CN109246261A - Terminal and photosensitive control method for terminal - Google Patents

Abstract

The present invention provides a kind of terminal and the photosensitive control method for terminal, and wherein terminal includes: shell, is provided with transmission region on the shell；Photosensory assembly, the photosensory assembly is movably mounted in the shell and the neighbouring transmission region, and the photosensory assembly is for receiving the environment light for entering enclosure interior from transmission region；Driving mechanism, the driving mechanism are located in the shell and are connected with the photosensory assembly, and the driving mechanism drives the photosensory assembly mobile relative to the transmission region.In the present invention, drive photosensory assembly mobile relative to transmission region by driving mechanism, photosensory assembly can be enabled to receive larger range of environment light, so as to promoted the collected environment light of photosensory assembly in terminal light parameter value accuracy.

Description

Terminal and photosensitive control method for terminal

Technical field

The present invention relates to field of terminal technology more particularly to a kind of terminal and for the photosensitive control method of terminal.

Background technique

In the related technology, photosensory assembly is set in terminal, for acquiring the light intensity value of environment light, to adjust display screen Light on and off state or display brightness etc..Specifically, being provided with photosensory assembly in the shell of terminal, photosensitive group is corresponded in shell The position of part is equipped with aperture, and photosensory assembly can receive the environment light projected on photosensory assembly via aperture.

But since opening in shell is by the limitation such as shell appearance, the part photosensitive area of photosensory assembly is easy to be blocked by shell, Environment light can not be collected in some cases, cause the accuracy of photosensory assembly acquisition light parameter value poor.

Summary of the invention

The embodiment of the present invention provides a kind of terminal and the photosensitive control method for terminal, to solve the sense in existing terminal The optical assembly technical problem poor in the presence of the accuracy of acquisition light parameter value.

In order to achieve the above object, concrete scheme provided in an embodiment of the present invention is as follows:

In a first aspect, the embodiment of the invention provides a kind of terminals, comprising:

Shell is provided with transmission region on the shell；

Photosensory assembly, the photosensory assembly is movably mounted in the shell and the neighbouring transmission region, described Photosensory assembly is used to receive the environment light for entering the enclosure interior from the transmission region；

Driving mechanism, the driving mechanism are located in the shell and are connected with the photosensory assembly, the driving mechanism Drive the photosensory assembly mobile relative to the transmission region.

Second aspect, the embodiment of the invention provides a kind of photosensitive control methods, are applied to such as any one of first aspect The terminal, the photosensitive control method include:

Controlling the driving mechanism drives the photosensory assembly mobile relative to the transmission region；

Obtain the light parameter of the collected environment light for entering enclosure interior from the transmission region of the photosensory assembly Value.

In the embodiment of the present invention, drive photosensory assembly mobile relative to the transmission region on shell by driving mechanism, it can So that photosensory assembly can receive larger range of environment light, so as to promote the collected ring of photosensory assembly in terminal The accuracy of the light parameter value of border light.

Detailed description of the invention

In order to illustrate the technical solution of the embodiments of the present invention more clearly, needed in being described below to the embodiment of the present invention Attached drawing to be used is briefly described, it should be apparent that, drawings in the following description are only some embodiments of the invention, For those of ordinary skill in the art, without any creative labor, it can also obtain according to these attached drawings Obtain other attached drawings.

Fig. 1 is a kind of structural schematic diagram of terminal provided in an embodiment of the present invention；

Fig. 2 is the structural schematic diagram of another terminal provided in an embodiment of the present invention；

Fig. 3 and Fig. 4 is the course of work schematic diagram of terminal provided in an embodiment of the present invention；

Fig. 5 is the structural schematic diagram of another terminal provided in an embodiment of the present invention；

Fig. 6 is a kind of flow diagram of photosensitive control method provided in an embodiment of the present invention.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are some of the embodiments of the present invention, instead of all the embodiments.Based on this hair Embodiment in bright, every other implementation obtained by those of ordinary skill in the art without making creative efforts Example, shall fall within the protection scope of the present invention.

