CN208386724U - Image-forming assembly and electronic equipment - Google Patents

Abstract

The application discloses a kind of image-forming assembly, including Image Acquisition contrary the first camera assembly and the second camera assembly, first camera assembly includes depth device and camera, depth device is for capturing deep image information, camera is for capturing color image information, second camera assembly is for being shot, and the second camera assembly is between depth device and camera.The space utilization rate of above-mentioned image-forming assembly is high.A kind of electronic equipment is also disclosed in the application.

Description

Image-forming assembly and electronic equipment

Technical field

This application involves technical field of electronic products more particularly to a kind of image-forming assemblies and electronic equipment.

Background technique

With the development of science and technology with the demand in market, equipped with the knowledge to carry out recognition of face on more and more mobile phones Other component, recognition of face can be not only used for unlocking and waking up mobile terminal, can also be applied to mobile payment, account login etc. Deng being widely applied because it is convenient, highly-safe feature.The camera shooting for shooting image is further equipped on conventional mobile phone Mould group.Since camera module and recognizer component arrangement are more scattered, cause interior of mobile phone space utilization rate low.

Utility model content

The application provides a kind of image-forming assembly and electronic equipment that space utilization rate is high.

The embodiment of the present application adopts the following technical scheme that

On the one hand, a kind of image-forming assembly is provided, is imaged including the first contrary camera assembly of Image Acquisition and second Component, first camera assembly include depth device and camera, and the depth device is for capturing deep image information, institute Camera is stated for capturing color image information, second camera assembly is for being shot, second camera assembly position Between the depth device and the camera.

On the other hand, a kind of electronic equipment, including receiver and above-mentioned image-forming assembly are also provided, the receiver is used for will Audio electrical signal is converted into voice signal, and the receiver is between the depth device and the camera.

In another aspect, also providing a kind of electronic equipment, including shell and above-mentioned image-forming assembly, the image-forming assembly are contained in The enclosure interior, the shell are provided with one or more functions portion, so that the image-forming assembly can be by one Or multiple function parts transmit signal.

In the application image-forming assembly and electronic equipment, due to the second camera assembly be located at depth device and camera it Between, therefore the arrangement of the second camera assembly and the first camera assembly is compact, improves the space utilization rate of image-forming assembly, imaging group Part is high to the utilization rate in electronic equipment internal space.

Detailed description of the invention

In order to illustrate more clearly of the technical solution of the application, attached drawing needed in embodiment will be made below Simply introduce, it should be apparent that, the accompanying drawings in the following description is only some embodiments of the application, general for this field For logical technical staff, without creative efforts, other attached drawings can also be obtained such as these attached drawings.

Fig. 1 is the structural schematic diagram of a kind of electronic equipment provided by the embodiments of the present application；

Fig. 2 is structural schematic diagram of the electronic equipment shown in Fig. 1 in another use state；

Fig. 3 is structural schematic diagram of the electronic equipment shown in Fig. 1 in another angle；

Fig. 4 is the decomposition diagram of electronic equipment shown in Fig. 1；

Fig. 5 is structural schematic diagram of the electronic equipment shown in Fig. 1 in another angle；

Fig. 6 is the shell of electronic equipment shown in Fig. 1 and the structural schematic diagram of electronic building brick；

Fig. 7 is the decomposition diagram of structure shown in Fig. 6；

Fig. 8 is decomposition diagram of the structure shown in Fig. 6 in another angle；

Fig. 9 is structural schematic diagram of the structure shown in Fig. 6 at line A-A；

Figure 10 is the structural schematic diagram of electronic building brick in structure shown in Fig. 7；

Figure 11 is the partial structure diagram of electronic building brick shown in Figure 10；

Figure 12 is the decomposition diagram of structure shown in Figure 11；

Figure 13 is decomposition diagram of the structure shown in Figure 11 in another angle；

Figure 14 is the decomposition diagram of the first camera assembly in structure shown in Figure 11 and first support；

Figure 15 is the decomposition diagram of the first camera assembly in structure shown in Figure 11 and first support in another angle；

Figure 16 is the decomposition diagram of the second camera assembly and second support in structure shown in Figure 11；

Figure 17 is the positional diagram of the second camera assembly and receiver in structure shown in Figure 11；

Figure 18 is the partial structure diagram in front housing portion in structure shown in Fig. 7；

Figure 19 is the matching relationship schematic diagram in front housing portion and part-structure in electronic building brick in structure shown in Fig. 7；

Figure 20 is the matching relationship schematic diagram of front shroud and front housing portion in structure shown in Fig. 7；

Figure 21 is partial structure diagram of the structure shown in Fig. 6 at line B-B；

Figure 22 is the structural schematic diagram of light guide in structure shown in Figure 21；

Figure 23 is structural schematic diagram of the light guide shown in Figure 22 in another angle；

Figure 24 is the flow diagram of the control method of a kind of electronic equipment provided by the present application；

Figure 25 is another flow diagram of the control method of a kind of electronic equipment provided by the present application；

Figure 26 is that the application provides the structural schematic diagram of another electronic equipment；

Figure 27 is structural schematic diagram of the electronic equipment shown in Figure 26 in another angle；

Figure 28 is the decomposition diagram of electronic equipment shown in Figure 26.

Specific embodiment

Below in conjunction with the attached drawing in the embodiment of the present application, technical solutions in the embodiments of the present application is described, and is shown So, described embodiments are only a part of embodiments of the present application, instead of all the embodiments.Based on the reality in the application Example is applied, every other embodiment obtained by those of ordinary skill in the art without making creative efforts all belongs to In the range of the application protection.It should be noted that in the absence of conflict, in presently filed embodiment and embodiment Feature can be combined with each other.

In addition, the explanation of following embodiment is referred to the additional illustration, the spy that can be used to implement to illustrate the application Determine embodiment.The direction term being previously mentioned in the application, for example, "upper", "lower", "front", "rear", "left", "right", "inner", "outside", " side " etc. are only the directions with reference to annexed drawings, and therefore, the direction term used is to more preferably, more clearly say It is bright and understand the application, rather than indicate or imply signified device or element and must have a particular orientation, with specific side Position construction and operation, therefore should not be understood as the limitation to the application.

In the description of the present application, it should be noted that unless otherwise clearly defined and limited, term " installation ", " phase Even ", " connection ", " be arranged exist ... on " shall be understood in a broad sense, for example, it may be being fixedly connected, be also possible to removably connect It connects, or is integrally connected；It can be mechanical connection；It can be directly connected, can also indirectly connected through an intermediary, it can To be the connection inside two elements.For the ordinary skill in the art, above-mentioned term can be understood with concrete condition Concrete meaning in this application.The meaning of " plurality " is two or more.

Also referring to Fig. 1 to Fig. 4, Fig. 1 is the structural representation of a kind of electronic equipment 1000 provided by the embodiments of the present application Figure.Fig. 2 is structural schematic diagram of the electronic equipment 1000 shown in Fig. 1 in another use state.Fig. 3 is that electronics shown in Fig. 1 is set Standby 1000 another angle structural schematic diagram.Fig. 4 is the decomposition diagram of electronic equipment 1000 shown in Fig. 1.

The application electronic equipment 1000 can be any equipment for having communication and store function, such as: tablet computer, hand Mechanical, electrical sub- reader, remote controler, personal computer (Personal Computer, PC), laptop, mobile unit, net The equipment such as network TV, wearable device.Wherein, for ease of description, Fig. 1 is please referred to, which is in electronic equipment 1000 For referring to being defined, electronic equipment 1000 has width direction X, length direction Y and a thickness direction Z, length direction Y perpendicular to Width direction X, thickness direction Z is perpendicular to width direction X and length direction Y.

Also referring to Fig. 1 and Fig. 2, electronic equipment 1000 includes center 100, shell 200 and electronic building brick 300.Electronics Component 300 is housed in inside shell 200.Shell 200 is slidably connected center 100, and electronic building brick 300 stretches out center with shell 200 100 or retract center 100.

Also referring to Fig. 3 and Fig. 4, center 100 includes the side end face 1001 of a pair of opposing and is connected to an opposite side Top end face 1002 between end face 1001.Wherein, center 100 further includes the bottom face 1003 being disposed opposite to each other with top end face 1002. Bottom face 1003 is also connected between a pair of of side end face 1001.In general, top end face 1002 and bottom face 1003 can be along width sides Extend to X.Namely top end face 1002 and bottom face 1003 are the short side of electronic equipment 1000.Bottom face 1003 is for electricity of arranging Connector, microphone, the loudspeaker etc. of sub- equipment 1000.A pair of of side end face 1001 extends along its length.Namely side end face 1001 be the long side of electronic equipment 1000.Volume key, Kato deck etc. of the side end face 1001 for electronic equipment 1000 of arranging.

Holding tank 1004 is offered on top end face 1002.Holding tank 1004 is from top end face 1002 to 100 inner recess of center. Holding tank 1004 runs through a pair of of side end face 1001.Shell 200 is slidably connected in holding tank 1004 with center 100.In other words, shell Body 200 is slidably connected center 100, to stretch out or retract holding tank 1004.Wherein, shell 200 includes opposite first side 2001 and second side 2002.Shell 200 further includes the top surface being connected between first side 2001 and second side 2002 2003.Top surface 2003 is arranged away from center 100.When shell 200 retracts holding tank 1004, first side 2001 and one of side End face 1001 is spliced, and second side 2002 and another side end face 1001 are spliced, and top surface 2003 and top end face 1002 splice.Mutually spell The first side 2001 connect is concordant with lateral ends 1001.Mutually the second side 2002 of splicing is concordant with the side end face 1001 of splicing. Mutually the top surface 2003 of splicing is concordant with top end face 1002.When shell 200 stretches out holding tank 1004, top surface 2003 and top end face Spacing is formed between 1002.

