CN208489881U - Depth acquires mould group and mobile terminal - Google Patents

Abstract

The utility model discloses a kind of depth to acquire mould group.It includes first substrate component, cushion block, the first optical device and the second optical device that depth, which acquires mould group,.First substrate component includes the first substrate and flexible circuit board interconnected.Cushion block is arranged on the first substrate.First optical device is arranged on cushion block.One end of flexible circuit board bending and flexible circuit board connects first substrate, and the other end connects the first optical device.Second optical device is arranged on the first substrate, and the second optical device includes shell and the optical element that is arranged on shell, and shell links into an integrated entity with cushion block.The invention also discloses a kind of mobile terminals.Since the first optical device is arranged on cushion block, cushion block, so that the difference in height of the first optical device and the second optical device reduces, can be avoided in the two transmitting or blocked when receiving optical signal by another with the height of padded first optical device.

Description

Depth acquires mould group and mobile terminal

Technical field

The utility model relates to 3 dimension imaging technology fields, more specifically, are related to a kind of depth acquisition mould group and movement Terminal.

Background technique

Flight time (time of flight, TOF) imaging system can emit optical signal by calculating light emitting devices Moment, at the time of receiving optical signal with optical receiver apparatus between time difference calculate the depth information of testee, in order to The overall dimensions for reducing flight time imaging system, light emitting devices and optical receiver apparatus can be arranged close to, however, working as light When emitter and optical receiver apparatus are leaned on closer, since the difference in height of light emitting devices and optical receiver apparatus may larger, light Emitter transmitting light may direct irradiation on the shell of optical receiver apparatus, cause light emitting devices emit light cannot It is irradiated on testee completely, or extraneous light may be stopped before entering optical receiver apparatus by light emitting devices.

Utility model content

The utility model embodiment provides a kind of depth acquisition mould group and mobile terminal.

The utility model embodiment depth acquisition mould group include first substrate component, cushion block, the first optical device and Second optical device.The first substrate component includes the first substrate and flexible circuit board interconnected.The cushion block setting On the first substrate.First optical device is arranged on the cushion block, the flexible circuit board bending and described soft Property circuit board one end connect the first substrate, the other end connects first optical device.Second optical device is set It sets on the first substrate, second optical device includes shell and the optical element that is arranged on shell, the shell It links into an integrated entity with the cushion block.

In some embodiments, first optical device is optical transmitting set, and the optical transmitting set is for launching outward Optical signal, second optical device are optical receiver, and the optical receiver is for receiving the optical transmitting set being reflected back toward The optical signal of transmitting.

In some embodiments, the cushion block is integrally formed with the shell.

In some embodiments, the optical transmitting set includes the second substrate component, light source assembly and shell.Described second Board unit is arranged on cushion block, and the second substrate component is connect with the flexible circuit board.The light source assembly setting exists On the second substrate component, the light source assembly is for emitting the optical signal.The shell is arranged in the second substrate On component, the shell is formed with accommodating space to accommodate the light source assembly.

In some embodiments, the second substrate component includes the second substrate and reinforcing member, the second substrate with The opposite two sides of the second substrate are arranged in the flexible circuit board connection, the light source assembly and the reinforcing member.

In some embodiments, the reinforcing member and the cushion block are integrally formed；Or the reinforcing member and the cushion block Fission molding.

In some embodiments, the first locating piece is formed on the reinforcing member, the cushion block includes ontology and formation The second locating piece on the body, the second substrate component are arranged when on the cushion block, first locating piece with The second locating piece cooperation.

In some embodiments, side of the cushion block in conjunction with the first substrate offers accommodating chamber, the depth Degree acquisition mould group further includes the electronic component of setting on the first substrate, and the electronic component is housed in the accommodating chamber It is interior.

In some embodiments, the cushion block offers the evacuation through-hole being connected to accommodating chamber described at least one, until A few electronic component protrudes into the evacuation through-hole.

In some embodiments, the first substrate component further includes stiffening plate, and the stiffening plate is incorporated in described The side opposite with the cushion block of one substrate.

In some embodiments, the cushion block includes the protrusion for stretching out the side edge of the first substrate, described soft Property circuit board around the protrusion bend be arranged.

