CN206136063U - Sensor module , Panel components and mobile terminal - Google Patents

Abstract

The utility model provides a sensor module, panel components and mobile terminal, this sensor module includes: first optical emitter, first optical receiver and second optical receiver, the detection light that first optical emitter sent forms distance light signal and short -distance beam signal after the obstacle reflection, first optical receiver is used for receiving the short -distance beam signal, the second optical receiver is used for receiving the distance light signal. The embodiment of the utility model provides a beneficial effect who has improvement sensor module's detectivity.

Description

Sensor module, panel assembly and mobile terminal

Technical field

This utility model is related to the communications field, more particularly to a kind of sensor module, panel assembly and mobile terminal.

Background technology

With developing rapidly for terminal technology, intelligent terminal increasingly popularizes, and becomes requisite in people's life and sets It is standby.People can be by intelligent terminal's study, amusement etc..

In prior art, the close sensing module of intelligent terminal is typically infrared using an infrared transmitter and one Receptor is realizing.The infrared transmitter sends Infrared, forms reflection light after obstacle reflection, the infrared receiver Device is received after the reflection light, judges that the intelligent terminal is to be close to also to be remote from stopping according to the light intensity value of reflection light Thing.

But, in actual use, if the infrared transmitter with the infrared remote receiver away from too far away, can cause When obstacle is nearer, reflection light cannot be introduced into the infrared remote receiver.When infrared transmitter and the infrared transmitter away from Close to too, and the intelligent terminal apart from obstacle it is too remote when, the infrared ray sent due to infrared transmitter some can be direct By being reflected in infrared remote receiver inside intelligent terminal so that the basic value for detecting of the infrared remote receiver compared with Greatly；And because the obstacle is because apart from infrared remote receiver, farther out, its reflection light causes this red after into infrared remote receiver The light intensity that outer receptor is detected is varied less, therefore, the sensitivity of the infrared remote receiver is very low, erroneous judgement easily occurs or leaks Sentence.

From the foregoing, it will be observed that the detection sensitivity of the nearly sensory package of existing mobile terminal is relatively low, easily there is misjudgment Or judge the situation of failure.

Utility model content

This utility model embodiment provides a kind of sensor module, panel assembly and mobile terminal, to solve prior art The not high problem of middle proximity transducer module sensitivity.

This utility model embodiment provides a kind of sensor module, including：First optical transmitting set, the first optical receiver and Second optical receiver；The probing light that first optical transmitting set sends forms distance light signal and near after obstacle reflection Optical signal, first optical receiver is used to receive the dipped beam signal, and second optical receiver is used to receive distance light signal.

This utility model embodiment additionally provides a kind of panel assembly, including panel module and is arranged in face mould group The sensor module of the side on surface, the sensor module and panel module interval setting；The sensor module includes：The One optical transmitting set, the first optical receiver and the second optical receiver；The probing light that first optical transmitting set sends is through resistance Distance light signal and dipped beam signal are formed after block material reflection, first optical receiver is used to receive the dipped beam signal, described Second optical receiver is used to receive distance light signal.

This utility model embodiment additionally provides a kind of mobile terminal, including housing, control circuit, sensor module and Panel module, the control circuit and the sensor module are installed in the enclosure interior, and the panel module is installed On the housing, the control circuit is electrically connected respectively with the sensor module and panel module；The sensor module Sensor module described in any of the above-described.

This utility model embodiment additionally provides a kind of mobile terminal, including housing and panel assembly, the panel group Part is connected with the housing, and the panel assembly is the panel assembly described in any of the above-described.

Sensor module in this utility model embodiment passes through to arrange the first optical receiver and the second optical receiver, and First optical receiver and the second optical receiver receive respectively dipped beam signal and distance light signal, are provided with obstacle distance The mobile terminal of the sensor device module farther out when, due to second optical receiver it is distant apart from first optical transmitting set, Therefore, the light for being directly entered second optical receiver by mobile terminal internal reflection is less, therefore it receives Jing obstacles Changing greatly after distance light signal is reflected to form, sensitivity is higher；When being provided with the sensor device module in obstacle distance When mobile terminal is nearer, due to first optical receiver it is closer to the distance apart from first optical transmitting set, through the anti-of the obstacle Dipped beam signal after penetrating into first optical receiver is more, therefore its light intensity is changed greatly, and sensitivity is higher；To sum up, no matter It is farther out or relatively near to be provided with the distance of mobile terminal of the sensor module obstacle, has an optical receiver receiving Light intensity is changed greatly to after the reflection light of obstacle, therefore the sensitivity of the sensor module is higher, clever with detection is improved The beneficial effect of sensitivity.