Electronic building brick 300 is contained in inside shell 200.Shell 200 further includes opposite front 2004 and the back side 2005.Just Face 2004 is connected between first side 2001 and second side 2002 and connects top surface 2003.The back side 2005 is connected to the first side Between face 2001 and second side 2002 and connection top surface 2003.Shell 200 is provided with one or more functions portion 2006, with Electronic building brick 300 is set to transmit signal by one or more functions portion 2006.One or more functions portion 2006 can arrange On front 2004 or arrangement is overleaf arranged on front 2004 and the back side 2005 on 2005 or simultaneously.Electronic building brick 300 Including multiple devices.The corresponding device of the signal that function part 2006 is penetrated is adapted.For example, device is camera or sudden strain of a muscle Light lamp, then function part 2006 penetrates optical signal.Device is receiver, then function part 2006 penetrates voice signal.Due to holding tank 1004 through a pair of of side end face 1001, therefore the shell 200 being slidably mounted in holding tank 1004 can have biggish volume, To store more devices.

In the present embodiment, when shell 200, which carries electronic building brick 300, retracts holding tank 1004, the front of shell 200 2004 and the back side 2005 blocked by center 100, namely set on front 2004 and the back side 2005 one or more functions portion 2006 It is blocked by center 100.When shell 200, which carries electronic building brick 300, stretches out holding tank 1004, it is set to front 2004 and the back side 2005 one or more functions portion 2006 exposes, so that the device in electronic building brick 300 can be through one or more function Energy portion 2006 transmits signal, to interact with user.

Also referring to Fig. 3 and Fig. 4, function part 2006 can also be arranged in the top surface 2003 of shell 200, first side On one or more of 2001 or second side 2002.In top surface 2003, first side 2001 or second side 2002 Function part 2006 shell stretch out or retract holding tank 1004 when, be all exposed, therefore these corresponding devices of function part 2006 Part can transmit signal by function part 2006 when shell 200 stretches out or retracts holding tank 1004, to carry out with user Interaction.

In this application, referring to Fig. 3,1002 certain distance of top end face of center 100 is protruded in the top surface 2003 of shell 200 When, then it is defined as the fully extended center 100 of shell 200, in other words, shell 200 is in stretching state at this time.At this point, being set to shell Function part 2006 on body 200 exposes.Referring to figure 2., the top surface 2003 of shell 200 and the top end face 1002 of center 100 are concordant When, then it is defined as shell 200 and is contained in holding tank 1004 completely, in other words, shell 200 is in retracted mode at this time.At this point, It is hidden set on the front 2004 of shell 200 and the function part 2006 at the back side 2005.

Also referring to Fig. 3 and Fig. 4, center 100 includes frame 101 and is covered on the front housing 102 of 101 two sides of frame with after Shell 103.Front housing 102, the top 1011 of frame 101 and rear shell 103 surround holding tank 1004 jointly.The top 1011 of frame 101 The top of opposite front housing 102 and the top recess of rear shell 103.When shell 200 is contained in holding tank 1004, front housing 102, shell 200 and rear shell 103 formed be similar to sandwich structure so that electronic equipment 1000 falls or by external collision When, front housing 102 and rear shell 103 can provide protection to shell 200 therein is located at, and prevent shell 200 and are contained in shell 200 Electronic building brick 300 damage.

Also referring to Fig. 1 and Fig. 4, electronic equipment 1000 further includes display screen 400.Display screen 400 is installed on front housing 102.Display screen 400 can be touching display screen, to realize display and touch function.Display screen 400 is including glass cover-plate and admittedly Due to the display module of glass cover-plate.Display module can be organic light-emitting diode display mould group or liquid crystal display die set.

Also referring to Fig. 3 and Fig. 4, electronic equipment 1000 further includes rear cover 500.Rear cover 500 is installed on rear shell 103.Its In, rear cover 500 can be display screen, and rear cover 500 and display screen 400 constitute double-display screen structure, so that electronic equipment 1000 Display mode diversification.Rear cover 500 or metal cover board or glass cover-plate.

In this application, since electronic building brick 300 is set in shell 200, shell 200 in holding tank 1004 with center 100 are slidably connected, therefore electronic building brick 300 can skid off when need to use, with the expansion of opposite display screen 400, to avoid Because the use of electronic building brick 300 limits the screen accounting bring of the display screen 400 of electronic equipment 1000, be conducive to improve electricity The screen accounting of sub- equipment 1000.

Referring to Fig. 5, Fig. 5 is structural schematic diagram of the electronic equipment 1000 shown in Fig. 1 in another angle.

Inner cavity (not shown) is formed inside center 100.Part of the inner space of center 100 in addition to holding tank 1004 It is defined as the inner cavity of center 100, i.e. holding tank 1004 (refering to Fig. 4) and inner cavity forms the complete inner space of center 100. Electronic equipment 1000 further includes mainboard 600 and battery 700.Mainboard 600 and battery 700 are contained in inner cavity.Mainboard 600 is electrically Connect battery 700.Mainboard 600 is equipped with the chips such as processor, memory.Device electric in electronic building brick 300 is connected to master Plate 600.

Electronic equipment 1000 further includes driving mechanism 800 and guiding mechanism 900.Driving mechanism 800 is set to inner cavity.Guiding Mechanism 900 is partly or entirely set to inner cavity.Driving mechanism 800 is electrically connected mainboard 600.Driving mechanism 800 is used for driving shell It is mobile relative to center 100 that body 200 carries electronic building brick 300.Guiding mechanism 900 is set between shell 200 and center 100.It leads It is used to form shell 200 to mechanism 900 and limit, so that shell 200 is moved along the direction that guiding mechanism 900 is guided.Change speech It, shell 200 is slidably connected in holding tank 1004 with center 100 through driving mechanism 800.Guiding mechanism 900 is set to shell Between 200 and center 100, so that shell 200 is stretched under the driving of driving mechanism 800 along the direction that guiding mechanism 900 guides Out or it is contained in holding tank 1004.In a kind of embodiment, length of 900 guide housing 200 of guiding mechanism along electronic equipment 1000 Direction Y is mobile.

In the present embodiment, it is slided since guiding mechanism 900 can make shell 200 carry electronic building brick 300 with respect to center 100 It when dynamic, be maintained on scheduled track and move, to guarantee the accuracy and stationarity when shell 200 slides.

Wherein, driving mechanism 800 may include motor, drive rod and drive block.Mainboard 600 is electrically connected motor, to control The motion state of motor processed.The affixed motor in one end of drive rod, motor driven drive rod rotation.Drive block is set on drive rod To be rotatablely connected drive rod, and the affixed shell 200 of drive rod.When motor driven drive rod rotation, band of the drive block in drive rod Under dynamic, carry electronic building brick 300 and slided with respect to center 100.In other embodiments, driving mechanism 800 can also have other compositions Mode, such as driving mechanism 800 include the first magnetic part and the second magnetic part, and the first magnetic part is fixed on shell 200, and second Magnetic part is fixed in center 100.When first magnetic part and the second magnetic part repel each other, shell 200 stretches out holding tank 1004.The When one magnetic part and attracting the second magnetic part, shell 200 retracts holding tank 1004.

Wherein, guiding mechanism 900 may include sliding rail 901 and sliding block 902.One of sliding rail 901 or sliding block 902 are fixed on Center 100, another one are fixed on shell 200.Sliding block 902 slides in sliding rail 901.Wherein, 900 settable one groups of guiding mechanism Or multiple groups.For example, guiding mechanism 900 is provided with two groups, and two groups of guidance sets are intervally arranged in Fig. 5.

It is referring to Figure 6 together the shell 200 of electronic equipment 1000 shown in Fig. 1 and the knot of electronic building brick 300 to Fig. 8, Fig. 6 Structure schematic diagram.Fig. 7 is the decomposition diagram of structure shown in Fig. 6.Fig. 8 is exploded pictorial of the structure shown in Fig. 6 in another angle Figure.

Electronic building brick 300 is mounted on shell 200, and electronic building brick 300 is contained in inside shell 200.Electronic building brick 300 It is mobile with shell 200.Shell 200 plays a protective role to electronic building brick 300.

Shell 200 includes main casing portion 201, front shroud 202 and back shroud 203.Front shroud 202 and back shroud 203 cover respectively Set on the two sides in main casing portion 201.Front housing 102 of the front shroud 202 towards center 100, rear shell of the back shroud 203 towards center 100 103.The direction of front shroud 202 and display screen 400 (refering to Fig. 4) are towards identical.The direction of back shroud 203 and the (ginseng of rear cover 500 Read Fig. 4) towards identical.Main casing portion 201 includes rear shell portion 204 and front housing portion 205.It rear shell portion 204 can phase with front housing portion 205 Mutually cooperation is fixed.Front shroud 202, which covers, is located at the side that front housing portion 205 deviates from rear shell portion 204.Front shroud 202 can pass through bond It is adhesively fixed in front housing portion 205.Back shroud 203, which covers, is located at the side that rear shell portion 204 deviates from front housing portion 205.Back shroud 203 It can be adhesively fixed on by bond in rear shell portion 204.

Referring to Figure 7 together and Fig. 8, shell 200 are equipped with multiple function parts 2006.Electronic building brick 300 in shell 200 Device by multiple function parts 2006 transmit signal.The part of devices of electronic building brick 300 is towards front shroud 202, partial function Portion 2006 is set to front shroud 202, to the signal by respective devices.The part of devices of electronic building brick 300 is towards back shroud 203, partial function portion 2006 is set to back shroud 203, to the signal by respective devices.