In some embodiments, depth acquisition mould group further includes connector, and the connector is connected to described the On one substrate, and for connecting the first substrate component and external equipment, the connector and the flexible circuit board are distinguished It is connected to the opposite both ends of the first substrate.

In some embodiments, the optical transmitting set arranges along a straight line with the optical receiver, the connector with The flexible circuit board is located at the opposite two sides of the straight line.

The mobile terminal of the utility model embodiment includes the acquisition of depth described in casing and any of the above-described embodiment Mould group.The depth acquisition mould group installation is on the housing.

In the depth acquisition mould group and mobile terminal of the utility model embodiment, since the setting of the first optical device is being padded On block, cushion block can be with the height of padded first optical device, so that the height of the first optical device and the second optical device Difference reduces, and avoids in the two transmitting or is blocked when receiving optical signal by another.

The additional aspect and advantage of the embodiments of the present invention will be set forth in part in the description, partially will be from Become obvious in following description, or is recognized by the practice of the embodiments of the present invention.

Detailed description of the invention

In description of the above-mentioned and/or additional aspect and advantage of the utility model from combination following accompanying drawings to embodiment It will be apparent and be readily appreciated that, in which:

Fig. 1 is the schematic perspective view of a state of the mobile terminal of the utility model certain embodiments；

Fig. 2 is the schematic perspective view of another state of the mobile terminal of the utility model certain embodiments；

Fig. 3 is the schematic perspective view of the depth acquisition mould group of the utility model certain embodiments；

Fig. 4 is the schematic top plan view of the depth acquisition mould group of the utility model certain embodiments；

Fig. 5 is the elevational schematic view of the depth acquisition mould group of the utility model certain embodiments；

Fig. 6 is the schematic side view of the depth acquisition mould group of the utility model certain embodiments；

Fig. 7 is schematic cross-section of the depth acquisition mould group shown in Fig. 4 along VII-VII line；

Fig. 8 is the enlarged diagram of the part VIII in depth acquisition mould group shown in Fig. 7；

Fig. 9 is front knot of the depth acquisition mould group of the utility model certain embodiments when flexible circuit board is not bent Structure schematic diagram；

Figure 10 to Figure 13 is the structural schematic diagram of the optical transmitting set of the utility model certain embodiments.

Specific embodiment

The embodiments of the present invention is described further below in conjunction with attached drawing.Same or similar label in attached drawing Same or similar element or element with the same or similar functions are indicated from beginning to end.

In addition, the embodiments of the present invention described with reference to the accompanying drawing is exemplary, it is only used for explaining this reality With novel embodiment, and should not be understood as limiting the present invention.

Fig. 1 and Fig. 2 is please referred to, the mobile terminal 100 of the utility model embodiment includes that casing 10 and depth acquire mould Group 20.Mobile terminal 100 can be mobile phone, tablet computer, game machine, smartwatch, head and show equipment, unmanned plane etc., this is practical Novel embodiment is illustrated so that mobile terminal 100 is mobile phone as an example, it will be understood that the concrete form of mobile terminal 100 is simultaneously It is not limited to mobile phone.

Casing 10 can be used as the installation carrier of the function element of mobile terminal 100, and casing 10 can mention for function element For the protection of dust-proof, waterproof, shatter-resistant etc., function element can be display screen 30 or visible image capturing head 40, receiver 50 etc.. In the utility model embodiment, casing 10 includes main body 11 and movable support 12, driving of the movable support 12 in driving device Under can be moved relative to main body 11, such as movable support 12 can be slided relative to main body 11, to slide into 11 (such as Fig. 1 of main body It is shown) it is internal or skidded off (as shown in Figure 2) from main body 11.Partial function element (such as display screen 30) may be mounted at main body On 11, another part function element (such as depth acquires mould group 20, visible image capturing head 40, receiver 50) may be mounted at can On dynamic bracket 12, the movement of movable support 12 can drive another part function element to retract in main body 11 or stretch from main body 11 Out.