It is a kind of structural schematic diagram of terminal provided in an embodiment of the present invention referring to Fig. 1.As depicted in figs. 1 and 2, a kind of Terminal 100, comprising:

Shell 110 is provided with transmission region 111 on shell 110；

Photosensory assembly 120, photosensory assembly 20 is movably mounted in shell 110 and neighbouring transmission region 111, and photosensitive group Part 120 is for receiving the environment light entered inside shell 110 from transmission region；

Driving mechanism 130, driving mechanism 130 are located in shell 110 and are connected with photosensory assembly 120, and driving mechanism 130 is driven Dynamic optical assembly 120 is mobile relative to transmission region 111.

Terminal 100 according to an embodiment of the present invention, it is adjacent by the way that photosensory assembly 120 to be movably mounted in shell 110 The position of nearly transmission region 111, and driving mechanism 130 is located in shell and is connected with photosensory assembly 120, utilize driving mechanism 130 driving photosensory assemblies 120 are mobile relative to shell 110, and photosensory assembly 120 can be made relative to the position of transmission region 111 It changes, so as to so that photosensory assembly 120 can receive larger range of environment light, and then terminal 100 can be promoted The accuracy of the light parameter value of the collected environment light of interior photosensory assembly 120.

Terminal 100 provided in this embodiment, the corresponding transmission region 111 of photosensory assembly 120 are arranged, and relative position can wrap Include: photosensory assembly 120 is located in the transparency range of transmission region 111, transparency range of the photosensory assembly 120 in transmission region 111 Interior movement.In this way, the environment light outside shell 110 can enter inside shell 110 from transmission region 111, photosensitive group is projected On part 120, relative to transmission region 111 be arranged photosensory assembly 120 can incude projected via transmission region 111 it is photosensitive Ambient light on component 120.Optionally, loophole is set in the position of the corresponding photosensory assembly 120 of shell 110, can be formed Transmission region 111.

Driving mechanism 130 can be the mobile device of the energy dynamic such as flexible motor, stepper motor optical assembly 120.Driving The control terminal of mechanism 130 can be connect with the mainboard of terminal 100, and the control signal exported by mainboard controls, and pass through driving mechanism 130 drive shaft drives photosensory assembly 120 mobile.

When photosensory assembly 120 is fixed relative to transmission region 111, photosensory assembly 120 is projected via transmission region 111 The angle of environment light is the photosensitive angle of photosensory assembly 120.In this way, photosensory assembly 120 is relative to the movement of transmission region 111 In the process, photosensory assembly 120 incudes movement of the photosensitive angle also with photosensory assembly 120 of environment light by transmission region 111 And change, so that photosensory assembly 120 can sense larger range of environment light.

In some cases, to protect photosensory assembly 120 not to be damaged, the initial position of photosensory assembly 120 may be not right Quasi- transmission region 111.Terminal 100 can control driving mechanism 130 and drive photosensory assembly 120 when needing to carry out light sensing It is moved to the position of corresponding transmission region 111, to incude the environment light for projecting the position via transmission region 111.

In some other cases, such as the transmission region 111 of terminal 100 deviates light source, leads to working as photosensory assembly 120 The light projected via transmission region 111 that front position can detect is less.And if terminal is mobile relative to light source, photosensitive group The collected light parameter value variation of part 120 is larger.If adjusting the screen intensity of terminal according to light parameter value collected, May result in screen neglect it is bright neglect dark, influence the normal use of user.And terminal provided in this embodiment, it can be by will be photosensitive Component 120 is moved to the target photosensitive sites that can sense more multi-environment light, then carries out light sensing.In this way, can effectively keep away Exempt from the technical problem that the reasons such as environment light deviation cause the accuracy of the light parameter value of acquisition poor.

In a specific embodiment, as shown in Fig. 2, photosensory assembly 120 may include:

Substrate 121, substrate 121 is movably mounted in shell 110 and neighbouring transmission region 111, driving mechanism 130 It is connected with substrate 121 mobile relative to transmission region 111 with drive substrate 121；

Photosensitive unit 122, photosensitive unit 122 are located on substrate 121, and photosensitive unit 122 is towards transmission region 111.