Wherein, the signal that the structure with respective devices of function part 2006 are transmitted is corresponding.Function part 2006 transmits letter Number includes but be not limited in voice signal, visible light signal and black light signal.For example, front shroud 202 includes substrate 2021 With the coating 2022 for being attached to substrate 2021.Substrate 2021 uses transparent material, can pass through visible light and black light.Coating 2022 block visible light.Front shroud 202 is equipped with for by the function part 2006 of voice signal, in 2006 range of function part Substrate 2021 and coating 2022 are equipped with through-hole structure, to transmit voice signal.Front shroud 202 is equipped with for passing through visible light signal Function part 2006,2021 not aperture of substrate, 2022 aperture of coating in 2006 range of function part.Front shroud 202, which is equipped with, to be used In the function part 2006 for passing through black light (such as infrared light), when coating 2022 can pass through black light, the function part 2022 not aperture of substrate 2021 and coating in 2006 ranges, when coating 2022 can not pass through black light, the function part 2021 not aperture of substrate, 2022 aperture of coating in 2006 ranges.The stepped construction of back shroud 203 is set with reference to front shroud 202 It sets, the structure type of the function part 2006 on back shroud 203 is arranged with reference to the function part 2006 on front shroud 202.

Referring to Figure 7 together and Fig. 8, front housing portion 205 corresponds to be equipped at the region of function part 2006 on front shroud 202 and wear Open-work 2051, the signal to the device by electronic building brick 300.Device in the equally corresponding electronic building brick 300 of through hole 2051 Part setting.Bond between front shroud 202 and front housing portion 205 is arranged around corresponding through hole 2051, close to realize Envelope.

Rear shell portion 204, which corresponds to, is equipped with through hole 2041 at the region of function part 2006 on back shroud 203, to pass through electricity The signal of the device of sub-component 300.Device setting in the equally corresponding electronic building brick 300 of through hole 2041.Set on back shroud 203 Bond between rear shell portion 204 is arranged around corresponding through hole 2041, to realize sealing.

Referring to Figure 7 together and Fig. 8, main casing portion 201 further include bound edge flange 206.Bound edge flange 206 is fixed on rear shell portion 204 periphery.Bound edge flange 206 can be integrally formed with rear shell portion 204.Back shroud 203 and front shroud 202 support bound edge flange 206.Bound edge flange 206 cover front shroud 202, back shroud 203, front housing portion 205 and rear shell portion 204 outer ledge.Shell 200 When retracting holding tank 1004 (refering to Fig. 4), bound edge flange 206 covers the opening of holding tank 1004 and mutually spells with frame 101 It connects.After bound edge flange 206 and frame 101 splice, all side surfaces of electronic equipment 1000 are continuous and smooth.206 energy of bound edge flange Enough extraneous steam, dust etc. of reducing are into the risk inside electronic equipment 1000.The outer surface of bound edge flange 206 is that bound edge is convex Surface of the edge 206 far from rear shell portion 204.The outer surface of bound edge flange 206 forms the top surface 2003 of shell 200, first side 2001 and second side 2002.

Wherein, it may also set up functional portion 2006 on bound edge flange 206, the part of devices in electronic building brick 300 corresponds to Function part 2006 on bound edge flange 206 is arranged.Function part 2006 on bound edge flange 206 is realized by setting through-hole.

It is referring to Figure 6 together structural schematic diagram of the structure shown in Fig. 6 at line A-A to Fig. 9, Fig. 9.

The depression in centre in rear shell portion 204 is arranged, to form sunk area.The recess for being located at rear shell portion 204 is covered in front housing portion 205 Region sets out storage space 207 to enclose jointly with rear shell portion 204.Main casing portion 201 is equipped with recess towards the side of back shroud 203 Mounting groove 2081.Namely rear shell portion 204 is equipped with the mounting groove 2081 of recess towards the side of back shroud 203.Mounting groove 2081 Quantity can be one or more, such as two.Two mounting grooves 2081 are located at the two sides of storage space 207.Back shroud 203 Cover mounting groove 2081.Rear shell portion 204 can also be equipped with time mounting groove 2082 (refering to Fig. 8), secondary peace towards the side of back shroud 203 Tankage 2082 is located at 207 side of storage space.Secondary mounting groove 2082 is covered by back shroud 203.

In the application, the space inside shell 200 includes storage space 207, mounting groove 2081 and secondary mounting groove 2082.Electricity The part of devices of sub-component 300 is contained in storage space 207, and part of devices is contained in mounting groove 2081, and part of devices is contained in Secondary mounting groove 2082.

In other embodiments, the rear shell portion 204 Yu front housing portion 205 of shell 200 can also be made into a box like Structure, to form integrated space in cassette interior, to accommodate electronic building brick 300.

It is the structural schematic diagram of electronic building brick 300 in structure shown in Fig. 7, Figure 11 also referring to Figure 10 to Figure 13, Figure 10 It is the partial structure diagram of electronic building brick 300 shown in Figure 10, Figure 12 is the decomposition diagram of structure shown in Figure 11, and Figure 13 is figure Decomposition diagram of the structure shown in 11 in another angle.

Electronic building brick 300 include image-forming assembly 10, receiver 3, OPTICAL SENSORS mould group 4, photosensitive sensors 5, microphone 6, Anneta module 7, main circuit board 8 and circuit board 9.Image-forming assembly 10 includes contrary 1 He of the first camera assembly of Image Acquisition Second camera assembly 2.First camera assembly 1 is for obtaining identification information.Second camera assembly 2 for shot (take pictures or Video recording).Receiver 3 is used to audio electrical signal being converted into voice signal.OPTICAL SENSORS mould group 4 is for incuding ambient brightness and object Body is close to distance.OPTICAL SENSORS mould group 4 is infrared transmitter, proximity sensor, the three-in-one mould group of ambient light sensor.Light sensation passes Sensor 5 is for detecting ambient light intensity.Microphone 6 is used to voice signal being converted to electric signal.Anneta module 7 for emit and Receive electromagnetic wave.

Wherein, image-forming assembly (including the first camera assembly 1 and second camera assembly 2), receiver 3, OPTICAL SENSORS mould group 4, photosensitive sensors 5 and circuit board 9 are contained in the storage space 207 of shell 200.Anneta module 7 is installed on mounting groove 2081, Anneta module 7 is for receiving and dispatching the electromagnetic wave across back shroud 203.Microphone 6 is installed on time mounting groove 2082.Main circuit Plate 8 is flexible circuit board.Main circuit board 8 is partially housed in storage space 207, is contained in storage space 207 to be electrically connected Interior device.8 part of main circuit board and Anneta module 7 are electrically connected.The space inside shell 200 is stretched out in 8 part of main circuit board, To be electrically connected mainboard 600 (refering to Fig. 5).When shell 200 is mobile relative to center 100, deformation occurs for main circuit board 8.

Also referring to Figure 11 to Figure 13, the first camera assembly 1 includes depth device 11 and camera 12.Depth device 11 For capturing deep image information.Camera 12 is for capturing color image information.First camera assembly 1 is through 8 electricity of main circuit board Property connection mainboard 600 (refering to Fig. 5).Chip (such as picture processing chip) obtains and handles the depth of depth device 11 on mainboard 600 After spending image information and the color image information of camera 12, the color image with depth information is formed.Depth device 11 with Gap is formed between camera 12.Second camera assembly 2 is between depth device 11 and camera 12.

In the present embodiment, since the second camera assembly 2 is between depth device 11 and camera 12, second is taken the photograph As component 2 and the arrangement of the first camera assembly 1 are compact, the space utilization rate of image-forming assembly 10 is improved, image-forming assembly 10 is to shell The utilization rate of 200 inner space of body is high, namely high to the utilization rate of 1000 inner space of electronic equipment.Due to the second camera assembly 2 arrange with the first camera assembly 1 it is compact, therefore shell 200 carry image-forming assembly 10 stretch out holding tank 1004 when, second camera shooting Component 2 substantially synchronous can expose with function part 2006 corresponding to the first camera assembly 1, stretch completely to reduce shell 200 Stroke required for holding tank 1004 out reduces the energy consumption of electronic equipment 1000.

Wherein, refering to Fig. 7, the Image Acquisition direction of the first camera assembly 1 is towards 202 direction of front shroud of shell 200.Before Cover board 202 is equipped with the one or more functions portion 2006 of the first camera assembly of face 1.Front housing portion 205, which is equipped with, corresponds to these function The through hole 2051 in energy portion 2006.First camera assembly 1 transmits signal by corresponding function part 2006.It is taken the photograph refering to Fig. 8, second As the Image Acquisition direction of component 2 is towards 203 direction of back shroud of shell 200.Back shroud 203 is equipped with the second camera shooting of face group The one or more functions portion 2006 of part 2.Rear shell portion 204 is equipped with the through hole 2041 corresponding to these function parts 2006.Second Camera assembly 2 transmits signal by corresponding function part 2006.

In this application, when shell 200 carries the stretching holding tank 1004 of electronic building brick 300, corresponding to the first camera assembly 1 2006 opposing electronic device 1000 of function part display screen 400 expose, so as to obtain the identification information of user；Second The rear cover 500 of 2006 opposing electronic device 1000 of function part corresponding to camera assembly 2 exposes, so as to realize shooting.By It arranges in the first camera assembly 1 with the second camera assembly 2 compact, therefore shell 200 only needs to skid off lesser distance, can make Function part 2006 corresponding to one camera assembly 1 and the second camera assembly 2 exposes simultaneously, the first camera assembly 1 and the second camera shooting Component 2 transmits signal by corresponding function part 2006, to realize interaction.It is slided since shell 200 stretches out needed for holding tank 1004 Dynamic distance is smaller, therefore the reaction speed that image-forming assembly 10 is interacted with user is very fast, and can reduce electronic equipment 1000 Energy consumption.

Also referring to the first camera assembly 1 and the first support 13 that Figure 11 to Figure 15, Figure 14 are in structure shown in Figure 11 Decomposition diagram.Figure 15 is the decomposition of the first camera assembly 1 in structure shown in Figure 11 and first support 13 in another angle Schematic diagram.Structure in Figure 15 is corresponding with the structure in Figure 14.