Depth acquisition mould group 20 is mounted on casing 10.Specifically, acquisition window can be offered on casing 10, depth is adopted Collection mould group 20 is aligned with acquisition window to be installed so that depth acquires 20 sampling depth information of mould group.In the utility model embodiment In, depth acquisition mould group 20 is mounted on movable support 12, and for user when needing to acquire mould group 20 using depth, can trigger can Dynamic bracket 12 drives depth acquisition mould group 20 to stretch out from main body 11 from skidding off in main body 11, is not needing to acquire using depth When mould group 20, movable support 12 can be triggered and slide into main body 11 to drive depth acquisition mould group 20 to be retracted into main body 11.Certainly, It is only the citing to a kind of concrete form of casing 10 shown in Fig. 1 and Fig. 2, should not be understood as to the casing 10 of the utility model Limitation, such as in another example, the acquisition window opened up on casing 10 can be fixed, depth acquisition mould group 20 It is fixedly installed and is aligned with acquisition window；In another example, depth acquisition mould group 20 is fixed under display screen 30 Side.

Fig. 3 to Fig. 6 is please referred to, it includes first substrate component 21, cushion block 22, the first optical device 23 that depth, which acquires mould group 20, And second optical device 24.First substrate component 21 includes the first substrate 211 and flexible circuit board 212 interconnected.Cushion block 22 are arranged on first substrate 211.First optical device 23 is arranged on cushion block 22.The bending of flexible circuit board 212 and flexible electrical One end of road plate 212 connects first substrate 211, and the other end connects the first optical device 23.The setting of second optical device 24 is the On one substrate 211, the second optical device 24 includes shell 241 and the optical element 242 that is arranged on shell 241, shell 241 with Cushion block 22 links into an integrated entity.

In the mobile terminal 100 of the utility model embodiment, since the first optical device 23 is arranged on cushion block 22, pad Block 22 can be with the height of padded first optical device 23, so that the height of the first optical device 23 and the second optical device 24 Difference reduces, and avoids a transmitting in the two (the first optical device 23 and the second optical device 24) or receives another when optical signal One blocks.When the first optical device 23 is optical transmitting set 23, and the second optical device 24 is optical receiver 24, optical transmitting set 23 The optical signal of transmitting is not easy to be blocked by optical receiver 24, and optical signal is irradiated on testee completely；When the first light Device 23 is optical receiver, and when the second optical device 24 is optical transmitting set, extraneous optical signal is before entering optical receiver, no It can be stopped by optical transmitting set.

Since optical transmitting set 23 is arranged on cushion block 22, cushion block 22 can be with the height of padded optical transmitting set 23, and then improves The height of the exit facet of optical transmitting set 23, the optical signal that optical transmitting set 23 emits are not easy to be blocked by optical receiver 24, so that light is believed It number can be irradiated on testee completely.

Below will with the first optical device 23 be optical transmitting set 23, the second optical device 24 be optical receiver 24 for carry out It illustrates.It is appreciated that in other embodiments, the first optical device 23 can be optical receiver, the second optical device 24 can be optical transmitting set.

Specifically, first substrate component 21 includes first substrate 211 and flexible circuit board 212.First substrate 211 can be Printed wiring board or flexible circuit board can be equipped with the control route etc. of depth acquisition mould group 20 on first substrate 211.It is flexible One end of circuit board 212 can connect on first substrate 211, and the bending of certain angle can occur for flexible circuit board 212, make The relative position for obtaining the device of 212 both ends of flexible circuit board connection can have compared with more options.

Fig. 3 and Fig. 7 is please referred to, cushion block 22 is arranged on first substrate 211.In one example, cushion block 22 and the first base Plate 211 is contacted and is carried on first substrate 211, and specifically, cushion block 22 can pass through the modes such as gluing and 211 knot of first substrate It closes.The material of cushion block 22 can be metal, plastics etc..In the utility model embodiment, cushion block 22 is combined with first substrate 211 Face can be plane, the opposite face in face of the cushion block 22 in conjunction with this is also possible to plane, so that the setting of optical transmitting set 23 is being padded There is preferable stationarity when on block 22.