Photosensitive unit 122 is set in terminal 100, and photosensitive unit 122 is arranged on substrate 121, is mainly used for inductive terminations Environment light outside 100 acquires the parameters such as the light parameter value of environment light, such as light intensity value, light color temperature value, light distance Value.

Specifically, photosensitive unit 122 may include at least one of infrared photosensitive unit, photosensitive photosensitive unit；Wherein,

When the photosensitive unit includes simultaneously infrared light photosensitive unit and photosensitive photosensitive unit, the photosensitive photosensitive unit The neighbouring infrared photosensitive unit setting.

Terminal 100 can acquire IR parameters by infrared induction unit, can be used for adjusting the light on and off state of screen.Eventually End 100 passes through the light intensity value of the collected environment light of light-inductive unit, can be used for adjusting the display screen of terminal 100 Display brightness.

Specifically, light-inductive unit can be light emitting diode, infrared induction unit may include infrared emission component And infrared receiver component.Light-inductive unit and/or infrared induction unit are integrated on substrate 121, driving mechanism drives base Plate 121 is mobile, and infrared induction unit and/or light-inductive unit can be driven mobile.In this way, photosensory assembly not only may be implemented Movement, increase the induction range and induction precision of light-inductive unit and infrared induction unit, and terminal can be reduced Size in 100 occupies.

When photosensory assembly is light-sensitive element, needs to receive bright environment light enough, angle is sufficiently large, can just collect Accurate light parameter value.This requires the transmission region of shell is larger, to guarantee that photosensory assembly can receive angle Range light wide enough, the angle for the environment light that photosensory assembly is received by transmission region are FOV.But surface of shell Transmission region it is larger and will affect the appearance of terminal entirety, therefore the size of transmission region also to guarantee it is few as far as possible.

In a specific embodiment, photosensory assembly 120 is less than photosensitive by the photosensitive angle of maximum of transmission region 111 The specified photosensitive angle of component 120.

Specifically, as shown in figure 3, when photosensory assembly 120 is fixed on position S1 relative to transmission region 111, photosensory assembly The 120 photosensitive angle of maximum is A.The specified photosensitive angle of photosensory assembly 120 is B, is individually placed at environment light for photosensory assembly 120 The angle of light can be sensed when middle.As it can be seen that being limited by the size of transmission region 111, the photosensitive angle of maximum of photosensory assembly 120 Less than the nominal angle of photosensory assembly 120, i.e. photosensory assembly 120 can sense the light of G1 point, can not sense G2 point and The light of G3 point, also has led to that the environment light that the photosurface of photosensory assembly 120 senses is less, and photosensory assembly 120 acquires light The accuracy of line parameter value is poor.

Therefore, it drives photosensory assembly 120 mobile by driving mechanism 130, the photosurface of photosensory assembly 120 can be made to incude To larger range of environment light.

For example, it as shown in Figure 1, control driving mechanism 130 drives photosensory assembly 120 to be moved to position S2, that is, controls Photosensory assembly 120 moves to left, the right side at the specified photosensitive angle of the right side edge and photosensory assembly 120 at the photosensitive angle of photosensory assembly 120 The light of coincident, the G3 point in photosensitive angle can be sensed by photosensory assembly 120.

For another example i.e. control is felt as shown in figure 4, control driving mechanism 130 drives photosensory assembly 120 to be moved to position S3 Optical assembly 120 moves to right, the left side at the specified photosensitive angle of the left side edge and photosensory assembly 120 at the photosensitive angle of photosensory assembly 120 Edge is overlapped, and the light of the G2 point in photosensitive angle can be sensed by photosensory assembly 120.

It can be concluded that, driving mechanism 130 drives photosensory assembly 120 mobile above, so that the photosensitive angle of photosensory assembly 120 Edge can make the photosurface of photosensory assembly 120 sense more environment with the coincident at its specified photosensitive angle Light, the angular range of the light sensed in moving process are greater than the photosensory assembly 120 that fixed position senses.On terminal obtains After the light parameter value for stating multiple station acquisitions, one can be therefrom selected to meet default screening mesh target value, such as maximum value As comprehensive light parameter value, can also be not construed as limiting using the sum of multiple light parameter values as comprehensive light parameter value.