Image-forming assembly 10 further includes first support 13.First support 13 is fixed in the storage space 207 of shell 200.The Each device of one camera assembly 1 is mountable to first support 13, to improve the assembly precision of the first camera assembly 1, makes first to take the photograph As component 1 realizes modularization.Depth device 11 and camera 12 are mounted on first support 13.

In one embodiment, depth device 11 is infrared camera.First camera assembly 1 further includes the projector 14.Projection Device 14 is installed on first support 13.The projector 14 is the projector for issuing infrared light, such as the infrared laser projector.Projection Device 14 receives the reflected infrared light of main body that is taken according to shooting main body projected spot, depth device 11, is obtained by calculating Take the spatial information i.e. deep image information of subject.Certainly, in other embodiments, depth device 11 can be with other Suitable for capturing device of deep image information, such as ultraviolet camera, light field camera, ranging camera head etc..It is corresponding, by It is to receive to be taken the reflected deep image information of main body in depth device 11, therefore the emitted signal of the projector 14 and depth Device 11 is corresponding, for example depth device 11 is ultraviolet camera, then the projector 14 is the ultraviolet laser for issuing ultraviolet light The projector.

The first camera assembly 1 in the application can be applied to the application scenarios of recognition of face, and in other words, shooting main body is Face.The specific work process of first camera assembly 1 are as follows: the projector 14 is used to emit the infrared light Jing Guo particular modulation to shooting Object；Depth device 11 is received by the reflected infrared light of subject, and the space of subject is obtained by calculating Information；Camera 12 is used to carry out color image shooting to shooting object；The image that depth device 11 and camera 12 capture Information can be sent to picture processing chip (can be set to mainboard 600), and picture processing chip can be by deep image information and color Image information set obtains target image through algorithm process, which can be the color image for having depth information.

When 12 pairs of shooting objects of depth device 11 and camera carry out image information capture, the image information of the two has weight It is folded, defined herein as image overlay region information.And picture processing chip exactly handles image overlay region information and is generated The color image for having depth information.Therefore, the size of the mutual spacing between depth device 11, camera 12 and the projector 14 It is related to the superiority and inferiority of the shooting performance of the first camera assembly 1.

Infrared camera, camera and the scattered side for being arranged in electronic equipment of the infrared laser projector of conventional electronic devices Angular zone, when assembly, the practical spacing between infrared camera, camera and the infrared laser projector is led due to repeatedly assembling It causes error larger and then larger with required spacing difference, influences the shooting performance of the first picture shooting assembly.Also, due to The comparison that the precision of the size of mutual spacing between infrared camera, camera and the infrared laser projector needs to control is smart Standard can also bring biggish difficulty to assembly, be unfavorable for assembling.

The application is fixed in first support 13 by the way that depth device 11, camera 12 and the projector 14 to be respectively mounted, and is made It obtains the first camera assembly 1 during installation, only each device of the first camera assembly 1 need to be installed on first support 13, can be realized The installation of above-mentioned multiple devices improves installation effectiveness, and can guarantee installation accuracy.

Wherein, as shown in figure 11, the projector 14 is located at side of the camera 12 far from depth device 11.That is, camera 12 between depth device 11 and the projector 14.Due to camera 12 and the relatively close setting of depth device 11, so that camera shooting First 12 with depth device 11 can on along 1000 thickness direction Z of electronic equipment it is shorter at a distance from have image information overlapping, So that face can also be identified when closer from electronic equipment 1000, further improve the first camera assembly 1 into The reliability of row recognition of face.

Also referring to Figure 11 to Figure 13, first support 13 is equipped with evacuation area 131.It is installed on the depth device of first support 13 Part 11 and camera 12 are located at the two sides in evacuation area 131.Second camera assembly 2 is partly or entirely contained in evacuation area 131.The application is illustrated so that the second camera assembly 2 is partially housed in evacuation area 131 as an example.Due to the second camera assembly 2 Divide or be all contained in the evacuation area 131 of first support 13, therefore the arrangement of the second camera assembly 2 and the first camera assembly 1 is more It is compact.And due to being provided with the second camera assembly 2 between depth device 11 and camera 12, depth device 11 with take the photograph As light will not be altered between first 12, it is also beneficial to improve the identification certainty of the first camera assembly 1.

Also referring to Figure 14 and Figure 15, first support 13 includes plate body 132.Plate body 132 includes sequentially connected first Fixed plate 1321, connecting plate 1322 and the second fixed plate 1323.In one embodiment, the first fixed plate 1321, connecting plate 1322 And second fixed plate 1323 be arranged in first direction.First direction is parallel to the width direction X of electronic equipment 1000.Perpendicular to In the second direction of first direction, the side of connecting plate 1322 is recessed with respect to the first fixed plate 1321 and the second fixed plate 1323, Area 131 is avoided to be formed.Namely on the length direction Y of electronic equipment 1000,1322 side of connecting plate is recessed to form evacuation area 131.Evacuation area 131 is formed in side of the first support 13 far from bound edge flange 206 (refering to Fig. 7).

First support 13 further includes the first limitting casing 133 and the second limitting casing 134.First limitting casing, 133 projection is first In the plate face 13211 of fixed plate 1321.First limitting casing 133 is located at side of first fixed plate 1321 towards rear shell portion 204.It is deep Degree device 11 is installed on 133 inside of the first limitting casing.First fixed plate 1321 is equipped with through-hole 13212, and 13212 face of through-hole is deep Spend device 11.Second limitting casing, 134 projection is in the plate face 13231 of the second fixed plate 1323.Second limitting casing 134 is located at second Side of the fixed plate 1323 towards rear shell portion 204.Camera 12 is installed on 134 inside of the second limitting casing.Second fixed plate 1323 Equipped with through-hole 13232, the 13232 face camera 12 of through-hole.Wherein, the projector 14 is also mountable in the second limitting casing 134 Side.Second fixed plate 1323 is equipped with through-hole 13233, the 13233 face projector 14 of through-hole.

Also referring to Figure 11 to Figure 15, the first camera assembly 1 further includes infrared light compensating lamp 15.Infrared light compensating lamp 15 is installed In first support 13, and infrared light compensating lamp 15 is located at side of the depth device 11 far from camera 12.Infrared light compensating lamp 15 through with Its corresponding function part 2006 on front shroud 202 emits infrared light.Infrared light compensating lamp 15 is used in the first camera assembly 1 Identification process in, carry out light reinforcement, depth device 11 enable to capture more accurately deep image information, to improve the The identification certainty of one camera assembly 1.In other embodiments, the signal that the light compensating lamp of the first camera assembly 1 issues is with depth The signal intensity that device 11 identifies.

It is the second camera assembly 2 and second support 21 in structure shown in Figure 11 also referring to Figure 11 and Figure 16, Figure 16 Decomposition diagram.

Image-forming assembly 10 further includes second support 21.Second support 21 is partly or entirely contained in evacuation area 131.Second takes the photograph As component 2 is installed on second support 21.The application is illustrated so that second support 21 is partially housed in evacuation area 131 as an example.The After two camera assemblies 2 are installed on second support 21, modularization can be realized, thus with modular first camera assembly 1 (containing the One bracket 13) it is assembled, to improve the component efficiency of electronic equipment 1000.

Wherein, second support 21 forms the first accommodating space 2101 and the second accommodating space 2102 being spaced each other.Second Camera assembly 2 includes the first camera 22 and second camera 23.First camera 22 is contained in the first accommodating space 2101.The Two cameras 23 are contained in the second accommodating space 2102.

Wherein, it please refers to Figure 11, the orientation of the first camera 22 and second camera 23 and depth device 11 and takes the photograph As first 12 orientation is identical.In one embodiment, the orientation of the first camera 22 and second camera 23 is parallel to The short side direction X of electronic equipment 1000.The orientation of depth device 11 and camera 12 is also parallel with electronic equipment 1000 Short side direction X.When shell 200 stretches out holding tank 1004, shell 200 only needs mobile shorter distance that can make the first camera shooting First 22 and second camera 23 and depth device 11 and camera 12 expose simultaneously, reduce the power consumption of electronic equipment 1000.

In this application, the structure of second support 21 being designed with the first camera 22 and second camera 23.The The shape in the evacuation area 131 of one bracket 13 is configured with the outer contour shape of second support 21, enables second support 21 It carries the second camera assembly 2 preferably to be cooperated with first support 13, the row of the second camera assembly 2 and the first camera assembly 1 Cloth is more compact, and the space utilization rate of image-forming assembly 10 is higher.

Figure 16 is please referred to, second support 21 includes framework 211 and separator 212.Separator 212 is set to 211 inside of framework, The space of 211 inside of framework is isolated the first accommodating space 2101 and the second accommodating space 2102.Wherein, framework 211 can It is integrally formed using metal material.Settable reinforcing rib 2111 on one or more side walls of framework 211, to increase framework 211 Structural strength.Framework 211 is arranged around the first camera 22 and second camera 23, to realize protection.Separator 212 It is isolated between the first camera 22 and second camera 23, can prevent the two from falling or being hit in electronic equipment 1000 When collide with each other.

Wherein, the second camera assembly 2 further includes flash lamp 24.Separator 212 is including support plate 2121 and is connected to support The fixed plate 2122 at 2121 both ends of plate.Fixed plate 2122 is fixed on the medial surface of framework 211, and support plate 2121 is used to support sudden strain of a muscle Light lamp 24.

Wherein, the support plate 2121 and fixed plate 2122 of separator 212, which are enclosed, sets out a third accommodating space 2103.Third is received Hold space 2103 and is formed in the side that support plate 2121 is not used in support flash lamp 24.The partial circuit of first camera 22 (can Comprising handling chip) it is contained in third accommodating space 2103.

It is the position of the second camera assembly 2 and receiver 3 in structure shown in Figure 11 also referring to Figure 11 and Figure 17, Figure 17 Relation schematic diagram.