Description of the drawings

Fig. 1 is the structural representation of the mobile terminal in the preferred embodiment of this utility model one.

Fig. 2 is the structural representation of the panel assembly in the preferred embodiment of this utility model one.

Fig. 3 is the structural representation of the panel assembly in another preferred embodiment of this utility model.

Fig. 4 is the structural representation of the panel assembly in this utility model another preferred embodiment.

Fig. 5 is the structural representation of the panel assembly in this utility model further embodiment.

Specific embodiment

Embodiment of the present utility model is described below in detail, the example of the embodiment is shown in the drawings, wherein From start to finish same or similar label represents same or similar element or the element with same or like function.Lead to below It is exemplary to cross the embodiment being described with reference to the drawings, and is only used for explaining this utility model, and it is not intended that to this practicality New restriction.

In description of the present utility model, it is to be understood that term " " center ", " longitudinal direction ", " horizontal ", " length ", " width Degree ", " thickness ", " on ", D score, "front", "rear", "left", "right", " vertical ", " level ", " top ", " bottom ", " interior ", " outward ", The orientation or position relationship of the instructions such as " clockwise ", " counterclockwise " be based on orientation shown in the drawings or position relationship, be only for Be easy to describe this utility model and simplify description, rather than indicate or imply indication device or element must have it is specific Orientation, with specific azimuth configuration and operation, therefore it is not intended that to restriction of the present utility model.Additionally, term " first ", " second " is only used for describing purpose, and it is not intended that indicating or implying relative importance or imply the technology indicated by indicating The quantity of feature.Thus, " first " is defined, the feature of " second " can be expressed or implicitly include one or more The feature.In description of the present utility model, " multiple " are meant that two or more, unless otherwise clearly specific Limit.

In description of the present utility model, it should be noted that unless otherwise clearly defined and limited, term " peace Dress ", " connected ", " connection " should be interpreted broadly, for example, it may be fixedly connected, or be detachably connected, or integratedly Connection；Can be mechanically connected, or electrically connect or can mutually communicate；Can be joined directly together, it is also possible to by Between medium be indirectly connected to, can be connection or the interaction relationship of two elements of two element internals.For this area For those of ordinary skill, concrete meaning of the above-mentioned term in this utility model can be as the case may be understood.

In this utility model, unless otherwise clearly defined and limited, fisrt feature second feature it " on " or it D score can include the first and second feature directly contacts, it is also possible to not be directly contact including the first and second features but logical The other characterisation contact crossed between them.And, fisrt feature second feature " on ", " top " and " above " include the One feature is directly over second feature and oblique upper, or is merely representative of fisrt feature level height higher than second feature.First is special Levy second feature " under ", " lower section " and " below " include fisrt feature immediately below second feature and obliquely downward, or only Represent that fisrt feature level height is less than second feature.

Following disclosure provides many different embodiments or example is used for realizing different structure of the present utility model. In order to simplify disclosure of the present utility model, hereinafter the part and setting of specific examples are described.Certainly, they are only Example, and purpose does not lie in restriction this utility model.Additionally, this utility model can in different examples repeat reference numerals And/or reference letter, this repetition is for purposes of simplicity and clarity, itself not indicate discussed various embodiments And/or the relation between arranging.Additionally, the example of the various specific technique that provides of this utility model and material, but this Field those of ordinary skill can be appreciated that the application of other techniques and/or the use of other materials.

Refer to Fig. 1, Fig. 1 is the mobile terminal 1 000 in the preferred embodiment of this utility model one, the mobile terminal 1 000 The for example, electronic installation such as mobile phone or panel computer.It is appreciated that mobile terminal 1 000 includes but is not limited to present embodiment Example.

The mobile terminal 1 000 includes panel assembly 100 and housing 200.The panel assembly 100 is arranged at the housing 200 Go up and be attached thereto, it will be understood that the mobile terminal 1 000 can also include supplying receiver, accordingly, the panel assembly 100 Non-display area 100a offers the perforate 300 that sound is sent for receiver, and the mobile terminal 1 000 can also be known including fingerprint Other module 400, the fingerprint recognition module is arranged at the non-display area 100a of the panel assembly 100.The panel assembly 100 it is aobvious Show that region 100b can be used to display picture or touch manipulation etc. for user.