In the present embodiment, terminal 100 can include but is not limited to mobile phone, tablet computer, laptop, palm PC, The equipment for setting photosensory assembly 120 in car-mounted terminal, wearable device and pedometer etc. are any, is not construed as limiting.

The terminal that the embodiments of the present invention provide drives photosensory assembly relative to terminal by the driving mechanism in terminal Shell on the transmission region that is arranged it is mobile, photosensory assembly can be enabled to receive wider environment light, so as to Promote the accuracy of the light parameter value of the collected environment light of photosensory assembly in terminal.In addition, being collected using photosensory assembly Accurate light parameter value adjust terminal screen intensity when, can also be asked to avoid the flickering technology of screen intensity Topic.

In a specific embodiment, as depicted in figs. 1 and 2, driving mechanism 130 may include:

First driving unit 131, the first driving unit 131 are located in shell 110 and are connected with photosensory assembly 120, and first Driving unit 131 is for driving photosensory assembly 120 to move along first direction D1.

In present embodiment, driving mechanism 130 includes the first driving unit 131, for driving photosensory assembly 120 along first Direction D1, it is mobile relative to transmission region 111, thus it is possible to vary the photosensitive angle of maximum of photosensory assembly 120 on first direction D1.

Further, as shown in figure 5, driving mechanism 130 can also include:

Second driving unit 132, the second driving unit 132 are located in shell 110 and are connected with photosensory assembly 120, and second D2 is mobile in a second direction for driving photosensory assembly 120 for driving unit 132, and first direction D1 intersects with second direction D2.

In the present embodiment, the first driving unit 133 and the second driving unit 134 are connect with photosensory assembly 120, and first drives The driving direction of moving cell 133 intersects with the driving direction of the second driving unit 134.

First driving unit 133 driving photosensory assembly 120 is moved along first direction D1, can be increased photosensory assembly 120 and be existed The environment light sensed on first direction D1.Second driving unit 134 drives photosensory assembly 120, and D2 is mobile in a second direction, can It in a second direction d 2 can received environment light to increase photosensory assembly 120.Thus, it is possible to which it is more polycyclic to receive photosensory assembly Border light, so as to so that the accuracy of the light parameter value of the environment light acquired further increases.

In a specific embodiment, first direction D1 is vertical with second direction D2.

In the present embodiment, the first direction D1 that the first driving unit 133 of setting drives photosensory assembly 120 mobile, with second The second direction D2 that driving unit 134 drives photosensory assembly 120 mobile, is mutually perpendicular to.In this way, photosensory assembly 120 is along two sides Less to registration when movement, the ambient light that photosensory assembly 120 senses is more and registration is smaller, the standard of light sensing Exactness is also just higher.Meanwhile conducive to the layout of the first driving unit 133 and the second driving unit 13, can be improved rationally distributed Property.

In present embodiment, two driving units are set respectively drive photosensory assembly and move in both intersecting directions, with Increase the angle for the environment light that photosensory assembly senses in two directions.In this way, the ambient light that photosensory assembly senses is more More, the accuracy of the light parameter value of acquisition is more preferably.

Optionally, as shown in Figure 1, driving mechanism can be flexible motor 133, flexible motor 133 is located on shell 110, And the telescopic shaft of flexible motor 133 is connect with photosensory assembly 120.

Driving mechanism 130 is selected as flexible motor 131, and the control terminal of flexible motor 131 is electrically connected with the mainboard of terminal 100, The control signal for receiving mainboard output, controls the retracted position and telescopic displacement of telescopic shaft.The telescopic shaft of flexible motor 131 and sense Optical assembly 120 connects, and drives photosensory assembly 120 mobile relative to transmission region 111, and as the telescopic displacement of telescopic shaft controls The shift position of photosensory assembly 120, to incude the environment light of different location.