Optical transmitting set 23 is for launching outward optical signal, and specifically, optical signal can be infrared light, optical signal can be to The dot matrix hot spot of testee transmitting, optical signal are projected from optical transmitting set 23 with certain angle of divergence.Optical transmitting set 23 is arranged On cushion block 22, in the utility model embodiment, one opposite with first substrate 211 of cushion block 22 is arranged in optical transmitting set 23 First substrate 211 and optical transmitting set 23 are spaced apart by side, in other words, cushion block 22 so that optical transmitting set 23 and first substrate 211 it Between form difference in height.Optical transmitting set 23 is also connect with flexible circuit board 212, the bending setting of flexible circuit board 212, flexible circuit board 212 one end connects first substrate 211, and the other end connects optical transmitting set 23, by the control signal of optical transmitting set 23 from first Substrate 211 is transferred to optical transmitting set 23, or by the feedback signal of optical transmitting set 23 (such as the transmitting optical signal of optical transmitting set 23 Temporal information, frequency information, the temperature information etc. of optical transmitting set 23) it is transferred to first substrate 211.

Fig. 3, Fig. 4 and Fig. 6 are please referred to, optical receiver 24 is used to receive the light letter that the optical transmitting set 23 being reflected back toward emits Number.Optical receiver 24 is arranged on first substrate 211, and the contact surface of optical receiver 24 and first substrate 211 and cushion block 22 and The contact surface of first substrate 211 is substantially flush setting (that is, the start of installation of the two is in the same plane).Specifically, light connects Receiving device 24 includes shell 241 and optical element 242.Shell 241 is arranged on first substrate 211, and optical element 242 is arranged in shell On body 241, shell 241 can be the microscope base and lens barrel of optical receiver 24, and optical element 242, which can be, to be arranged in shell 241 The elements such as lens.Further, optical receiver 24 can also include sensitive chip (not shown), be reflected back by testee Optical signal is irradiated in sensitive chip after being acted on by optical element 242, and sensitive chip generates response to the optical signal.Depth is adopted Collection mould group 20 calculate optical transmitting set 23 issue optical signal and sensitive chip receive through testee reflect between the optical signal when Between it is poor, and further obtain testee depth information, the depth information can be used for ranging, for generate depth image or For three-dimensional modeling etc..In the utility model embodiment, shell 241 links into an integrated entity with cushion block 22.Specifically, shell 241 with Cushion block 22 can be integrated molding, and shell 241 and cushion block 22 can be mounted on together on first substrate 211, be easily installed, such as Shell 241 is identical as the material of cushion block 22 and is integrally formed by the modes such as being molded, cutting；Or shell 241 and cushion block 22 Material is different, and the two is integrally formed by modes such as double-shot mouldings.Shell 241 is also possible to be separately formed with cushion block 22, The two forms fit structure, and when assembling depth acquisition mould group 20, first shell 241 and cushion block 22 can link into an integrated entity, then It is co-located on first substrate 211；First one in shell 241 and cushion block 22 can also be arranged on first substrate 211, Another is arranged on first substrate 211 and is linked into an integrated entity again.

In the mobile terminal 100 of the utility model embodiment, since optical transmitting set 23 is arranged on cushion block 22, cushion block 22 Can be with the height of padded optical transmitting set 23, and then the height of the exit facet of optical transmitting set 23 is improved, the light that optical transmitting set 23 emits Signal is not easy to be blocked by optical receiver 24, and optical signal is irradiated on testee completely.The outgoing of optical transmitting set 23 Face can be flushed with the plane of incidence of optical receiver 24, and the exit facet for being also possible to optical transmitting set 23 is slightly below entering for optical receiver 24 Face is penetrated, can also be that the exit facet of optical transmitting set 23 is slightly above the plane of incidence of optical receiver 24.

Fig. 5 and Fig. 7 is please referred to, in some embodiments, first substrate component 21 further includes stiffening plate 213, stiffening plate 213 are incorporated in the side opposite with cushion block 22 of first substrate 211.Stiffening plate 213 can cover a side of first substrate 211 Face, stiffening plate 213 can be used for increasing the intensity of first substrate 211, and avoiding first substrate 211, deformation occurs.In addition, stiffening plate 213 can be made of conductive material, such as metal or alloy etc., when depth acquisition mould group 20 is mounted on mobile terminal 100 When, stiffening plate 213 can be electrically connected with casing 10, so that stiffening plate 213 is grounded, and efficiently reduce the electrostatic of outer member Interference to depth acquisition mould group 20.

