CN107145025A - Moving camera - Google Patents

Abstract

A kind of moving camera of the disclosure, the moving camera includes housing, the mainboard for being assembled to the housing, lens assembly and supply unit, and the lens assembly and supply unit are electrically connected to the mainboard.The housing includes main shell and front panel and back shroud on the main shell, and the front panel and back shroud are made of metal material.The mainboard is assembled to the front panel and is connected with the front panel heat conduction, and the supply unit and the lens assembly are assembled to the back shroud and be connected with the back shroud heat conduction.The front panel and back shroud of housing are made up of metal material, make the even heat of mainboard and lens assembly generation and efficiently distribute, moving camera is remained in suitable operating temperature, and Consumer's Experience is good.Mainboard, lens assembly and supply unit are assembled to front panel or back shroud, can collide or fall fall during protect moving camera core component, improve moving camera impact resistant and resist to fall to fall ability.

Description

Moving camera

Technical field

The disclosure belongs to photography technical field, is related to a kind of moving camera.

Background technology

In the related art, moving camera includes mainboard, the camera lens module communicated to connect with mainboard and stores mainboard and mirror The housing of head module.Wherein, housing is made up of plastic material, and only local assembly uses the handware being made up of metal material. Or movement is formed by aluminum alloy materials die casting, the core components such as mainboard, lens assembly are fixed on movement, and in movement Outer surface coats plastic cement to form housing.

In the course of work of moving camera, mainboard and camera lens module can produce amount of heat, and the partial heat makes mainboard And the service behaviour of camera lens module declines, user's operating experience is influenceed.Meanwhile, occur when moving camera is used and fall and touch The fortuitous event such as hit to occur.

For example, when housing takes plastic material to be made, its radiating efficiency is low, and fuselage is easily hot, Consumer's Experience is influenceed.And And occurring that the fortuitous event such as falling and collide occurs when moving camera is used, plastic casing is broken and damages.

When housing uses aluminium alloy movement, movement is not produced with the direct heat exchange of free surrounding space, mainboard and camera lens module Raw heat is concentrated on inside movement, and radiating effect is poor.Although the movement intensity that aluminum alloy materials are made is good, because of mainboard, mirror First-class core component is fixed on the periphery of aluminium alloy movement, and aluminium alloy movement can not play preferably protection to core component and make With, moving camera impact resistant and resist that to fall the ability fallen weak.

The content of the invention

In view of this, the disclosure provides a kind of moving camera.

Specifically, the disclosure is achieved by the following technical solution：

A kind of moving camera, including housing, the mainboard for being assembled to the housing, camera lens are provided according to the embodiment of the present disclosure Component and supply unit, the lens assembly and supply unit are electrically connected to the mainboard, and the housing includes main shell and set In front panel and back shroud on the main shell, the front panel and back shroud are made of metal material, the mainboard group It is filled to the front panel and is connected with the front panel heat conduction, the supply unit and the lens assembly is assembled to the bonnet Plate is simultaneously connected with the back shroud heat conduction.

In one embodiment, the main shell is made up of plastic material, and the back shroud is embedded in the main shell.

In one embodiment, the front panel and back shroud are made up of magnesium alloy materials.

In one embodiment, the back shroud is provided with some heat emission holes, and the heat emission hole is relative with the supply unit Should.

In one embodiment, the mainboard is at least partly connected with the supply unit heat conduction.

In one embodiment, the mainboard includes wiring board and at least processor unit on the wiring board, An at least processor unit is connected with the front panel heat conduction.

In one embodiment, the mainboard includes wiring board and at least processor unit on the wiring board, An at least processor unit is connected with the supply unit heat conduction.

In one embodiment, the supply unit includes energy-storage units and the protecting frame being located at outside the energy-storage units, The protecting frame is affixed to the back shroud.

In one embodiment, the mainboard is connected with the protecting frame heat conduction.

In one embodiment, heat-conducting medium is provided between the mainboard and the protecting frame.