In addition, as shown in Figure 1, driving mechanism 130 can also include:

Return unit 134, return unit 134 are connected with shell 110 and photosensory assembly 120 respectively, and return unit 134 drives photosensitive group Part 120 is mobile towards transmission region 111.

Driving mechanism 130 includes flexible motor 131 and return unit 132, the movement of cooperation control photosensory assembly 120 and solid It is fixed.When specific connection, driving mechanism and return unit 134 can be respectively arranged at the opposite two sides of photosensory assembly 120, and drive Mechanism and return unit 134 are connect with photosensory assembly 120 respectively.In use, return unit 134 can continue to drive the photosensory assembly 120 is mobile, so that photosensory assembly can be periodically moved relative to transmission region, periodically to acquire the light of environment light Line parameter value, and then more precisely calculate the synthesis light intensity value of light.

Optionally, return unit 134 is reset spring, simple and compact for structure, and dismounting difficulty is small, and is conducive to control cost.

In present embodiment, flexible motor and return unit, cooperation control sense is respectively set by the two sides in photosensory assembly The movement and fixation of optical assembly more accurate, steadily can control photosensory assembly and be located at predetermined position, further increase photosensitive The stability of component acquisition light parameter value.

Referring to Fig. 6, the embodiment of the present invention further relates to a kind of photosensitive control method, is applied to above-mentioned Fig. 1 any reality into Fig. 5 The terminal 100 of example offer is provided.As shown in fig. 6, provided photosensitive control method specifically includes that

Step 601, control driving mechanism driving photosensory assembly are mobile relative to transmission region；

Step 602, the light for obtaining the collected environment light for entering enclosure interior from transmission region of photosensory assembly Parameter value.

In the present embodiment, for terminal 100 when needing to incude environment light, the mainboard of terminal 100 exports control signal to driving Mechanism 130, driving mechanism 130 drive photosensory assembly 120 mobile relative to photosensitive region.Driving mechanism 130 drives photosensory assembly After 120 are moved to photosensitive sites, photosensory assembly 120 can be sensed in the photosensitive sites projects sense via transmission region 111 Environment light on optical assembly 120.The mobile light parameter value in photosensitive sites acquisition environment light of photosensory assembly 120.

It is led in this way, the initial angle for being directed to photosensory assembly 120 does not correspond to photosensitive region or light passing device with light source deviation Situations such as causing the light of acquisition less, terminal 100 can be by being moved to other photosensitive sites inductance loop again for photosensory assembly 120 Border light.In this way, can therefrom select one to meet default screening target after terminal obtains the light parameter values of multiple station acquisitions Value, such as maximum value is as comprehensive light parameter value, can also be using the sum of multiple light parameter values as comprehensive light parameter Value, is not construed as limiting.

Certainly, the terminal can first judge whether to need to be implemented photosensitive operation, when determining to need to be implemented photosensitive operation Driving mechanism driving photosensory assembly movement is controlled again and incudes environment light.The mode for judging whether to need to be implemented photosensitive operation can be with There are many, for example, judging whether screen is in illuminating state, photosensitive operation is executed if in illuminating state and then adjusting screen Otherwise display brightness does not just execute photosensitive operation.Further, if photosensory assembly includes light-inductive unit and infrared induction list Member, terminal judges whether to detect infrared ray after can also being in illuminating state determining screen again, and is determining not detect Photosensitive operation is just executed when to infrared ray.In this way, photosensory assembly will not influence infrared induction while executing light-inductive operation Operation.

Terminal provided in this embodiment drives shell of the photosensory assembly relative to the terminal by the driving mechanism in terminal The transmission region being arranged on body is mobile, photosensory assembly can be enabled to receive larger range of environment light, so as to be promoted The accuracy of the light parameter value of the collected environment light of photosensory assembly in terminal.Photosensitive controlling party provided in an embodiment of the present invention The specific implementation process of method may refer to the specific implementation process of terminal provided by the above embodiment, and this is no longer going to repeat them.