Wherein, panel assembly 100 can be touch panel component, panel assembly, touch panel component or with other Terminal panel component of function etc..

Fig. 2 is refer to, Fig. 2 is the structure chart of the panel assembly 100 in the embodiment of this utility model one.The panel assembly 10 Including sensor module 11, panel module 12 and control circuit 13, the sensor module 11 is arranged at the panel module 12 The side of inner surface, the sensor module 11 and the interval setting of panel module 12.The control circuit 13 and sensor module 11 And panel module 12 is communicated to connect, in the present embodiment, the control circuit 13 is mainboard, and the sensor module 11 is fixedly installed On the mainboard.

Specifically, the sensor module 11 connects including the first optical transmitting set 111, the first optical receiver 112 and the second light Receive device 113.

Wherein, first optical transmitting set 111 is used for the black light of the wavelength that sends more than 850nm, such as infrared light, its For infrared transmitter.For example, first optical transmitting set 111 can be IR LED.

Accordingly, first optical receiver 112 can be infrared light receiver, for receiving probing light through obstacle The dipped beam signal formed after 70 reflections, the obstacle 70 is generally face, is applied in user in communication process, is connect Under close or remote from scene during face, should.

Accordingly, second optical receiver 113 can be infrared light receiver, and it is used to receive the probing light process The distance light signal that obstacle 70 is formed after reflecting.Wherein, the dipped beam signal represents that the light injected after obstacle reflection connects Receipts device is closer to the distance apart from first optical transmitting set 111, and the distance light signal represents the light injected after the obstacle reflection Receptor is distant apart from first optical transmitting set 111.

The distance between the optical transmitting set 111 of first optical receiver 112 and first less than second optical receiver 113 with The distance between first optical transmitting set 111.Therefore, when the panel assembly 12 apart from obstacle farther out when, second optical receiver 113 light intensity change-detection is sensitiveer.When the panel assembly 12 is nearer apart from obstacle, the light of first optical receiver 112 Strong change-detection is sensitiveer.Therefore, in concrete application, mobile terminal can simultaneously according to first optical receiver 112 and The light intensity value of the reflection light that the second optical receiver 113 is received is remote from also being proximate to judging the mobile terminal, Ke Yiji The earth improves the accuracy for judging, is conducive to improving Consumer's Experience.

In the present embodiment, the optical receiver 112 of the first optical transmitting set 111 and first can be with integrally disposed at one In first integrated chip, a two-in-one chip is formed.It is of course also possible to separately positioned into two independent chips.

Wherein, the panel module 12 includes display floater 121, the printing opacity being arranged on the inner surface of display floater 121 Ink layer 122 and be arranged at clear ink layer 122 the one side away from the display floater 121 black-out ink layer 123.Its In, the clear ink layer 122 and black-out ink layer 123 constitute ink layer.

Wherein, the display floater 121 can be touch display panel, and it serves not only as the display unit of mobile terminal, also Use as input block, certainly the display floater 121 can also be general display panels.

Wherein, if the clear ink layer 122 can include dried layer clear ink sublayer 1221, for example, in the present embodiment, The clear ink layer 122 tool haves three layers clear ink sublayer 1221, each clear ink sublayer 1221 be white ink spraying or Printing is formed, and certainly, it can also be using shallower ink of color such as light blue, light green colors.Can be located at in the present embodiment Clear ink layer 122 in black-out ink layer 123 is can be with the ink layer of printing opacity.The light transmittance of ink layer can be according to actual need Ask setting, visible ray (if wavelength is the visible ray of the 550nm) transmitance of general clear ink layer 122 between 2%-10%, Optical signal (if wavelength is the infrared ray of the 850nm) transmitance of proximity transducer is more than or equal to 80%.

The black-out ink layer 123 can be to spray or print to be formed using black ink.Offer in black-out ink layer 123 First light hole 124 and the second light hole 125.It is to be appreciated that in the light hole 125 of the first light hole 124 and second Clear ink can also be filled with, the color of the clear ink is identical with the color of clear ink layer 122.

