the display screen 40 in time because the electronic equipment 1 runs inadequate resource when The problem of spending.

Further, the electronic equipment 1 further includes proximity sensor 80, the proximity sensor 80 and the processor 50 electrical connections.The proximity sensor 80 is used to detect the target object and the electronic equipment 1 around the electronic equipment 1 Distance, the processor 50 adjust the brightness of the display screen 40 according to the distance.When the proximity sensor 80 detects When the distance between target object and the electronic equipment 1 around the electronic equipment 1 are less than or equal to the first pre-determined distance, The processor 50 extinguishes the display 40, stop the 23 sense ambient light brightness of the first optical sensor and stops described the Two optical sensors, 33 sense ambient light brightness and the brightness for stopping adjusting the display screen 40.

Specifically, the proximity sensor 80 can issue infrared light, can reflect when the Infrared irradiation is to object. Photodiode in the proximity sensor 80 passes through the case where receiving reflected infrared light to determine whether there is object Close to the electronic equipment 1.When the photodiode receives reflected infrared light, the infrared light received is turned It is changed to sensing electric current, the size of the sensing electric current can characterize the distance between target object and the electronic equipment 1.

Further, when the function that the processor 50 adjusts the display screen 40 based on the ambient light data is turned on When, above-mentioned any embodiment can be performed to the regulation scheme of 40 brightness of display screen；When the processor 50 is based on the environment When the function that light data adjusts the display screen 40 is closed, the brightness that the processor 50 keeps the display screen 40 current is not Become, and the processor 50 controls the first light sensation component 20 and the second light sensation component 30 stops sense ambient light brightness, institute State the brightness that processor 50 stops adjusting the display screen 40.The processor 50 is based on the ambient light data and adjusts described show The function of display screen 40 is turned on including and is not limited only to switch to transport from OFF state from the display 40 when the electronic equipment 1 Row state.The processor 50 is closed including based on the function that the ambient light data adjusts the display screen 40 and is not only limited Switch to OFF state from operating status in working as the display screen 40.Since the processor 50 is adjusted based on the ambient light data When the function of the display screen is closed, the brightness that the processor 50 keeps the display screen 40 current is constant, and the place Reason device 50 states the 30 sense ambient light brightness of the first light sensation component 20 and the second light sensation component described in stopping, and the processor 50 stops The brightness for adjusting the display screen 40 reduces the power consumption of the electronic equipment 1, when extending the continuation of the journey of the electronic equipment 1 Between.

Further, when the electronic equipment 1 is in game mode, the processor 50 is based on the ambient light data The brightness of the display screen 40 is adjusted with the 13rd frequency.When the electronic equipment 1 is in normal mode, the processor 50 adjust the brightness of the display screen 40 based on the ambient light data with the 14th frequency.13rd frequency is less than institute State the 14th frequency.The processor 50 is reduced described by adjusting the brightness of the display screen 40 with the 13rd frequency Processor 50 adjusts the power consumption of 40 brightness of display screen, and the operation for improving the processor 50 for the game mode provides Source.

The embodiment of the present application is described in detail above, specific case used herein to the principle of the application and Embodiment is expounded, the description of the example is only used to help understand the method for the present application and its core ideas； At the same time, for those skilled in the art can in specific embodiments and applications according to the thought of the application There is change place, in conclusion the contents of this specification should not be construed as limiting the present application.

Claims (10)

1. a kind of electronic equipment, which is characterized in that the electronic equipment include shell, the first light sensation component, the second light sensation component, Processor and display screen offer spaced first through hole and the second through-hole, the first light sensation component on the shell By the first through hole sense ambient light brightness to obtain first environment light data, the second light sensation component is logical by second Hole sense ambient light line brightness is to obtain second environment light data, and the processor is according to the first environment light data and described Second environment light data determines ambient light data, and the processor adjusts the display screen based on the ambient light data Brightness.

2. electronic equipment as described in claim 1, which is characterized in that the shell includes the first side being oppositely arranged and Two side faces, the first light sensation component and the second light sensation component are arranged in the first side, the first light sensation component The two sides of the line at the first side midpoint and the second side midpoint are located at the second light sensation component.

3. electronic equipment as described in claim 1, which is characterized in that the shell includes the first side being oppositely arranged and Two side faces, on the first side, the second light sensation component setting is on the second side, described for the first light sensation component setting First light sensation component and the second light sensation component are located at the company at the first side midpoint and the second side midpoint The two sides of line.

4. electronic equipment as described in any one of claims 1 to 3, which is characterized in that the first light sensation component includes first Light guide and the first optical sensor, first light guide have the first incidence surface and the first light-emitting surface, first incidence surface By the first through hole towards the outside of the shell, first light-emitting surface is towards the inside and described first of the shell Light-emitting surface corresponds to the first optical sensor setting；The second light sensation component includes the second light guide and the second optical sensor, Second light guide has the second incidence surface and the second light-emitting surface, and second incidence surface passes through second through-hole towards institute State the outside of shell, second light-emitting surface towards the shell inside and second light-emitting surface correspond to second light and pass Sensor setting.

5. electronic equipment according to any one of claims 1 to 4, which is characterized in that the electronic equipment further includes state Sensor, the state sensing device is for detecting whether the electronic equipment is in transverse screen state, when the electronic equipment is in The probability that the first light sensation component is blocked described in when transverse screen state is greater than the probability that the second light sensation component is blocked, when described When electronic equipment is in transverse screen state, the processor adjusts the bright of the display screen according to the second environment light data Degree.

6. electronic equipment as described in claim 1, which is characterized in that the electronic equipment further includes memory, the storage Device is stored with the first preset data, when the first environment light data and second environment light data are respectively less than the first preset data When, the brightness that the processor keeps the display screen current is constant, wherein when the first through hole and second through-hole are equal When being blocked, the first environment light data and second environment light data are respectively less than the first preset data.

7. electronic equipment as claimed in claim 6, which is characterized in that when the first environment light data is less than described first in advance If data and the second environment light data are greater than or equal to first preset data, the processor is by second ring Border light data is as ambient light data.

8. electronic equipment according to any one of claims 1 to 7, which is characterized in that in first time period, the place It manages device and controls the first light sensation component and the second light sensation component with first frequency detection environmental light brightness；At second Between in section, the processor controls the first light sensation component and the second light sensation component and detects environment light with second frequency Brightness, wherein the first frequency is less than the second frequency, and the variation degree of ambient light is small in the first time period In the variation degree of ambient light in the second time period.

9. electronic equipment as claimed in claim 8, which is characterized in that when the ambient light data is less than the second preset data When duration is greater than or equal to the first preset time, the processor is adjusted based on the ambient light data with third frequency The brightness of the display screen；When the ambient light data is default less than described first less than the duration of the second preset data Between when, the processor adjusts the brightness of the display screen based on the ambient light data with the 4th frequency, the third frequency Rate is less than the 4th frequency.

10. electronic equipment as claimed in claim 8 or 9, which is characterized in that the processor is based on the display screen current Brightness and the ambient light data adjust the brightness of the display screen, when the current brightness of the display screen be minimum brightness and When ambient light data is gradually increased, alternatively, when the current brightness of the display screen is maximum brightness and ambient light data gradually subtracts Hour, the processor adjusts the brightness of the display screen based on the 5th frequency；When the current brightness of the display screen is in most Between small brightness and maximum brightness and when ambient light data is gradually increased, alternatively, when the current brightness of the display screen is in most Between small brightness and maximum brightness and when ambient light data is gradually reduced, the processor is based on the 6th frequency and adjusts the display The brightness of screen, wherein the 5th frequency is greater than the 6th frequency.