Second camera 23 and receiver 3 are located at the same side of the first camera 22.Receiver 3 includes the first lateral surface 31 With the second lateral surface 32 of the first lateral surface 31 of connection.First lateral surface 31 and the second lateral surface 32 are adjacent.First lateral surface 31 are arranged towards the first camera 22, and the second lateral surface 32 is arranged towards second camera 23.At this point, receiver 3 is close simultaneously First camera 22 and second camera 23 are arranged.In one embodiment, the first camera 22 and second camera 23 are set in electronics It is arranged on standby 1000 width direction X, second camera 23 and receiver 3 are arranged on the length direction Y of electronic equipment 1000 Column.

In the present embodiment, the volume of the first camera 22 is greater than the volume of second camera 23.Second camera 23 has There is the first side 231 of the first camera 22 of direction and is separately connected second side 232 and the third side 233 at 231 both ends of the first side.By In second camera 23 volume less than the first camera 22, therefore the first camera 22 with second camera 23 close to arrangement When, second side 232 of second camera 23 and third side 233 are recessed with respect to the first camera 22, to form sunk area 234。

First lateral surface 31 of the receiver 3 in the present embodiment is arranged towards the first camera 22,32 face of the second lateral surface Above-mentioned sunk area 234 is utilized and arranges to the setting of second camera 23 namely receiver 3, so that receiver 3, first The arrangement of camera 22 and second camera 23 is more compact, improves the utilization rate to 200 inner space of shell, so that electric Sub- 1000 inner space utilization rate of equipment is high.

Furthermore receiver 3, the first camera 22 and second camera 23 arrange it is compact, therefore receiver 3 and second camera shooting Component 2 is using the intermediate region at 1000 top of electronic equipment, to improve the usage experience of user.For example, second can be taken the photograph Region is hit exactly as component 2 is arranged in, the position of receiver 3 is adjusted according to the position of the first camera 22 and second camera 23 It is whole.It, can be by the way that leading note knot be arranged although being also not much different at this point, receiver 3 hits exactly region slightly offset from electronic equipment 1000 Structure, so that the center region for going out sound region and being still located at electronic equipment 1000 of receiver 3.

Wherein, the first camera 22 is focal length camera, and second camera 23 is wide-angle camera.The body of focal length camera Product is greater than wide-angle camera.In other embodiments, the first camera 22 is colour imagery shot, and second camera 23 is taken the photograph for black and white As head or the first camera 22 can also have other combinations with second camera 23.

Wherein, the second lateral surface 32 is arranged also facing the flash lamp 24 of the second camera assembly 2.Due to the volume of flash lamp 24 Smaller, flash lamp 24 is set between the first camera 22 and second camera 23 of the second camera assembly 2, therefore flash lamp 24 Two sides the region of recess, and the aforementioned sunk area 234 of the regional connectivity can be equally formed with respect to the first camera 22.Therefore And when the second lateral surface 32 is arranged also facing flash lamp 24, the region of 24 two sides of flash lamp is further utilized in receiver 3, So that the arrangement between receiver 3 and the second camera assembly 2 is more compact.

Also referring to Figure 12 to Figure 14, receiver 3 is between depth device 11 and camera 12.First support 13 Connecting plate 1322 is equipped with through-hole 1324.Receiver 3 is installed in the plate face 13221 of connecting plate 1322 and face through-hole 1324. The sound that receiver 3 issues is spread out of by the through-hole 1324.Receiver 3 is located at side of the connecting plate 1322 towards rear shell portion 204. Receiver 3 goes out sound direction towards front housing portion 205 and front shroud 202.

It is the part-structure signal in front housing portion 205 in structure shown in Fig. 7 also referring to Figure 14, Figure 18 to Figure 20, Figure 18 Figure, Figure 19 are the matching relationship schematic diagram in front housing portion 204 and part-structure in electronic building brick 300 in structure shown in Fig. 7, Figure 20 It is the matching relationship schematic diagram of front shroud 202 and front housing portion 205 in structure shown in Fig. 7.

Main casing portion 201 is equipped with leading note channel 2053 towards the side of front shroud 202.Namely front housing portion 205 is logical equipped with leading note Road 2053.Leading note channel 2053 includes entrance area 2054 and exit region 2055.Entrance area 2054 and exit region 2055 It is arranged on the length direction Y of electronic equipment.Wherein, exit region 2055 closer to front housing portion 205 top, namely closer to Bound edge flange 206 (refering to Fig. 7).

The 2054 face receiver 3 of entrance area in leading note channel 2053 is arranged.The central region of front shroud 202 is equipped with sound Hole 2021.Sound outlet hole 2021 can be from the one side of front shroud 202 202 inner recess of cover board forward.The outlet in leading note channel 2053 Region 2055 is connected between entrance area 2054 and sound outlet hole 2021.In other words, the connection of leading note channel 2053 is in sound outlet hole Between 2021 and the through-hole 1324 of connecting plate 1322.The sound that receiver 3 issues passes through through-hole 1324, entrance area 2054, goes out Mouth region domain 2055 and sound outlet hole 2021 are transferred to outside electronic equipment 1000.

In the present embodiment, by the way that leading note channel 2053 is arranged in front housing portion 205, so that the sound that receiver 3 issues The direction of propagation changes, and the sound outlet hole 2021 that the sound that receiver 3 issues can be located at 202 central region of front shroud passes Out, to improve user experience.Wherein, the sound outlet hole 2021 in the present embodiment corresponds to the center position of electronic equipment 1000. In other embodiments, sound outlet hole 2021 can also deviate the center position setting of electronic equipment 1000.

Wherein, Figure 20 is please referred to, shell 200 further includes filter plate 2056.The setting of filter plate 2056 is in front shroud 202 with before Between shell portion 205.Filter plate 2056 covers sound outlet hole 2021.Filter plate 2056 covers leading note channel 2053 simultaneously.Filter plate 2056 are equipped with multiple sound apertures 2057 out.The multiple positive sound outlet hole 2021 of sound aperture 2057 settings out.

Also referring to Figure 13 to Figure 15 and Figure 19, electronic building brick 300 further includes auxiliary stand 31.Auxiliary stand 31 is solid Due in the plate face 13221 of the connecting plate 1322 of first support 13.Auxiliary stand 31 is located at connecting plate 1322 towards rear shell portion 204 side.Auxiliary stand 31, which encloses, sets out installation space 32, and installation space 32 is connected to the through-hole 1324 of connecting plate 1322.It is called Device 3 is installed in installation space 32.Auxiliary stand 31 can be limited and be protected to receiver 3, prevent receiver 3 in electronics It is damaged when equipment 1000 is fallen or hit.

Wherein, the first adhesive sheet 33, the first adhesive sheet are equipped between auxiliary stand 31 and the plate face 13221 of connecting plate 1322 33 for making auxiliary stand 31 be fixed on connecting plate 1322.First adhesive sheet 33 is arranged around through-hole 1324.First adhesive sheet 33 The gap between auxiliary stand 31 and the plate face 13221 of connecting plate 1322 can be sealed, prevents sound from leaking.First adhesive sheet 33 Flexible material can be used, to realize buffer function.

Wherein, auxiliary stand 31 is equipped with the second adhesive sheet 34 towards the side of installation space 32.Second adhesive sheet 34 is located at Between auxiliary stand 31 and receiver 3.Second adhesive sheet 34 is bonded receiver 3 and auxiliary stand 31.Second adhesive sheet 34 is surround The vibrating diaphragm of receiver 3 is arranged.Second adhesive sheet 34 can seal the gap between auxiliary stand 31 and receiver 3, prevent sound Leakage.Flexible material can be used in second adhesive sheet 34, to realize buffer function.

Optionally, also referring to Figure 11, Figure 12 and Figure 14, OPTICAL SENSORS mould group 4 is located at receiver 3 and depth device Between 11.OPTICAL SENSORS mould group 4 is installed in the plate face 13222 of the connecting plate 1322 of first support 13.Plate face 13222 and plate face 13221 are disposed opposite to each other.OPTICAL SENSORS mould group 4 is located at side of the connecting plate 1322 towards front housing portion 205.4 row of OPTICAL SENSORS mould group It is distributed at the region for being closer to 1000 center of electronic equipment, can be improved sensing sensitivity.OPTICAL SENSORS mould group 4 by with its The corresponding function part 2006 on front shroud 202 transmits signal.When shell 200 retracts holding tank 1004, OPTICAL SENSORS mould Function part 2006 corresponding to group 4 is blocked, and OPTICAL SENSORS mould group 4 is without interaction；When shell 200 stretches out holding tank 1004, Function part 2006 corresponding to OPTICAL SENSORS mould group 4 exposes, and OPTICAL SENSORS mould group 4 interacts.

Wherein, first support 13 further includes supporting block 135.Connecting plate 1322 of 135 projection of supporting block in first support 13 Plate face 13222 on.Supporting block 135 is located at side of the connecting plate 1322 towards rear shell portion 204.Supporting block 135 is in connecting plate Projection on 1322 is Chong Die with projection section of the OPTICAL SENSORS mould group 4 on connecting plate 1322 or is all overlapped.Supporting block 135 The support strength of connecting plate 1322 can be increased.

Referring to Figure 6 together, Figure 21 to Figure 23, Figure 21 are partial structure diagram of the structure shown in Fig. 6 at line B-B, Figure 22 is the structural schematic diagram of light guide 51 in structure shown in Figure 21, and Figure 23 is light guide 51 shown in Figure 22 in another angle Structural schematic diagram.