Wherein, first light hole 124 can include the light admitting aperture of detached first light-emitting hole 1241 and first 1242.First optical transmitting set 111 is relative with first light-emitting hole 1241, and by first light-emitting hole 1241 to outgoing Penetrate probing light.First optical receiver 112 is relative with first light admitting aperture 1242, and by first light admitting aperture 1242 Receive the reflection light of the probing light.

Second light hole 125 is relative with the second optical receiver 113, and second optical receiver 113 passes through second thang-kng Hole 125 receives the reflection light of probing light.

Wherein, the first light-emitting hole 1241, the first light admitting aperture 1242 and the shape of the second light hole 125 can be according to realities Border demand setting.Such as, can be formed for circle, rectangle, round rectangle etc..The present embodiment is in order to improve the first optical receiver 112 and the second optical receiver 113 receive optical signal ability, lifted sensor sensitivity, the first light-receiving can be caused Perforated area of the perforated area of the light hole 125 of hole 1242 and second more than the first light-emitting hole 1241.

It is to be appreciated that as shown in figure 3, in further embodiments, first light hole 124 can also be larger for one Hole, it is used for the optical receiver 112 of the first optical transmitting set 111 and first simultaneously.

In the present embodiment, the optical transmitting set 111 of control circuit 13 and first, the first optical receiver 112 and second light Receptor 113 is communicated to connect, and first optical transmitting set 111, the first optical receiver 112 and the second optical receiver 113 are solid Surely it is arranged on the mainboard.

For example, when the panel assembly 100 is applied on mobile phone, because first optical receiver 112 connects with second light The distance for receiving the first optical transmitting set of distance 111 of device 113 is different, and first optical receiver 112 is closer to first optical transmitting set 111, when the panel assembly 100 is nearer apart from obstacle, second optical receiver 113 is due to apart from first optical transmitting set 111 is distant, and seldom, light intensity changing value is little with the change that distance becomes for the light that it is received.When the panel assembly 100 Apart from obstacle farther out when, due to reflection light it is weaker, and the first optical transmitting set 111 transmitting light directly entered by internal reflection Enter the first optical receiver 112, the basic value of the light intensity value that first optical receiver 112 is received is larger, and the display floater Apart from obstacle farther out, the light intensity value of reflection light is less, therefore the reflection light that first optical receiver is received is for inspection The light intensity change for measuring is not obvious.Second optical receiver 113 apart from first optical transmitting set 111 distance relative to the first light Receptor 112 farther out, therefore, light Jing internal reflections that the first optical transmitting set 111 sends enter second optical receiver 113 Part is less, and its basic light intensity value is less, and the reflection light after reflection enters light intensity after second optical receiver 113 and becomes Change relatively large.

In communication process, the control circuit 13 controls first optical transmitting set 111 and sends probing light, and according to first The light intensity value of the reflection light that the optical receiver 113 of optical receiver 112 and second is received judges to be provided with the panel assembly 100 Mobile terminal be proximate to also be remote from face, the bright screen of panel module 12 is controlled when judging away from face, when judging near people Panel module 12 is controlled during face and puts out screen.Specifically, when the light intensity value that first optical receiver 113 is received reaches the first close threshold When the light intensity value that value or the second optical receiver 113 are received reaches the second close threshold value, judge the mobile terminal near face.When The light intensity that the light intensity value that first optical receiver 113 is received reaches first away from threshold value and the second optical receiver 113 is received When value reaches second away from threshold value, judge the mobile terminal away from face.

Fig. 4 is the structure chart of the panel assembly 100 in another embodiment of this utility model, and the panel assembly 100 includes passing Sensor module 21, panel module 22 and control circuit 23, the sensor module 21 is arranged at the inner surface of the panel module 22 Side, the sensor module 21 and the interval setting of panel module 22.The control circuit 23 and sensor module 21 and face Template die group 22 is communicated to connect, and in the present embodiment, the control circuit 23 is mainboard, and the sensor module 21 is fixedly installed on the master On plate.

Specifically, the sensor module 21 includes the first optical transmitting set 211, the first optical receiver 212, the second optical receiver 213rd, the second optical transmitting set 214, first environment luminance sensor 215 and second environment luminance sensor 216.

Wherein, the wavelength that the optical transmitting set 214 of the first optical transmitting set 211 and second is used to send is more than 850nm's Black light, such as infrared light.