In one embodiment, the lens assembly includes camera lens module and is assembled to the lens board of camera lens module, the mirror Head plate is electrically connected with the mainboard, and the camera lens module is affixed to the back shroud and the lens board and the back shroud heat conduction Connection.

In one embodiment, the lens board includes the sensitive chip being correspondingly arranged with the camera lens module, described photosensitive Chip is connected with the back shroud heat conduction.

The technical scheme provided by this disclosed embodiment can have the advantages that：

The front panel and back shroud of housing are made up of metal material, using metal material thermal conductivity it is high the characteristics of, make mainboard And lens assembly produce even heat and efficiently distribute, moving camera is remained in suitable operating temperature, user's body Test.Front panel and back shroud are made up of the high metal material of intensity, and mainboard, lens assembly and supply unit are assembled to front panel Or back shroud, can collide or fall fall during protect moving camera core component, improve moving camera impact resistant and Resist and fall to fall ability.

It should be appreciated that the general description of the above and detailed description hereinafter are only exemplary and explanatory, not The disclosure can be limited.

Brief description of the drawings

Fig. 1 is a kind of structural representation of moving camera according to an exemplary embodiment.

Fig. 2 is a kind of configuration schematic diagram of moving camera according to an exemplary embodiment.

A kind of cross-sectional view of moving cameras of the Fig. 3 according to an exemplary embodiment.

A kind of structural representation of lens assemblies of the Fig. 4 according to an exemplary embodiment.

The assembly structure diagram of a kind of lens assemblies and housing of the Fig. 5 according to an exemplary embodiment.

A kind of partial view of housings of the Fig. 6 according to an exemplary embodiment.

Fig. 7 is the configuration schematic diagram of pushing cover component according to an exemplary embodiment and housing.

Fig. 8 is the partial view of pushing cover component according to an exemplary embodiment and housing.

Fig. 9 is the structural representation of the keeper according to an exemplary embodiment.

Wherein, housing 10；Front panel 11；Photography hole 111；Back shroud 12；Heat emission hole 121；Main shell 13；Support column 131； Supporting surface 1311；Fixing hole 1312；Cylinder 1313；Locating dowel 132；Locating surface 1321；Location division 1322；Sliding groove 133；It is oriented to Groove 134；Lug boss 135；Depressed part 136；Positive stop lug boss 137；Functional hole 138；Mainboard 20；Wiring board 21；Processor unit 22； Lens assembly 30；Camera lens module 31；Lens mount 311；Baseplate part 3111；Rib 3112；Installation portion 3113；Through hole 3114；Mirror First 312；Lens board 32；Sensitive chip 321；Control panel 322；Avoid breach 3221；Data-interface 323；Supply unit 40；Protection Frame 41；Energy-storage units 42；Pushing cover component 50；Slip lid 51；Main part 511；Sliding part 512；Barb 513；Lead 514；It is fixed Position part 52；Response Division 521；First strain bar 5211；Buckling groove 5212；Second strain bar 5213；Fixed part 522；First connection Bar 5221；Second connecting rod 5222；Heat-conducting medium 60.

Embodiment

Here exemplary embodiment will be illustrated in detail, its example is illustrated in the accompanying drawings.Following description is related to During accompanying drawing, unless otherwise indicated, the same numbers in different accompanying drawings represent same or analogous key element.Following exemplary embodiment Described in embodiment do not represent all embodiments consistent with the disclosure.On the contrary, they be only with it is such as appended The example of the consistent apparatus and method of some aspects be described in detail in claims, the disclosure.

The term used in the disclosure is the purpose only merely for description specific embodiment, and is not intended to be limiting the disclosure. " one kind ", " described " and "the" of singulative used in disclosure and the accompanying claims book are also intended to including majority Form, unless context clearly shows that other implications.It is also understood that term "and/or" used herein refers to and wrapped It may be combined containing one or more associated any or all of project listed.

It will be appreciated that though various information, but this may be described using term first, second, third, etc. in the disclosure A little information should not necessarily be limited by these terms.These terms are only used for same type of information being distinguished from each other out.For example, not departing from In the case of disclosure scope, the first information can also be referred to as the second information, similarly, and the second information can also be referred to as One information.Depending on linguistic context, word as used in this " if " can be construed to " ... when " or " when ... When " or " in response to determining ".