Electronic building brick 300 further includes light guide 51.Shell 200 is equipped with incidence hole 2061.Incidence hole 2061 is electronic building brick Function part corresponding to 300 photosensitive sensors 5.Incidence hole 2061 can be set to the bound edge flange 206 of shell 200.Light guide 51 It is contained in 200 inside of shell and partially protrudes into incidence hole 2061.Light guide 51 can be contained in storage space 207.Light guide 51 have opposite incidence surface 511 and light-emitting surface 512.Incidence surface 511 is towards outside shell 200.Incidence surface 511 can receive Light outside shell 200.Light-emitting surface 512 is towards inside shell 200.The area of light-emitting surface 512 is greater than the face of incidence surface 511 Product.Photosensitive sensors 5 are contained in 200 inside of shell and face light-emitting surface 512.Photosensitive sensors 5 are mountable to first support 13 (referring to Figure 11 and Figure 12).

In the present embodiment, since incidence hole 2061 is set in the shell 200 of electronic equipment 1000, rather than it is arranged in electricity On the display screen 400 of sub- equipment 1000, therefore the setting of incidence hole 2061 is without limitation on the screen accounting of display screen 400, so that electric The screen accounting of sub- equipment 1000 is larger.Since the area of light-emitting surface 512 is greater than the area of incidence surface 511, guaranteeing light sensation When the area of the induction light of sensor 5 is larger, the perforated area of the incidence hole 2061 on shell 200 can also be reduced, to improve electricity The appearance consistency of sub- equipment 1000, also the extraneous steam of reduction, dust etc. enter the wind inside shell 200 through incidence hole 2061 Danger.

Since incidence hole 2061 is arranged on bound edge flange 206, when shell 200 stretches out or retracts holding tank 1004, bound edge Flange 206 is all exposed, therefore the incidence surface 511 exposed through incidence hole 2061 is always positioned at the outside of electronic equipment 1000, in electricity In the various usage scenarios of sub- equipment 1000, incidence surface 511 can receive ambient light, so photosensitive sensors 5 can one Straight work.

In this application, also referring to Figure 10 and Figure 11, electronic equipment 1000 further includes OPTICAL SENSORS mould group 4, light sensation Device mould group 4 is surveyed for incuding ambient brightness and object proximity distance, therefore the application tool can be used for detecting environment there are two device Luminous intensity.Since OPTICAL SENSORS mould group 4 transmits signal by being set to the function part 2006 of front shroud 202, shell 200 stretches out When holding tank 1004, OPTICAL SENSORS mould group 4 and photosensitive sensors 5 can detect ambient light intensity, and OPTICAL SENSORS mould group 4 simultaneously It is different with the direction that photosensitive sensors 5 detect, improve the detection sensitivity of electronic equipment 1000；Shell 200 retracts holding tank When 1004, OPTICAL SENSORS mould group 4 does not work, and photosensitive sensors 5 detect ambient light intensity.

Furthermore refering to Figure 21, due to being provided with light guide 51, photosensitive sensors 5 can between incidence hole 2061 shape A fixed spacing can be formed between bound edge flange 206 at a fixed spacing namely photosensitive sensors 5, the setting of photosensitive sensors 5 is not Meeting forms limitation to the structure of bound edge flange 206, and bound edge flange 206 can be set to arc, to improve the gripping experience of user.

Wherein, referring to Fig. 7, top side (the i.e. top surface of shell 200 of bound edge flange 206 is arranged in incidence hole 2061 2003).The top side of bound edge flange 206 can form a plane domain 2062, and incidence hole 2061 is set to the plane domain 2062.When So, in other embodiments, incidence hole 2061 may also be arranged on the other positions of the outer surface of bound edge flange 206.

Wherein, referring to Figure 7 together and Figure 21, shell 200 has lateral surface (2003,2001,2002).Bound edge flange 206 outer surface forms the lateral surface (2003,2001,2002).The lateral surface includes the top surface 2003, first of shell 200 Side 2001 and second side 2002.511 part or all of opposite exterior lateral sides face (2003,2001,2002) of incidence surface protrusion.

For example, Figure 21 is please referred to, partly or entirely opposite 206 top side of bound edge flange (the i.e. top of shell 200 of incidence surface 511 Face 2003) plane domain 2062 protrude.At this point, shell 200 is less to blocking for incidence surface 511, in addition do not block completely into Smooth surface 511, enables incidence surface 511 to receive more ambient lights, and light guide 51 preferably can guide ambient to enter Photosensitive sensors 5.

Please refer to Figure 21, the fringe region that incidence surface 511 has central area 5111 and is arranged around central area 5111 5112.5111 opposed edge sections 5112 of central area protrusion.At this point, the area of incidence surface 511 is larger, more ambient lights Line is able to enter light guide 51.Wherein, incidence surface 511 is cambered surface.

Figure 21 is please referred to, photosensitive sensors 5 have photosensitive area 52, and light-emitting surface 512 covers photosensitive area 52.In other words, light out Face 512 photosensitive area 52 projection in the plane photosensitive area 52 is completely covered.At this point, photosensitive area 52 can sufficiently receive light out The light that face 512 is projected, to improve detection efficiency and sensitivity.Wherein, light-emitting surface 512 is parallel to photosensitive area 52.

Figure 21 is please referred to, shell 200 has medial surface (2063).Medial surface (2063) forms locating slot 2064.Locating slot 2064 connection incidence holes 2061.For example, incidence hole 2061 is arranged on bound edge flange 206, bound edge flange 206 is towards storage space 207 inner surface 2063 forms a part of 200 medial surface of shell.It is formed on the inner surface 2063 of bound edge flange 206 recessed Sunken locating slot 2064.

Referring to Figure 2 together 1 to Figure 23, light guide 51 includes light in part 513 and light out part 514.Light out part 514 connect into Light portion 513.Incidence surface 511 is the end face that light in part 513 deviates from light out part 514.Light-emitting surface 512 is that light out part 514 deviates from into light The end face in portion 513.Environment light enters light in part 513 from incidence surface 511, light out part 514 is then passed to, then by light-emitting surface 512 project.Light in part 513 is arranged in incidence hole 2061, and light out part 514 is partly or entirely embedded at locating slot 2064.At this point, leading Light part 51 is fixed to one another with shell 200, difficult to slide.Meanwhile light out part 514 is towards can adhering and sealing on the face of light in part 513 Part, sealing element are arranged continuously around light in part 513.Sealing element is supported trough wall surface in light out part 514 and locating slot 2064 On, to realize sealing, prevent external dust, steam etc. from entering the inside of shell 200 through incidence hole 2061.

Wherein, in incidence surface 511 on the direction of light-emitting surface 512, the cross-sectional area of light in part 513 is incremented by.Light in part 513 Shape be substantially in truncated cone-shaped, be conducive to light and transmitted in light in part 513, and can spread apart, even into light out part 514。

Wherein, light guide 51 further includes positioning region 515.Positioning region 515 and light out part 514, which enclose, sets out accommodating space 516.Hold 516 for accommodating photosensitive sensors 5 between emptying.Be contained in accommodating space 516 photosensitive sensors 5 can by positioning region 515 and Light out part 514 is protected, and avoids being damaged when electronic equipment 1000 falls or hit.Wherein, light-emitting surface 512 and light sensation pass Gap is formed between the photosensitive area 52 of sensor 5.

Also referring to Fig. 8 and Figure 11, sound inlet 2065 is additionally provided on the bound edge flange 206 of shell 200.Sound inlet 2065 It is connected to time mounting groove 2082.Microphone 6 is contained in time mounting groove 2082 and face sound outlet hole 2021 is arranged.External sound pass through into Sound hole 2065 enters microphone 6.When shell 200 stretches out or retracts holding tank 1004, microphone 6 through sound inlet 2065 and can be used Family interacts.

Also referring to Fig. 8 to Figure 10, Anneta module 7 includes first antenna module 71 and the second Anneta module 72.First Anneta module 71 and the second Anneta module 72 are located in two mounting grooves 2081.The device being contained in storage space 207 Between first antenna module 71 and the second Anneta module 72.For example, the first camera assembly 1 and the second camera assembly 2 are located at Between first antenna module 71 and the second Anneta module 72.

Wherein, microphone 6 is arranged close to first antenna module 71, and the circuit board of microphone 6 can be electrically connected to first day The circuit board of wire module 71, the circuit board of first antenna module 71 are electrically connected to main circuit board 8.

Figure 12 is please referred to, the circuit board 9 of electronic building brick 300 includes that multiple incoming ends (92,93,94) and one pick out end 91.Circuit board 9 can be flexible circuit board.Circuit board 9 can ride upon in first support 13, different incoming end (92,93,94) It is fixed on the different location of first support 13.Photosensitive sensors 5, OPTICAL SENSORS mould group 4 and infrared light compensating lamp 15 are fixed respectively In different incoming ends (92,93,94).It picks out end 91 and is connected to main circuit board 8.

For example, circuit board 9 includes the first incoming end 92 and the second incoming end 93.Photosensitive sensors 5 are welded in the first access End 92.OPTICAL SENSORS mould group 4 is welded in the second incoming end 93.Circuit board 9 further includes third incoming end 94.Infrared light compensating lamp 15 is welded It is connected to third incoming end 94.First incoming end 92, the second incoming end 93 and third incoming end 94 ride upon in first support 13. First incoming end 92 rides upon the side towards bound edge flange 206 of first support 13.Second incoming end 93 rides upon first The side towards front housing portion 205 of frame 13.Third incoming end 94 rides upon the side towards front housing portion 205 of first support 13, Third incoming end 94 and the second incoming end 93 interval are arranged.

Multiple positioning columns 136, settable multiple location holes 95 on circuit board 9 can be equipped in first support 13.Circuit board 9 is taken When being located in first support 13, positioning column 136 protrudes into location hole 95, so that circuit board 9 and first support 13 are solid relative to each other It is fixed.

Also referring to Figure 11 to Figure 13, the main circuit board 8 of electronic building brick 300 include multiple access ends 81 and one or It is multiple to pick out end 82.First camera assembly 1, the second camera assembly 2, Anneta module 7, circuit board 9 are electrically connected to different Access end 81.One or more picks out end 82 and is electrically connected to mainboard 600.Wherein, flash lamp 24 can weld in main circuit On plate 8.