In a specific embodiment, it described in step 601, controls the driving mechanism and drives the photosensory assembly phase For the mobile step of the transmission region, may include:

Controlling the driving mechanism drives the photosensory assembly to be moved at least two target photosensitive sites；

Described in step 602, the collected environment light for entering enclosure interior from transmission region of the photosensory assembly is obtained Light parameter value the step of, may include:

The target light that the photosensory assembly is obtained in the collected environment light of at least two targets photosensitive sites is joined Numerical value；

The linear weighted function and the synthesis light parameter value as environment light for calculating at least two target light parameter values.

In present embodiment, driving mechanism 130 drives photosensory assembly 120 to be moved at least two target photosensitive sites, and Light parameter value is acquired respectively at least two position.In view of the collected light range of different location is different and each May exist between the corresponding sensitive volume in position and overlap, therefore a weight parameter can be configured for each position, Collected target light parameter value weighting summation is distinguished at least two position, calculates at least two target lights parameter Linear weighted function and, by calculate resulting linear weighted function and as the environment light sensed synthesis light parameter value.For example, The weight of the photosensitive sites of face transmission region can be set as weight limit, the photosensitive sites at transmission region edge will be located at Weight is set as smaller weight, to guarantee the accuracy of comprehensive light parameter value.The setting up procedure of specific weight can be according to reality The setting of border situation, is not construed as limiting.

In present embodiment, relative to only in the scheme of a photosensitive sites acquisition light parameter value, at least two targets Photosensitive sites acquire light parameter value respectively, photosensory assembly 120 can be made to sense more environment light, and then improve photosensitive The accuracy of the acquisition light parameter value of component 120.

In a specific embodiment, as shown in Figures 1 to 4, the interposition of the mobile route of the photosensory assembly 120 Set transmission region 111 described in face；

The control driving mechanism 130 drives the photosensory assembly 120 to be moved at least two target photosensitive sites The step of, comprising:

Control the interposition that the driving mechanism 130 drives the photosensory assembly 120 to be respectively moved to the mobile route It sets and end positions.

The photosensitive control method that present embodiment provides, applied terminal 100 meet, and photosensory assembly 120 passes through light transmission The photosensitive angle of maximum in region 111 is less than the condition of the specified photosensitive angle of photosensory assembly 120.In this case, photosensory assembly The 120 photosensitive angle in a certain position is respectively less than the specified photosensitive angle of photosensory assembly 120, and the part of photosensory assembly 120 is photosensitive Face can not sense environment light.

The driving mechanism 130 drives photosensory assembly 120 mobile relative to transmission region 111, and photosensory assembly 120 is along moving Route is mobile, and transparent area described in middle position (S1 i.e. shown in Fig. 3) face of the mobile route of the photosensory assembly 120 is arranged Domain 111, using the middle position of mobile route and end positions (S2 i.e. shown in FIG. 1 and S3 shown in Fig. 4) as target Photosensitive sites.Then, it is above-mentioned to be respectively moved to mobile route for control 130 driving mechanism 130 of driving mechanism driving photosensory assembly 120 Target position, photosensory assembly 120 acquire a light parameter value in each target position.

Then, photosensory assembly can be moved to the process of above three position as an induction period, acquisition by terminal Three light parameter values A1, A2 and A3 in one induction period.According to the weight of three positions, in conjunction with accumulation algorithm:Wherein N is the n-th collection point in the period, the linear weighted function being calculated and can be used as a cycle Interior total light intensity A.

Photosensitive control method provided in this embodiment, driving mechanism 130 drives photosensory assembly 120 mobile, so that photosensitive group The edge at the photosensitive angle of part 120 can make the photosurface sense of photosensory assembly 120 with the coincident at its specified photosensitive angle More environment light should be arrived, the angular range of the light sensed in moving process is greater than the photosensory assembly that fixed position senses 120。

The specific implementation process of photosensitive control method provided in an embodiment of the present invention may refer to provided by the above embodiment The specific implementation process of terminal, this is no longer going to repeat them.