Fig. 1 is a kind of structural representation of moving camera according to an exemplary embodiment, and Fig. 2 is according to an example Property implement the configuration schematic diagram of a kind of moving camera that exemplifies.As depicted in figs. 1 and 2, moving camera include housing 10, The mainboard 20, lens assembly 30 and supply unit 40 of housing 10 are assembled to, lens assembly 30 and supply unit 40 are electrically connected to master Plate 20.Supply unit 40 is used to power to mainboard 20 and lens assembly 30 for the energy-storage travelling wave tube of moving camera, and lens assembly 30 is used So that image information is delivered into mainboard 20, mainboard 20 is to handle image information.Lens assembly 30 and mainboard 20 are being generated and located Substantial amounts of heat is produced during reason image information, the heat passes through the contact between mainboard 20 and lens assembly 30 and housing 10 Position heat transfer, or heat transfer is carried out by heat radiation form.

Housing 10 includes main shell 13 and front panel 11 and back shroud 12 on main shell 13, front panel 11 and bonnet Plate 12 is made of metal material.For example, front panel 11 and back shroud 12 are closed using iron-carbon alloy material, aluminum alloy materials or magnesium The metal materials such as golden material are made, wherein, the density of magnesium alloy materials is less than the density of aluminum alloy materials and iron-carbon alloy material. When front wall 11 and back shroud 12 are made of magnesium alloy materials, make moving camera that there is smaller deadweight, be easy to carry and Use, Consumer's Experience is good.It is excellent in cushion effect and magnesium alloy materials thermal conductivity is good, make moving camera that there is good radiating While performance, improve the impact resistant of moving camera and resist to fall to fall ability.

In falling to fall experiment one, the moving camera that housing 10 is made up of plastic material from 60 centimetres of height freely fall Body move, moving camera with after ground shock, housing 10 ruptures.Under equal conditions, the front panel 11 of housing 10 and The moving camera that back shroud 12 is made up of magnesium alloy materials, it carries out the movement of falling object, moving camera by 60 centimetres of height With after ground shock, housing 10 does not occur breakage.The height of freely falling body is even brought up into 1 meter, the front panel of housing 10 11 and the moving camera that is made up of magnesium alloy materials of back shroud 12 with after ground shock, housing 10 is without breakage, and internal core Part is without damage.Therefore, the moving camera that the front panel 11 and back shroud 12 of housing 10 are made up of magnesium alloy materials, its impact resistant Fall to fall ability by force with resisting, the protective value to internal core component is good.

In one exemplary embodiment, main shell 13 is made up of plastic material and is thin-wall part, back shroud 12 or front panel 11 include following form with the fixed form of main shell 13：

A, back shroud 12 are locked on main shell 13 by fastener, and back shroud 12 is Split type structure, group with main shell 13 Dress is convenient.

B, back shroud 12 are with main shell 13 by Shooting Technique, and back shroud 12 is embedded in main shell 13 makes both be tied in one Structure, back shroud 12 is enclosed at the opening of the one end of main shell 13.Wherein, back shroud 12 directly carries out heat exchange with outer space, Or back shroud 12 outer surface covered with the parcel face extended from main shell 13.

Back shroud 12 is integrally formed with main shell 13, and both are tightly combined, produced by the element of the over-assemble of back shroud 12 Combination of the heat through both is transmitted towards main shell 13, further expands area of dissipation.Relative to back shroud 12 or front panel 11 With the shell mechanism of the split of main shell 13, integrally formed shell mechanism impact resistant and resist higher, the good integrity that falls to fall ability, outside Shape is attractive in appearance.It is noted that front panel 11 is integrally formed with main shell 13, and back shroud 12 is locked to outside main by fastener On shell 13, the another embodiment of the disclosure is also belonged to.