Also referring to Fig. 3, Fig. 4, Fig. 7, Fig. 8, the window of connection holding tank 1004 is equipped at the top of the rear shell 103 of center 100 Mouth 104.The window 104 can be formed from 100 top end face 1002 of center to 103 inner recess of rear shell.The receiving of first camera 22 In shell 200, the Image Acquisition direction of the first camera 22 is towards rear shell 103.Shell 200 is equipped with the first camera of face 22 The function part 2006 of (refering to fig. 1 1).Function part 2006 corresponding to the first camera 22 is set to back shroud 203.Shell 200 contracts When returning holding tank 1004, the first camera 22 is blocked by rear shell 103.Namely 2006 quilt of function part of the first camera of face 22 It blocks.When shell 200 stretches out holding tank 1004, the Image Acquisition face of the first camera 22 is exposed through window 104.Namely face The function part 2006 of one camera 22 exposes.

In the present embodiment, since rear shell 103 is provided with window 104, shell 200 stretches out holding tank 1004 compared with short distance From when, the Image Acquisition face of the first camera 22 can be exposed by window 104, to be shot, realize interaction.So The setting of window 104 so that skidding off when shell 200 stretches out distance is shorter, be conducive to the reaction speed for improving the first camera 22 Degree reduces the energy consumption of electronic equipment 1000.

In this application, the front shroud 202 of shell 200 is equipped with multiple function parts 2006 for corresponding to the first camera assembly 1. When shell 200 retracts holding tank 1004, the first camera assembly 1 and its function part 2006 of electronic equipment 1000 are hidden by front housing 102 Gear.When shell 200 stretches out holding tank 1004, the function part 2006 corresponding to the first camera assembly 1 exposes, the first camera assembly 1 It realizes and interacts through corresponding function portion 2006.

Due to be also placed between the first camera 22 and the top surface 2003 of shell 200 other component (such as first support 13, OPTICAL SENSORS mould group 4), and the top surface 2003 that the first camera assembly 1 is directly adjacent to shell 200 is arranged, therefore the first camera assembly 1 Opposite first camera 22 is closer to the top surface of shell 200 2003.In the present embodiment, by the way that window 104 is arranged, so that shell When 200 stretching holding tank 1004, function corresponding to function part 2006 corresponding to the first camera assembly 1 and the first camera 22 Energy portion 2006 can substantially expose simultaneously, and the shift motion of shell 200 is shorter.

Optionally, glide direction of the orientation of second camera 23 and the first camera 22 perpendicular to shell 200.If In vertical with the orientation of two function parts 2006 of second camera 23 corresponding to the first camera 22 on back shroud 203 In the glide direction of shell 200.When shell 200 stretches out holding tank 1004, function part 2006 corresponding to second camera 23 with Function part 2006 corresponding to first camera 22 can expose simultaneously.Wherein, correspond to the first camera 22 and the second camera shooting First 23 two function parts 2006 are also combinable at a function part 2006.In one embodiment, second camera 23 is taken the photograph with first As first 22 orientation is parallel to the width direction X of electronic equipment 1000, the glide direction of shell 200 is parallel to electronics and sets Standby 1000 length direction Y.

Wherein, Fig. 3 and Figure 11 are please referred to, flash lamp 24 is in the orientation of second camera 23 and the first camera 22 Arrangement, the function part 2006 (function part is located in the middle in Fig. 3) corresponding to flash lamp 24 on back shroud 203 is in correspondence It is arranged in the orientation of the first camera 22 and two function parts 2006 of second camera 23.It stretches out and holds in shell 200 It receives during slot 1004, it is right before two function parts 2006 of the first camera 22 and second camera 23 are completely exposed It should be completely exposed one step ahead in the function part 2006 of flash lamp 24.

Also referring to Fig. 3 and Fig. 8, shell 200 further includes convex block 209.Convex block 209 is fixed on main casing portion 201 after The side of cover board 203, namely it is fixed on rear shell portion 204.The edge 2031 of back shroud 203 supports convex block 209.Back shroud 203 2031 shape of edge is adapted with the shape of convex block 209.The thickness of convex block 209 is greater than the thickness of back shroud 203.Shell 200 contracts When returning holding tank 1004, back shroud 203 is retracted in holding tank 1004, and convex block 209 covers window 104 and supports rear shell 103.This When, convex block 209 is held in rear shell 103 towards the wall surface of window 104.The shape of convex block 209 is adapted with the shape of window 104. When shell 200 stretches out holding tank 1004, convex block 209 is detached from rear shell 103, and window 104 exposes, function part 2006 on back shroud 203 It can expose through window 104.

Wherein, convex block 209 is arc block.In other embodiments, convex block 209 or rectangular block.

Wherein, convex block 209 supports bound edge flange 206.Convex block 209 can be fixed on bound edge flange 206 by snap fit.It is convex Block 209 is surrounded by bound edge flange 206 and back shroud 203.

In this application, electronic building brick 300 can also include the devices such as iris recognition mould group, fingerprint recognition mould group, key One of or it is a variety of.

Figure 24 is please referred to, Figure 24 is the flow diagram of the control method of a kind of electronic equipment provided by the present application.This Shen Please electronic equipment control method be applied to above-mentioned electronic equipment 1000 (please referring to Fig. 1 to Figure 23) in.Specifically, refering to Fig. 3, Electronic equipment 1000 includes center 100, shell 200 and the electronic building brick 300 being contained in shell 200.Center 100 offers appearance Receive slot 1004, shell 200 is slidably connected in holding tank 1004.0 and Figure 11 refering to fig. 1, electronic building brick 300 are taken the photograph including first As component 1.First camera assembly 1 includes depth device 11, camera 12 and the projector 14.

The control method of electronic equipment provided by the embodiments of the present application includes:

110: receiving identification instruction.

Specifically, identification instruction can be handed over by user and electronic equipment 1000 by touch action, voice, brain wave etc. Mutual mode inputs.

130: instructing control shell 200 to stretch out holding tank 1004 according to identification.

Specifically, control shell 200 skids off preset strokes with respect to holding tank 1004 so that the first camera assembly 1 no longer by It blocks, and can be with the external transmitting for carrying out signal.

150: when the distance that shell 200 slides reaches pre-determined distance threshold value, then controlling the first camera assembly 1 and obtain target Image information.

Specifically, particular modulation is passed through in the transmitting of the projector 14 when the distance that shell 200 slides reaches pre-determined distance threshold value Infrared light to shooting main body；Depth device 11 is received by the reflected infrared light of the main body that is taken, and obtains quilt by calculating Shoot the spatial information of main body；Camera 12 is used to carry out color image shooting to shooting main body；Depth device 11 and camera 12 image informations captured can be sent to picture processing chip, and picture processing chip can be by deep image information and chromaticity diagram As information aggregate, target image is obtained through algorithm process, which can be the color image for having information.

Wherein, when 12 pairs of shooting main bodys of depth device 11 and camera carry out image information capture, the image information of the two Overlapping is had, defined herein as image overlay region information.And picture processing chip is exactly handled image overlay region information And the color image for having information is generated, for identification.

After the control method of electronic equipment provided by the embodiments of the present application is by input identification instruction, shell can be controlled After 200 slidings reach pre-determined distance threshold value, the first camera assembly 1 of control obtains target image, and high degree of automation improves use Family experience.

It wherein, is the control method of a kind of electronic equipment provided by the present application also referring to Fig. 3, Fig. 8 and Figure 25, Figure 25 Another flow diagram.Electronic building brick 300 in electronic equipment 1000 further includes the second camera assembly 2.

The control method of electronic equipment further include:

210: receiving shooting instruction.Specifically, identification instruction can be dynamic by touching by user and electronic equipment 1000 The input of the interactive modes such as work, voice, brain wave.

230: shell 200 being controlled according to shooting instruction and stretches out holding tank 1004.It is accommodated specifically, control shell 200 is opposite Slot 1004 skids off preset strokes, so that the second camera assembly 2 is no longer blocked, and can be with the external transmitting for carrying out signal.

250: when the distance that shell 200 slides reaches pre-determined distance threshold value, then controlling the second camera assembly 2 and obtain target Image information.Specifically, the first camera 22 and second camera 23 in the second camera assembly 2 can acquire image letter simultaneously Breath, two group image informations form target image after carrying out algorithm process by the chip for being set to mainboard 600.

Referring to Figure 2 together 6 to Figure 28, Figure 26 are the structural representations of another electronic equipment 3000 provided by the present application Figure, Figure 27 is structural schematic diagram of the electronic equipment 3000 shown in Figure 26 in another angle, and Figure 28 is electronic equipment shown in Figure 26 3000 decomposition diagram.

Electronic equipment 3000 is unlike aforementioned electronic devices 1000 described by the present embodiment:

Electronic equipment 3000 includes display screen 3001, center 3002, rear cover 3003 and electronic building brick 3004 in the present embodiment (structure of electronic building brick 3004 is arranged referring to the electronic building brick 300 of aforementioned electronic devices 1000).Display screen 3001 and rear cover 3003 are covered on the two sides of center 3002 respectively, and enclose jointly and set out complete machine inner cavity 3005, and electronic building brick 3004 is contained in complete machine Inner cavity 3005.

In the present embodiment, since electronic building brick 3004 is no longer contained in the shell that can be slided with respect to center, but it is straight Reception is dissolved in complete machine inner cavity 3005, therefore electronic building brick 3004 is fixed with respect to display screen 3001 and rear cover 3003.

Wherein, the mutual alignment relation and connection relationship etc. of each device can refer to aforementioned electronic devices in electronic building brick 3004 1000 electronic building brick 300 is configured.For example, electronic building brick 3004 includes the first camera assembly 3006, the second camera assembly 3007, receiver 3008, OPTICAL SENSORS mould group (not shown), photosensitive sensors 3009, microphone (not shown), day Wire module (not shown), main circuit board (not shown) and circuit board (not shown).