First optical transmitting set 211 and the second optical transmitting set 214 are infrared transmitter.First optical receiver 212 And second optical receiver 213 can be infrared light receiver.First optical receiver 212 is used to receive probing light through resistance The dipped beam signal formed after block material reflection.Second optical receiver 214 is used to receive probing light after obstacle reflection The distance light signal of formation.The distance between the optical transmitting set 211 of first optical receiver 212 and first is less than second light-receiving The distance between optical transmitting set 211 of device 213 and first.Wherein, the dipped beam signal represents the light injected after obstacle reflection Receptor is closer to the distance apart from first optical transmitting set 211, and the distance light signal represents what is injected after the obstacle reflection Optical receiver is distant apart from first optical transmitting set 211.

The distance between the optical transmitting set 211 of first optical receiver 212 and first less than second optical receiver 213 with The distance between first optical transmitting set 211.Therefore, when using first optical transmitting set 211 as the probing light person of sending, and work as The panel assembly 100 apart from obstacle farther out when, the light intensity change-detection of second optical receiver is sensitiveer；When the panel assembly 100 apart from obstacle it is nearer when, the light intensity change-detection of first optical receiver is sensitiveer.When with second optical transmitting set 214 During as the probing light person of sending, and when the panel assembly 100 apart from obstacle farther out when, the light of second optical receiver 214 Strong change-detection is sensitiveer；When the panel assembly 100 is nearer apart from obstacle, the light intensity change of first optical receiver 212 Detection is sensitiveer.

In the present embodiment, the control circuit 23 can select the optical transmitting set 214 of the first optical transmitting set 211 and second In one as the probing light person of sending, it is generally the case that using the sending as probing light of the first optical transmitting set 211 Person, when control circuit 23 detects first optical transmitting set 211 abnormal or damage occurs, is then made with the second optical transmitting set 214 For the probing light person of sending.

In certain embodiments, first optical transmitting set 211, the first optical receiver 212 and first environment brightness sensing Device 215 can be with integrally disposed in an integrated chip.Second optical transmitting set 214, the second optical receiver 213 and Two ambient light sensors 216 can be with integrally disposed in an integrated chip.

The panel module 22 includes display floater 221, the clear ink layer being arranged on the inner surface of display floater 221 222 and be arranged at clear ink layer 222 the one side away from the display floater 221 black-out ink layer 223.Wherein, this is saturating Gloss oil layer of ink 122 and black-out ink layer 123 constitute ink layer.

Wherein, the clear ink layer 222 can include multilamellar clear ink sublayer 2221, for example, in the present embodiment, should Clear ink layer 222 have three layers of clear ink sublayer 2221, each clear ink sublayer 2221 be white ink spraying or Printing is formed.Certainly, it can also be using shallower ink of color such as light blue, light green colors.

The black-out ink layer 223 can be to spray or print to be formed using black ink.Offer in black-out ink layer 223 First light hole 224 and the second light hole 225.

The clear ink layer 222 in black-out ink layer 223 can be located in the present embodiment with as can be with the ink layer of printing opacity. The light transmittance of ink layer can set according to the actual requirements, and the visible ray of general clear ink layer 222 is (if wavelength is 550nm Visible ray) transmitance between 2%-10%, the optical signal of proximity transducer (if wavelength is the infrared ray of 850nm) transmitance it is big In or equal to 80%.

Wherein, first light hole 224 can include the light admitting aperture of detached first light-emitting hole 2241 and first 2242.First optical transmitting set 211 is relative with first light-emitting hole 2241, and by first light-emitting hole 2241 to outgoing Penetrate probing light.First optical receiver 212 and the first environment luminance sensor 215 and the phase of the first light admitting aperture 2242 Right, the first optical receiver 212 receives the reflection light of the probing light, first environment brightness by first light admitting aperture 2242 Sensor 215 detects environmental light intensity by first light admitting aperture 2242.

Second light hole 225 can include the light admitting aperture 2252 of detached second light-emitting hole 2251 and second.Should Second optical transmitting set 214 is relative with second light-emitting hole 2251, and sends out detection by second light-emitting hole 2251 Light.Second light admitting aperture 2252 is relative with second optical receiver 213 and second environment luminance sensor 216, and this Two optical receivers 213 receive the reflection light of probing light by second light admitting aperture 2252, the second environment brightness sensing Device 216 detects the brightness of ambient light by second light admitting aperture 2252.

It is to be appreciated that as shown in figure 5, in further embodiments, first light hole 224 can also be larger for one Hole, it is used for first optical transmitting set 211, the first optical receiver 212 and first environment luminance sensor 215 simultaneously.