Front panel 11 is fixed to main shell 13 by fastener, mainboard 20 be assembled to front panel 11 and with the heat conduction of front panel 11 Connection.Mainboard 20 is located in main shell 13, wherein, mainboard 20 includes wiring board 21 and at least one processing on wiring board 21 Device unit 22, at least a processor unit 22 are connected with the heat conduction of front panel 11.In the work process of moving camera, processor list Member 22 is the major heat producing components of mainboard 20, and it is connected with the heat conduction of front panel 11, can distribute heat to moving camera in time Exterior space, makes processor be under suitable operating temperature.

For example, assist side 21 is provided with the chips such as DSP/DDR as processor unit 22, in the outer of processor unit 22 Portion's cover sets corresponding radome, is directly fitted with front panel 11 again while radome protection processor unit 22, or by leading The heat-conducting mediums such as hot glue, heat conductive pad 60 are fitted indirectly with front panel 11.Processor unit 22 is by the heat produced in the course of work It is transferred on front panel 11, the area of dissipation of front panel 11 is big, and radiating efficiency is high.And front panel 11 is by the high metal material of thermal conductivity Material is made, and even heat can be made to be distributed to whole front panel 11, radiating efficiency is high.

Supply unit 40 and lens assembly 30 are assembled to back shroud 12 and are connected with the heat conduction of back shroud 12.Wherein, back shroud 12 are provided with some heat emission holes 121, and heat emission hole 121 is corresponding with supply unit 40.Supply unit 40 is produced in the process of running Heat distributed by back shroud 12.

A kind of cross-sectional view of moving cameras of the Fig. 3 according to an exemplary embodiment.Such as Fig. 2 and Fig. 3 institutes Show, supply unit 40 includes energy-storage units 42 and the protecting frame 41 being located at outside energy-storage units 42, protecting frame 41 is affixed to bonnet Plate 12, the rechargeable battery such as including lithium battery of energy-storage units 42.Protecting frame 41 is located at outside energy-storage units 42, so that energy-storage units 42 There is cushioning effect during moving camera is impacted, can facilitate again and energy-storage units 42 are fixed to back shroud 12. In one embodiment, protecting frame 41 is rectangular sheet metal component, and energy-storage units 42 are located in protecting frame 41, and protecting frame 41, which is provided with, to be subtracted Repeated hole, the deadweight to mitigate moving camera.Protecting frame 41 is made up of metal material, is such as made up of iron-carbon alloy material, can carry Heat transference efficiency between high energy-storage units 42 and back shroud 12.

In one exemplary embodiment, supply unit 40 is adjacent with mainboard 20 and be arranged in parallel, at least part of mainboard 20 with The heat conduction of supply unit 40 is connected.Wherein, mainboard 20 includes wiring board 21 and at least processor unit on wiring board 21 22, an at least processor unit 22 is connected with the heat conduction of supply unit 40.I.e. mainboard 20 is connected with the heat conduction of protecting frame 41, and both leads It is thermally coupled including following form：

A, processor unit 22 carry out heat conduction with the directly laminating of protecting frame 41 and are connected.When the processor on wiring board 21 Unit 22 towards the side of protecting frame 41 protrude when, processor unit 22 can be by the radome that is located on processor unit 22 Directly it is fitted on protecting frame 41 and carries out heat transfer.Or fitted indirectly by the heat-conducting mediums such as heat-conducting glue, heat conductive pad 60, will The heat that processor unit 22 is produced is transferred to back shroud 12 by protecting frame 41, to improve the radiating efficiency of mainboard 20.

Heat-conducting medium 60 is provided between b, mainboard 20 and protecting frame 41, indirect heat conduction company is carried out by heat-conducting medium 60 Connect.When wiring board 21 is located between processor unit 22 and protecting frame 41, assist side 21 is corresponding with processor unit 22 Position be attached with the heat-conducting mediums such as heat-conducting glue, heat conductive pad 60, the heat-conducting medium 60 is fitted on protecting frame 41, makes processor list The heat that member 22 is produced is transferred to protecting frame 41 by heat-conducting medium 60, then transfers heat to back shroud by protecting frame 41 12, the area of dissipation of mainboard 20 is further improved, radiating efficiency is high, good heat dissipation effect.