First camera assembly 3006 is for obtaining identification information.The Image Acquisition direction direction of first camera assembly 3006 is aobvious Display screen 3001.Display screen 3001 is equipped with function part 30011 corresponding with the first camera assembly 3006, to pass through first The signal that camera assembly 3006 is identified.

Second camera assembly 3007 is for taking pictures or recording a video.The Image Acquisition direction of second camera assembly 3007 is towards rear cover 3003.Rear cover 3003 is equipped with function part 30031 corresponding with the second camera assembly 3007, to pass through the second camera shooting group The light signal collected of part 3007.

Receiver 3008 is used to audio electrical signal being converted into voice signal.Receiver 3008 goes out sound direction towards display Screen 3001.Display screen 3001 is equipped with function part 30012 corresponding with receiver 3008, to pass through receiver 3008 Voice signal.

OPTICAL SENSORS mould group is for incuding ambient brightness and object proximity distance.The detection direction direction of light sensing mould group is aobvious Display screen 3001.Display screen 3001 is equipped with function part corresponding with light sensing mould group, is sensed to pass through light sensing mould group Light signal.

Photosensitive sensors 3009 are for detecting ambient light intensity.The detection direction of photosensitive sensors 3009 is towards center 3002 Top (or side or bottom).Center 3002 is equipped with function part 30021 corresponding with photosensitive sensors 3009, to The light signal sensed across photosensitive sensors 3009.

Microphone is used to voice signal being converted to electric signal.The radio reception direction of microphone is towards the top of center 3002 (or side or bottom).Center 3002 is equipped with function part corresponding with microphone, the sound received to pass through microphone Sound signal.

It is understood that display screen 3001 includes glass cover-plate 30014 and is fixed on aobvious on the inside of glass cover-plate 30014 Show mould group 30016.Function part on display screen 3001 is set to glass cover-plate 30014, and function part (30011,30012) with Display module 30016 is staggered.

In one embodiment, function part 30021 corresponding to photosensitive sensors 3009 is incidence hole.

For example, electronic equipment 3000 includes light guide 3010 (specific structure light guide 51 into Figure 23 refering to Figure 21) and light Propagated sensation sensor 3009.Center 3002 be equipped with incidence hole 2061, light guide 3010 be contained in complete machine inner cavity 3005 and partially protrude into Unthreaded hole 2061.Light guide 3010 has opposite incidence surface and light-emitting surface.Incidence surface is towards outside shell center 3002, light-emitting surface Towards 3002 enclosure interior of center (complete machine inner cavity 3005), the area of light-emitting surface is greater than the area of incidence surface, photosensitive sensors 3009 are contained in complete machine inner cavity 3005 and face light-emitting surface.

In the present embodiment, since incidence hole 2061 is arranged in center 3002, rather than the aobvious of electronic equipment 3000 is set In display screen 3001, therefore the setting of incidence hole 2061 is without limitation on the screen accounting of display screen 3001, so that electronic equipment 3000 It is larger to shield accounting.Since the area of light-emitting surface is greater than the area of incidence surface, guaranteeing the induction light of photosensitive sensors 3009 Area it is larger when, the perforated area of the incidence hole 2061 on center 3002 can also be reduced, to improve the outer of electronic equipment 3000 Consistency is seen, the risk that extraneous steam, dust etc. enter complete machine inner cavity 3005 through incidence hole 2061 is also reduced.

In this application, electronic equipment 3000 further includes OPTICAL SENSORS mould group, therefore there are two devices for the tool of electronic equipment 3000 Part can be used for detecting ambient light intensity.Since OPTICAL SENSORS mould group transmits signal, light by being set to the function part of display screen 3001 Propagated sensation sensor 3009 transmits signal, therefore 3000 energy of electronic equipment by being set to the function part (incidence hole 2061) of center 3002 Enough from multiple orientation recognition ambient light intensities, detection speed and detection sensitivity are improved.

Furthermore due to being provided with light guide 3010, photosensitive sensors 3009 can be formed centainly between center 3002 Spacing, the setting of photosensitive sensors 3009, which will not be formed the structure of center 3002, to be limited, and center 3002 can be set to arc, To improve the gripping experience of user.

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 (20)

1. a kind of image-forming assembly, which is characterized in that including the first contrary camera assembly of Image Acquisition and the second camera shooting group Part, first camera assembly include depth device and camera, and the depth device is described for capturing deep image information Camera is for capturing color image information, and for being shot, second camera assembly is located at second camera assembly Between the depth device and the camera.

2. image-forming assembly as described in claim 1, which is characterized in that the image-forming assembly further includes first support, and described One is provided with evacuation area, and the depth device and the camera are mounted on the first support, and is located at described The two sides in area are avoided, second camera assembly is partly or entirely contained in the evacuation area.

3. image-forming assembly as claimed in claim 2, which is characterized in that the image-forming assembly further includes second support, and described Two holder parts are all contained in the evacuation area, and second camera assembly is installed on the second support.

4. image-forming assembly as claimed in claim 3, which is characterized in that the second support forms the first receiving being spaced each other Space and the second accommodating space, second camera assembly include the first camera and second camera, first camera It is contained in first accommodating space, the second camera is contained in second accommodating space.

5. image-forming assembly as claimed in claim 4, which is characterized in that the orientation of the depth device and the camera It is identical as the orientation of first camera and the second camera.

6. image-forming assembly as claimed in claim 4, which is characterized in that the second support includes framework and separator, described Separator is set on the inside of the framework, and the space on the inside of the framework is isolated first accommodating space and described second Accommodating space.

7. image-forming assembly as claimed in claim 6, which is characterized in that second camera assembly further includes flash lamp, described Separator includes support plate and the fixed plate for being connected to the support board ends, and the fixed plate is fixed on the inside of the framework On face, the support plate is used to support the flash lamp.

8. the image-forming assembly as described in any one of claim 2 to 7, which is characterized in that the first support includes plate body, institute Stating plate body includes along sequentially connected first fixed plate of first direction, connecting plate and the second fixed plate, perpendicular to described first In the second direction in direction, relatively described first fixed plate in the side of the connecting plate and second fixed plate recess, with shape At the evacuation area.

9. image-forming assembly as claimed in claim 8, which is characterized in that the first support further includes the first limitting casing and second Limitting casing, in the plate face of first fixed plate, the depth device is installed on described first for the first limitting casing projection On the inside of limitting casing, in the plate face of second fixed plate, the camera is installed on described for the second limitting casing projection On the inside of two limitting casings.

10. image-forming assembly as claimed in claim 9, which is characterized in that the first support further includes supporting block, the support Block projection is in the plate face of the connecting plate.

11. the image-forming assembly as described in any one of claim 2 to 7, which is characterized in that the depth device is infrared photography Head, first camera assembly further include the projector for issuing infrared light, and the projector is installed on the first support, And the projector is located at side of the camera far from the depth device.

12. the image-forming assembly as described in any one of claim 2 to 7, which is characterized in that first camera assembly further includes Infrared light compensating lamp, the infrared light compensating lamp is installed on the first support, and the infrared light compensating lamp is located at the depth device Side far from the camera.

13. a kind of electronic equipment, which is characterized in that including imaging group described in receiver and any one of claims 1 to 12 Part, the receiver are used to audio electrical signal being converted into voice signal, the receiver be located at the depth device with it is described Between camera.

14. electronic equipment as claimed in claim 13, which is characterized in that the electronic equipment further includes OPTICAL SENSORS mould group, For the OPTICAL SENSORS mould group for incuding ambient brightness and object proximity distance, the OPTICAL SENSORS mould group is located at the receiver Between depth device.

15. electronic equipment as claimed in claim 13, which is characterized in that the electronic equipment further include first antenna module and Second Anneta module, the first antenna module and second Anneta module electromagnetic wave for transmitting and receiving, described first Camera assembly and second camera assembly are between the first antenna module and second Anneta module.

16. a kind of electronic equipment, which is characterized in that including image-forming assembly described in shell and any one of claims 1 to 12, The image-forming assembly is contained in the enclosure interior, and the shell is provided with one or more functions portion, so that the imaging group Part can transmit signal by one or more of function parts.

17. electronic equipment as claimed in claim 16, which is characterized in that the electronic equipment further includes center, guiding mechanism And driving mechanism；

The center includes the side end face of a pair of opposing and the top end face that is connected between a pair of side end face, the top Holding tank is offered on end face, the holding tank is through a pair of side end face；

The shell is slidably connected in the holding tank with the center through the driving mechanism, and the guiding mechanism is set to Between the shell and center, so that the side that the shell guides under the driving of the driving mechanism along the guiding mechanism To stretching out or be contained in the holding tank.

18. electronic equipment as claimed in claim 17, which is characterized in that the shell includes main casing portion, front shroud and rear cover Plate, the image-forming assembly are contained in the main casing portion, and the front shroud and the back shroud are covered on the main casing portion respectively Two sides, towards the front shroud, the front shroud is equipped with described in face for the Image Acquisition direction of first camera assembly The one or more function parts of one camera assembly, the Image Acquisition direction of second camera assembly is towards the rear cover Plate, the back shroud are equipped with the one or more function part of the second camera assembly described in face.

19. electronic equipment as claimed in claim 18, which is characterized in that the side of main casing portion towards the back shroud is set There is the mounting groove of recess, the back shroud covers the mounting groove, and the electronic equipment further includes being installed on the mounting groove Anneta module, the Anneta module is for receiving and dispatching the electromagnetic wave across the back shroud.

20. the electronic equipment as described in any one of claim 17 to 19, which is characterized in that the center includes frame and lid Front housing and rear shell set on the frame two sides, the holding tank are total to by the front housing, the top of the frame and the rear shell With surrounding, the electronic equipment further includes display screen and rear cover, and the display screen is installed on the front housing, and the rear cover is installed on The rear shell.