Second light hole 225 can also be a larger hole, and it supplies second optical transmitting set 214, the second light simultaneously Receptor 213 and second environment luminance sensor 216 are used.

Illustrate so that the panel assembly 20 is applied on mobile phone as an example, under normal circumstances, the control circuit 23 is selected should Used as the person of sending of probing light, and second optical transmitting set 214 does not work first optical transmitting set 211.

Due to first optical receiver 212 and first optical transmitting set of distance 211 of the second optical receiver 213 distance not Together, first optical receiver 212 is closer to first optical transmitting set 211.When the panel assembly 20 is nearer apart from obstacle 70, Due to distant apart from first optical transmitting set 211, the reflection light that it is received is seldom even for second optical receiver 213 No, light intensity changing value is with little apart from the change for becoming.When the panel assembly 20 apart from obstacle 70 farther out when, and the first light The light of the transmitting of emitter 211 has been directly entered the first optical receiver 212 by internal reflection, and first optical receiver 212 is received The basic value of the light intensity value for arriving is larger, and the panel module 23 apart from obstacle 70 farther out, the light intensity value of reflection light is less, because It is less for the light intensity value changes that it is detected that this first optical receiver connects 212 reflection lights for receiving, less substantially；And this When, second optical receiver 113 apart from first optical transmitting set 111 distance relative to the first optical receiver 112 farther out, because This, the part that the light Jing internal reflections that the first optical transmitting set 211 sends enter second optical receiver 213 is less, its basis Light intensity value is less, and the reflection light after reflection enters light intensity after second optical receiver 213 and changes relatively large.

In communication process, the control circuit 23 controls first optical transmitting set 211 and sends probing light, and according to first The light intensity value of the reflection light that the optical receiver 213 of optical receiver 212 and second is received judges to be provided with the panel assembly 20 Mobile terminal be proximate to also be remote from face, the bright screen of panel module 22 is controlled when judging away from face, when judging near people Panel module 22 is controlled during face and puts out screen.Specifically, when the light intensity value that first optical receiver 213 is received reaches the first close threshold When the light intensity value that value or the second optical receiver 213 are received reaches the second close threshold value, judge the mobile terminal near face.When The light intensity that the light intensity value that first optical receiver 213 is received reaches first away from threshold value and the second optical receiver 213 is received When value reaches second away from threshold value, judge the mobile terminal away from face.

In the description of this specification, reference term " embodiment ", " some embodiments ", " schematically enforcement The description of mode ", " example ", " specific example " or " some examples " etc. means to combine the embodiment or example describes Specific features, structure, material or feature are contained at least one embodiment of the present utility model or example.In this explanation In book, identical embodiment or example are not necessarily referring to the schematic representation of above-mentioned term.And, the concrete spy of description Levy, structure, material or feature can in an appropriate manner be combined in any one or more embodiments or example.

In sum, although this utility model is disclosed above with preferred embodiment, but above preferred embodiment is not used To limit this utility model, one of ordinary skill in the art in without departing from spirit and scope of the present utility model, can make Various changes are defined with retouching, therefore protection domain of the present utility model by the scope that claim is defined.

Claims (21)

1. a kind of sensor module, it is characterised in that include：First optical transmitting set, the first optical receiver and the second light-receiving Device；The probing light that first optical transmitting set sends forms distance light signal and dipped beam signal, institute after obstacle reflection The first optical receiver is stated for receiving the dipped beam signal, second optical receiver is used to receive distance light signal.

2. sensor module according to claim 1, it is characterised in that first optical receiver and the first optical transmitting set The distance between be less than the distance between second optical receiver and the first optical transmitting set.

3. sensor module according to claim 2, it is characterised in that first optical transmitting set, the first optical receiver And second optical receiver be generally aligned in the same plane and interval setting.

4. sensor module according to claim 3, it is characterised in that first optical transmitting set and the first optical receiver The first integrated chip of integrally disposed formation, first integrated chip and the second optical receiver interval setting.

5. sensor module according to claim 2, it is characterised in that also including the second optical transmitting set, second light The probing light that emitter sends reflexes to respectively the first optical receiver and the second optical receiver, institute after obstacle reflection State the second optical transmitting set, the first optical transmitting set, the first optical receiver and the second optical receiver and be generally aligned in the same plane and be spaced and set Put.