Fig. 7 to Fig. 9 is please referred to, in some embodiments, cushion block 22 includes the side edge 2111 for stretching out first substrate 211 Protrusion 225, flexible circuit board 212 around protrusion 225 bend be arranged.Specifically, a part of cushion block 22 is directly carried on On first substrate 211, another part is not contacted directly with first substrate 211, and the side edge 2111 of opposite first substrate 211 is stretched Protrusion 225 is formed out.Flexible circuit board 212 can connect in the side edge 2111, and flexible circuit board 212 is around protrusion 225 Bending, in other words, flexible circuit board 212 is bent so that protrusion 225 is located in the space that surrounds of the bending of flexible circuit board 212, When effect of the flexible circuit board 212 by external force, flexible circuit board 212 will not inwardly collapse and cause the degree mistake of bending Greatly, flexible circuit board 212 is caused to damage.

Further, as shown in figure 8, in some embodiments, the lateral surface 2251 of protrusion 225 is smooth curved surface The lateral surface 2251 of (such as lateral surface of cylinder etc.), i.e. protrusion 225 not will form curvature mutation, even if flexible circuit board 212 lateral surfaces 2251 for pasting protrusion 225 are bent, and the bending degree of flexible circuit board 212 will not be excessive, further really Protect the intact of flexible circuit board 212.

3 to Fig. 5 are please referred to, in some embodiments, depth acquisition mould group 20 further includes connector 26, and connector 26 connects It connects on first substrate 211.Connector 26 is for connecting first substrate component 21 and external equipment.Connector 26 and flexible circuit Plate 212 is connected to the opposite both ends of first substrate 211.Connector 26 can be attachment base or connector, when depth is adopted When collection mould group 20 is mounted in casing 10, connector 26 can be connect with the mainboard of mobile terminal 100, so that depth acquires mould Group 20 is electrically connected with mainboard.Connector 26 is connected to the opposite both ends of first substrate 211, example with flexible circuit board 212 It such as can be the left and right ends for being connected to first substrate 211, or be connected to the rear and front end of first substrate 211.

Fig. 4 and Fig. 5 is please referred to, in some embodiments, L is arranged along a straight line for optical transmitting set 23 and optical receiver 24, Connector 26 is located at the opposite two sides of straight line L with flexible circuit board 212.It is appreciated that due to optical transmitting set 23 and light Receiver 24 is arranged, therefore along the direction of straight line L, and the size that depth acquires mould group 20 may be larger.Connector 26 are separately positioned on the opposite two sides of straight line L with flexible circuit board 212, will not be further added by depth acquisition mould group 20 along straight line L Size on direction, and then convenient for depth acquisition mould group 20 to be mounted on the casing 10 of mobile terminal 100.

Fig. 7 and Fig. 8 is please referred to, in some embodiments, the side that cushion block 22 is combined with first substrate 211 offers receipts Cavity 223.It further includes the electronic component 25 being arranged on first substrate 211 that depth, which acquires mould group 20, and electronic component 25 is housed in In accommodating chamber 223.Electronic component 25 can be the elements such as capacitor, inductance, transistor, resistance, and electronic component 25 can be with laying Control route electrical connection on first substrate 211, and work for driving or controlling optical transmitting set 23 or optical receiver 24.Electricity Subcomponent 25 is housed in accommodating chamber 223, and the space in cushion block 22 is reasonably utilized, and does not need to increase first substrate 211 Electronic component 25 is arranged in width, conducive to the overall dimensions for reducing depth acquisition mould group 20.The quantity of accommodating chamber 223 can be one It is a or multiple, multiple accommodating chambers 223 can be apart from one another by, when installing cushion block 22, can by accommodating chamber 223 and electronics member Simultaneously cushion block 22 is arranged on first substrate 211 for the position alignment of part 25.