A kind of structural representation of lens assemblies 30 of the Fig. 4 according to an exemplary embodiment.As shown in Figures 3 and 4, In the course of work of moving camera, lens assembly 30 is another main pyrotoxin, and therefore, lens assembly 30 is affixed to housing 10 And be connected with the heat conduction of housing 10.Wherein, lens assembly 30 includes camera lens module 31 and is assembled to the lens board 32 of camera lens module 31, Camera lens module 31 is affixed to back shroud 12 and lens board 32 is connected with the heat conduction of back shroud 12.

Camera lens module 31 is to receive optical object and it is adjusted, so as to realize optical imagery on lens board 32 Part.Lens board 32 includes the sensitive chip 321 being correspondingly arranged with camera lens module 31, and lens board 32 is electrically connected with mainboard 20, Handled for the image information on lens board 32 to be sent to mainboard 20.Heat is produced in the course of work of sensitive chip 321 Amount, correspondingly, sensitive chip 321 is connected with the heat conduction of back shroud 12.

In the moving camera course of work, the position of the generation heat of lens assembly 30 is concentrated at sensitive chip 321, Sensitive chip 321 is connected with the heat conduction of back shroud 12, the heat that sensitive chip 321 is produced can be made to be timely transmitted on housing 10, So as to reduce the operating temperature of lens board 32.Thus, the heat conduction connection between sensitive chip 321 and back shroud 12 can pass through heat conduction Medium 60 is transmitted, or makes the lens board 32 residing for sensitive chip 321 close to back shroud 12, heat is passed through heat radiation shape Formula carries out heat transfer to back shroud 12, to expand area of dissipation.

Lens board 32 is assembled to camera lens module 31, can first complete the photosensitive of the camera lens 312 of camera lens module 31 and lens board 32 The regulation focusing of chip 321, focusing is convenient.Sensitive chip 321 is correspondingly arranged with camera lens module 31, the axis of camera lens module 31 and sense The surface of optical chip 321 is vertical.Wherein, the perpendicularity of camera lens module 31 and sensitive chip 321 is higher, and image quality is better.Again Camera lens module 31 is fixedly connected with housing 10, the rigidity of camera lens module 31 is high, will not be assembled to shell because of camera lens module 31 The subsequent handling stress of body 10 and causing is run burnt between lens board 32 and camera lens module 31, the image quality of lens assembly 30 is stable.

During lens assembly 30 is assembled to housing 10, only camera lens module 31 is fastenedly connected with housing 10, from And avoid lens board 32 from being caused the focusing between lens board 32 and camera lens module 31 to be failed by deformation caused by fastening force, enter And avoid in production process camera lens corner it is fuzzy cause to tear machine open repeatedly do over again, improve assembling product first-pass yield, installation effectiveness is high.Mirror Head plate 32 is assembled to camera lens module 31, it is possible to decrease the installing space between lens board 32 and housing 10, and space availability ratio is high.

The mutual focusing of lens assembly 30 and sensitive chip 321, the axis of camera lens 312 is perpendicular to lens board 32.Wherein, mirror Head plate 32 also including the control panel 322 being fixedly arranged on camera lens module 31, the data-interface 323 located at control panel 322 and is connected to The flexible cable of data-interface 323, data-interface 323 is to transmit data.Sensitive chip 321 is assembled on control panel 322, and Receive the external optical object for transmit to lens assembly 30, signal conveying of the control panel 322 according to produced by sensitive chip 321 Image information is to mainboard 20, the figure for making moving camera output recognizable.

Camera lens module 31 includes lens mount 311 and is assembled to the camera lens 312 of lens mount 311.Lens mount 311 is provided with through hole 3114, fastener sequentially passes through lens mount 311 and lens board 32 and lens mount 311 is affixed into housing 10.Wherein, control panel 322 are located between camera lens module 31 and housing 10, provided with avoidance breach 3221 corresponding with housing 10 on control panel 322.