The above description is merely a specific embodiment, but scope of protection of the present invention is not limited thereto, any Those familiar with the art in the technical scope disclosed by the present invention, can easily think of the change or the replacement, and should all contain Lid is within protection scope of the present invention.Therefore, protection scope of the present invention should be subject to the protection scope in claims.

Claims (13)

1. a kind of terminal characterized by comprising

Shell is provided with transmission region on the shell；

Photosensory assembly, the photosensory assembly is movably mounted in the shell and the neighbouring transmission region, described photosensitive Component is used to receive the environment light for entering the enclosure interior from the transmission region；

Driving mechanism, the driving mechanism are located in the shell and are connected with the photosensory assembly, the driving mechanism driving The photosensory assembly is mobile relative to the transmission region.

2. terminal as described in claim 1, which is characterized in that the driving mechanism includes:

First driving unit, first driving unit are located in the shell and are connected with the photosensory assembly, and described first Driving unit is for driving the photosensory assembly to move along first direction.

3. terminal as claimed in claim 2, which is characterized in that the driving mechanism further include:

Second driving unit, second driving unit are located in the shell and are connected with the photosensory assembly, and described second For driving the photosensory assembly to move in a second direction, the first direction intersects driving unit with the second direction.

4. terminal as claimed in claim 3, which is characterized in that the first direction is vertical with the second direction.

5. terminal as described in claim 1, which is characterized in that the driving mechanism is flexible motor, and the flexible motor is set On the housing, and the telescopic shaft of the flexible motor is connect with the photosensory assembly.

6. terminal as described in claim 1, which is characterized in that the driving mechanism further include:

Return unit, the return unit are connected with the shell and the photosensory assembly respectively, and the return unit driving is described photosensitive Component is mobile towards the transmission region.

7. terminal as claimed in claim 6, which is characterized in that the driving mechanism and the return unit are respectively arranged at described The opposite two sides of photosensory assembly, and the driving mechanism and the return unit are connect with the photosensory assembly respectively.

8. terminal as claimed in claim 7, which is characterized in that the return unit is reset spring.

9. such as terminal of any of claims 1-8, which is characterized in that the photosensory assembly includes:

Substrate, the substrate is movably mounted in the shell and the neighbouring transmission region, the driving mechanism with The substrate is connected to drive the substrate mobile relative to the shell；

Photosensitive unit, the photosensitive unit are set on the substrate, and the photosensitive unit is towards the transmission region.

10. terminal as claimed in claim 9, which is characterized in that the photosensitive unit includes infrared photosensitive unit, photosensitive photosensitive At least one of unit；Wherein

When the photosensitive unit includes simultaneously infrared light photosensitive unit and photosensitive photosensitive unit, the photosensitive photosensitive unit is neighbouring The infrared photosensitive unit setting.

11. a kind of photosensitive control method, which is characterized in that applied to the terminal as described in any one of claims 1 to 10, institute Stating photosensitive control method includes:

Controlling the driving mechanism drives the photosensory assembly mobile relative to the transmission region；

Obtain the light parameter value of the collected environment light for entering enclosure interior from the transmission region of the photosensory assembly.

12. photosensitive control method as claimed in claim 11, which is characterized in that described in the control driving mechanism driving The photosensory assembly step mobile relative to the transmission region, comprising:

Controlling the driving mechanism drives the photosensory assembly to be moved at least two target photosensitive sites；

The light parameter for obtaining the collected environment light for entering enclosure interior from the transmission region of photosensory assembly The step of value, comprising:

The photosensory assembly is obtained in the target light parameter value of the collected environment light of at least two targets photosensitive sites；

The linear weighted function and the synthesis light parameter value as environment light for calculating at least two target light parameter values.

13. photosensitive control method as claimed in claim 12, which is characterized in that the centre of the mobile route of the photosensory assembly Transmission region described in the face of position；

The step of control driving mechanism drives the photosensory assembly to be moved at least two target photosensitive sites, packet It includes:

Control middle position and both ends position that the driving mechanism drives the photosensory assembly to be respectively moved to the mobile route It sets.