Fig. 7 and Fig. 9 is please referred to, in some embodiments, cushion block 22, which is offered, to be connected to at least one accommodating chamber 223 Through-hole 224 is avoided, at least one electronic component 25 protrudes into evacuation through-hole 224.It is appreciated that needing to accommodate in electronic component 25 When in accommodating chamber 223, it is desirable that the height of electronic component 25 is not higher than the height of accommodating chamber 223.And receiving is higher than for height The electronic component 25 of chamber 223 can open up evacuation through-hole 224 corresponding with accommodating chamber 223, and electronic component 25 can partially protrude into It avoids in through-hole 224, with the arranging electronic element 25 under the premise of not improving 22 height of cushion block.

Referring to Fig. 7, in some embodiments, optical transmitting set 23 includes the second substrate component 231, light source assembly 232 And shell 233.The second substrate component 231 is arranged on cushion block 22, and the second substrate component 231 is connect with flexible circuit board 212.Light Source component 232 is arranged on the second substrate component 231, and light source assembly 232 is for emitting optical signal.Shell 233 is arranged second On board unit 231, shell 233 is formed with accommodating space 2331, and accommodating space 2331 can be used for accommodating light source assembly 232.It is soft Property circuit board 212, which can be, to be removably connected on the second substrate component 231.Light source assembly 232 and the second substrate component 231 Electrical connection.Shell 233 is whole can be in bowl-shape, and Open Side Down is located on the second substrate component 231 for shell 233, will Light source assembly 232 is housed in accommodating space 2331.In the utility model embodiment, offered on shell 233 and light source group The corresponding light-emitting window 2332 of part 232, the optical signal issued from light source assembly 232 are emitted to away after passing through light-emitting window 2332, light Signal can be directly pierced by from light-emitting window 2332, can also be pierced by after other optical devices change optical path from light-emitting window 2332.

Please continue to refer to Fig. 7, in some embodiments, the second substrate component 231 includes the second substrate 2311 and reinforcement Part 2312.The second substrate 2311 is connect with flexible circuit board 212.Light source assembly 232 and reinforcing member 2312 are arranged in the second substrate 2311 opposite two sides.The concrete type of the second substrate 2311 can be printed wiring board or flexible circuit board etc., the second base Control route can be equipped on plate 2311.Reinforcing member 2312 can be solid by the modes such as gluing, riveting and the second substrate 2311 Fixed connection, reinforcing member 2312 can increase the whole intensity of the second substrate component 231.Optical transmitting set 23 is arranged on cushion block 22 When, reinforcing member 2312 can directly be contacted with cushion block 22, and the second substrate 2311 is not exposed to outside, and not needed and cushion block 22 It directly contacts, the second substrate 2311 is not easily susceptible to the pollution of dust etc..

In the embodiment as shown in figure 7, the molding seperated with cushion block 22 of reinforcing member 2312.Mould group 20 is acquired in assembling depth When, first cushion block 22 can be mounted on first substrate 211, the both ends of flexible circuit board 212 are separately connected first substrate at this time 211 and the second substrate 2311, and flexible circuit board 212 can not bend (state as shown in Figure 9) first.Then again by flexible electrical Road plate 212 is bent, so that reinforcing member 2312 is arranged on cushion block 22.

Certainly, in other embodiments, reinforcing member 2312 can be integrally formed with cushion block 22, such as pass through the techniques such as injection molding It is integrally formed, when assembling depth acquisition mould group 20, cushion block 22 and optical transmitting set 23 can be mounted on first substrate 211 together On.

Referring to Fig. 9, in some embodiments, the first locating piece 2313 is formed on reinforcing member 2312.Cushion block 22 wraps Ontology 221 and the second locating piece 222 are included, the second locating piece 222 is formed on ontology 221.The setting of the second substrate component 231 is being padded When on block 22, the first locating piece 2313 and the second locating piece 222 cooperate.Specifically, the first locating piece 2313 and the second locating piece After 222 cooperations, the relative motion between the second substrate component 231 and cushion block 22 can be effectively limited.First locating piece 2313 and The concrete type of second locating piece 222 can be according to being selected, such as the first locating piece 2313 is to be formed in reinforcing member Location hole on 2312, while the second locating piece 222 is positioning column, positioning column protrudes into positioning hole so that the first locating piece 2313 It cooperates with the second locating piece 222；Or first locating piece 2313 be the positioning column being formed on reinforcing member 2312, second is fixed Position part 222 is location hole, and positioning column protrudes into positioning hole so that the first locating piece 2313 and the second locating piece 222 cooperate； Or first locating piece 2313 and the second locating piece 222 quantity be it is multiple, the first locating piece of part 2313 is location hole, portion Dividing the second locating piece 222 is positioning column, and the first locating piece of part 2313 is positioning column, and the second locating piece of part 222 is location hole, Positioning column protrudes into positioning hole so that the first locating piece 2313 and the second locating piece 222 cooperate.