6. sensor module according to claim 5, it is characterised in that first optical transmitting set and the first optical receiver The first integrated chip of integrally disposed formation, second optical transmitting set and the second optical receiver the second integrated core of integrally disposed formation Piece, first integrated chip and the second integrated chip interval setting.

7. sensor module according to claim 6, it is characterised in that also including first environment luminance sensor and Two ambient light sensors, the first environment luminance sensor is integrated in first integrated chip, the second environment Luminance sensor is integrated in second integrated chip.

8. a kind of panel assembly, it is characterised in that including panel module and the biography of the side of the inner surface for being arranged at face mould group Sensor module, the sensor module and panel module interval setting；The sensor module include the first optical transmitting set, first Optical receiver and the second optical receiver；The probing light that first optical transmitting set sends forms remote after obstacle reflection Optical signal and dipped beam signal, first optical receiver is used to receive the dipped beam signal, and second optical receiver is used for Receive distance light signal.

9. panel assembly according to claim 8, it is characterised in that first optical receiver and the first optical transmitting set it Between distance be less than the distance between second optical receiver and the first optical transmitting set.

10. panel assembly according to claim 9, it is characterised in that the panel module includes panel, is arranged at panel The ink layer of inner surface；The probing light that first optical transmitting set sends is launched to obstacle through after the ink layer, Launch to the ink layer Jing after obstacle reflection, then through the ink layer send out be injected into first optical receiver and Second optical receiver.

11. panel assemblies according to claim 10, it is characterised in that the ink layer includes clear ink layer and screening Gloss oil layer of ink, the clear ink layer is arranged at the panel inner surface, and the black-out ink layer is arranged at the clear ink In the one side away from the panel of layer；

The first light hole and the second light hole, first optical transmitting set and the first light are offered in the black-out ink layer Receptor is relative with the first light hole, and second optical receiver is relative with the second light hole；

First optical transmitting set sends probing light by first light hole, and the probing light reflects through obstacle After sequentially pass through the clear ink layer and the first light hole is incident upon first optical receiver, the probing light is passed through The clear ink layer is sequentially passed through after obstacle reflection and the second light hole is incident upon second optical receiver.

12. panel assemblies according to claim 11, it is characterised in that in first light hole and the second light hole It is filled with clear ink.

13. panel assemblies according to claim 11 or 12, it is characterised in that first light hole includes detached the One light-emitting hole and the first light admitting aperture, first optical transmitting set is relative with first light-emitting hole, first light Receptor is relative with first light admitting aperture.

14. panel assemblies according to claim 11 or 12, it is characterised in that the black-out ink layer is black ink Layer；The clear ink layer is white ink layer.

15. panel assemblies according to claim 9, it is characterised in that first optical transmitting set, the first optical receiver with And second optical receiver be generally aligned in the same plane and interval setting.

16. panel assemblies according to claim 15, it is characterised in that first optical transmitting set and the first optical receiver The first integrated chip of integrally disposed formation, first integrated chip and the second optical receiver interval setting.

17. panel assemblies according to claim 9, it is characterised in that also including the second optical transmitting set, second light is sent out The probing light that emitter sends reflexes to respectively the first optical receiver and the second optical receiver after obstacle reflection, described Second optical transmitting set, the first optical transmitting set, the first optical receiver and the second optical receiver are generally aligned in the same plane and interval setting.

18. panel assemblies according to claim 17, it is characterised in that first optical transmitting set and the first optical receiver The first integrated chip of integrally disposed formation, second optical transmitting set and the second optical receiver the second integrated core of integrally disposed formation Piece, first integrated chip and the second integrated chip interval setting.

19. panel assemblies according to claim 18, it is characterised in that also including first environment luminance sensor and Two ambient light sensors, the first environment luminance sensor is integrated in first integrated chip, the second environment Luminance sensor is integrated in second integrated chip.

20. a kind of mobile terminals, it is characterised in that described including housing, control circuit, sensor module and panel module Control circuit and sensor module are installed in enclosure interior, and the panel module is installed on housing, the control circuit point Do not electrically connect with sensor module and panel module；The sensor module is the sensing described in any one of claim 1-7 Device module.

21. a kind of mobile terminals, it is characterised in that including housing and panel assembly, the panel assembly and the housing phase Even, the panel assembly is the panel assembly described in any one of claim 8-19.