The structure of light source assembly 232 will be illustrated below:

Referring to Fig. 10, light source assembly 232 includes light source 60, lens barrel 70, diffuser (diffuser) 80 and protective cover 90. Light source 60 is connected on the second substrate component 231, and lens barrel 70 includes opposite the first face 71 and the second face 72, and lens barrel 11, which opens up, to be passed through The accommodating chamber 75 in the first face 71 and the second face 72 is worn, the first face 71 forms the installation being connected to accommodating chamber 75 towards the second face 72 recess Slot 76.Diffuser 80 is mounted in mounting groove 76.Protective cover 90 is mounted on the side where the first face 71 of lens barrel 70, diffuser 80 are folded between protective cover 90 and the bottom surface 77 of mounting groove 76.

Protective cover 90 can be connected through a screw thread, engage, the mode of fastener connection is mounted on lens barrel 70.For example, asking Refering to fig. 10, when protective cover 90 includes roof 91 and protective side wall 92, interior spiral shell is provided on protective cover 90 (protective side wall 92) Line is provided with external screw thread on lens barrel 70, and the external thread spiro fastening of the internal screw thread of protective cover 90 and lens barrel 70 is at this time with by protective cover 90 It is mounted on lens barrel 70；Alternatively, please referring to Figure 11, when protective cover 90 includes roof 91, protective cover 90 (roof 91) is offered Card hole 95, the end of lens barrel 70 are provided with hook 73, and when protective cover 90 is arranged on lens barrel 70, hook 73 is threaded through card hole 95 It is interior so that protective cover 90 is mounted on lens barrel 70；Alternatively, Figure 12 is please referred to, when protective cover 90 includes roof 91 and protective side wall 92 When, protective cover 90 (protective side wall 92) offers card hole 95, hook 73 is provided on lens barrel 70, when protective cover 90 is arranged in lens barrel When on 70, hook 73 is threaded through in card hole 95 so that protective cover 90 is mounted on lens barrel 70；Alternatively, please referring to Figure 13, work as protection When cover 90 includes roof 91, the end of lens barrel 70 offers first positioning hole 74, offers on protective cover 90 (roof 91) and the The corresponding second location hole 93 of a positioning hole 74, fastener 94 pass through second location hole 93 and be locked in first positioning hole 74 with Protective cover 90 is mounted on lens barrel 70.When protective cover 90 is mounted on lens barrel 70, protective cover 90 and diffuser 80 are contradicted simultaneously Contradict diffuser 80 and bottom surface 77, so that diffuser 80 be made to be folded between protective cover 90 and bottom surface 77.

Light source assembly 232 is mounted in mounting groove 76 by opening up mounting groove 76 on lens barrel 70, and by diffuser 80, with And be mounted on by protective cover 90 diffuser 80 to be clamped between protective cover 90 and the bottom surface 77 of mounting groove 76 on lens barrel 70, To which diffuser 80 is fixed on lens barrel 70 by reality.And avoid that diffuser 80 being fixed on lens barrel 70 using glue, thus It can be avoided the microstructure for being set in the surface of diffuser 80 after glue volatilizees and influencing diffuser 80, and can be avoided connection Diffuser 80 falls off from lens barrel 70 when diffuser 80 and excessive 70 glue of lens barrel volatilization.

In the description of this specification, reference term " certain embodiments ", " embodiment ", " some embodiment party The description of formula ", " exemplary embodiment ", " example ", " specific example " or " some examples " means in conjunction with the embodiment Or example particular features, structures, materials, or characteristics described are contained at least one embodiment of the utility model or show In example.In the present specification, schematic expression of the above terms are not necessarily referring to identical embodiment or example.And And particular features, structures, materials, or characteristics described can be in any one or more embodiments or example to close Suitable mode combines.

In addition, term " first ", " second " are used for descriptive purposes only and cannot be understood as indicating or suggesting relative importance Or implicitly indicate the quantity of indicated technical characteristic.Define " first " as a result, the feature of " second " can be expressed or Implicitly include at least one described feature.The meaning of " plurality " is at least two, such as two in the description of the present invention, It is a, three, unless otherwise specifically defined.

Although the embodiments of the present invention have been shown and described above, it is to be understood that above-described embodiment is Illustratively, it should not be understood as limiting the present invention, those skilled in the art are in the scope of the utility model It inside can make changes, modifications, alterations, and variations to the above described embodiments, the scope of the utility model is by claim and its is equal Object limits.

Claims (14)

1. a kind of depth acquires mould group characterized by comprising

First substrate component, the first substrate component include the first substrate and flexible circuit board interconnected；

Cushion block, the cushion block setting is on the first substrate；

First optical device, first optical device are arranged on the cushion block, the flexible circuit board bending and described soft Property circuit board one end connect the first substrate, the other end connects first optical device；And

Second optical device, on the first substrate, second optical device includes shell for the second optical device setting Body and the optical element being arranged on shell, the shell link into an integrated entity with the cushion block.

2. depth according to claim 1 acquires mould group, which is characterized in that first optical device is optical transmitting set, The optical transmitting set is optical receiver for launching outward optical signal, second optical device, and the optical receiver is for connecing Receive the optical signal for the optical transmitting set transmitting being reflected back toward.

3. depth according to claim 2 acquires mould group, which is characterized in that the cushion block and the shell are integrated into Type.

4. depth according to claim 2 or 3 acquires mould group, which is characterized in that the optical transmitting set includes:

The second substrate component, the second substrate component are arranged on cushion block, the second substrate component and the flexible circuit Plate connection；

Light source assembly on the second substrate component is set, and the light source assembly is for emitting the optical signal；And

Shell on the second substrate component is set, and the shell is formed with accommodating space to accommodate the light source assembly.

5. depth according to claim 4 acquires mould group, which is characterized in that the second substrate component includes the second substrate And reinforcing member, the second substrate are connect with the flexible circuit board, the light source assembly and the reinforcing member are arranged described The opposite two sides of the second substrate.

6. depth according to claim 5 acquires mould group, which is characterized in that the reinforcing member and cushion block one at Type；Or reinforcing member molding seperated with the cushion block.

7. depth according to claim 5 acquires mould group, which is characterized in that be formed with the first positioning on the reinforcing member Part, the cushion block include the second locating piece of ontology and formation on the body, and the second substrate component is arranged described When on cushion block, first locating piece and second locating piece cooperate.

8. depth according to claim 2 acquires mould group, which is characterized in that the cushion block is in conjunction with the first substrate Side offers accommodating chamber, and the depth acquisition mould group further includes the electronic component of setting on the first substrate, the electricity Subcomponent is housed in the accommodating chamber.

9. depth according to claim 8 acquires mould group, which is characterized in that the cushion block offer with described at least one The evacuation through-hole of accommodating chamber connection, at least one described electronic component protrude into the evacuation through-hole.

10. depth according to claim 2 acquires mould group, which is characterized in that the first substrate component further includes reinforcing Plate, the stiffening plate are incorporated in the side opposite with the cushion block of the first substrate.

11. depth according to claim 2 acquires mould group, which is characterized in that the cushion block includes stretching out first base The protrusion of the side edge of plate, the flexible circuit board is bent around the protrusion to be arranged.

12. depth acquires mould group according to claim 2, which is characterized in that the depth acquisition mould group further includes connector, The connector connection on the first substrate, and is used to connect the first substrate component and external equipment, the connection Device is connected to the opposite both ends of the first substrate with the flexible circuit board.

13. depth according to claim 12 acquires mould group, which is characterized in that the optical transmitting set and the optical receiver It arranges along a straight line, the connector is located at the opposite two sides of the straight line with the flexible circuit board.

14. a kind of mobile terminal characterized by comprising

Casing；And

Depth described in claim 1 to 13 any one acquires mould group, and the depth acquisition mould group installation is on the housing.