With continued reference to Fig. 4, in one embodiment, lens mount 311 includes baseplate part 3111, the reinforcement around baseplate part 3111 Portion 3112 and the installation portion 3113 for protruding baseplate part 3111.Wherein, baseplate part 3111 can be rectangular, circular etc. regular figure, Different shapes can be arranged to according to the inner space of housing 10, such as local protrusion, depression, through hole 3114 run through baseplate part 3111 and corresponding with the fixed part 522 on housing 10.Rib 3112 is respectively arranged on baseplate part 3111 with installation portion 3113 Both sides, camera lens module 31 is assembled under the state of housing 10, and rib 3112 protrudes to the side of back shroud 12, and installation portion 3113 is forward Protrude the side of panel 11.Camera lens 312 is assembled to installation portion 3113 and front panel 11 extends, provided with photography hole on front panel 11 111, camera lens 312 stretches out along photography hole 111.

The assembly structure diagram of a kind of lens assemblies 30 of the Fig. 5 according to an exemplary embodiment and housing 10.Fig. 6 A kind of partial view of housing 10 according to an exemplary embodiment.As shown in Figure 5 and Figure 6, on the housing 10 provided with use With at least two support columns 131 of fixed mirror headstock 311, support column 131 includes being fixedly arranged on cylinder 1313 on housing 10, positioned at post The supporting surface 1311 of the one end of body 1313 and intersect to the fixing hole 1312 of supporting surface 1311.Wherein, the axis of fixing hole 1312 with The axis of cylinder 1313 is overlapped or perpendicular to supporting surface 1311.Camera lens module 31 is against to supporting surface 1311, and fastener runs through Camera lens module 31 is simultaneously connected to fixing hole 1312.

The support column 131 is fixedly arranged on back shroud 12, or on the main shell 13 for accommodating back shroud 12.Support column The inner surface of 131 protrusion housings 10, lens board 32 is located between lens mount 311 and support column 131, and accordingly, lens board 32 is kept away Dagger 131 pay wages so that camera lens module 31 is affixed to support column 131.Set such as on control panel 322 and avoid breach 3221, through hole 3114 etc., so that support column 131 is connected through control panel 322 and with lens mount 311, improve the space utilization inside housing 10 Rate.

In one embodiment, on the housing 10 provided with least locating dowel 132 to position lens mount 311, wherein, it is fixed Position post 132 includes locating surface 1321 and is convexly equipped in the location division 1322 of locating surface 1321, at locating surface 1321 and supporting surface 1311 In on same plane.Location division 1322 is in the form of a column structure, matches with the through hole 3114 on camera lens module 31, location division 1322 is worn Camera lens module 31 is inserted to, so that camera lens module 31 is against to locating surface 1321.Locating dowel 132 is matched with camera lens module 31, with fixed The installation site of position camera lens module 31.Meanwhile, set on the housing 10 locating dowel 132 can reduce camera lens module 31 and housing 10 it Between fixed fastener quantity, improve the installation accuracy and installation effectiveness of camera lens module 31.

For example, baseplate part 3111 is rectangular, through hole 3114 is symmetrically distributed on baseplate part 3111.Correspondingly, in housing 10 It is provided with two support columns 131 and two locating dowels 132 being diagonally distributed, support column 131 and locating dowel 132 and the position of through hole 3114 It is corresponding.Camera lens module 31 is moved along location division 1322, meanwhile, lens board 32 avoids support column 131 and locating dowel 132, until Baseplate part 3111 is against to locating surface 1321 and supporting surface 1311.Camera lens module 31 is locked in branch by fastener through through hole 3114 On dagger 131.Lens assembly 30 is easy for installation, and positioning precision is high.

Fig. 7 is the configuration schematic diagram of the pushing cover component 50 according to an exemplary embodiment and housing 10.Fig. 8 is The partial view of pushing cover component 50 and housing 10 according to an exemplary embodiment.As shown in Figure 7 and Figure 8, in motion phase The housing 10 of machine is provided with an at least functional hole 138, is such as used for the USB interface of input or output data information, for charging Charging inlet etc., such functional interface may be arranged at the positions such as main shell 13, back shroud 12 or front panel 11.Wherein, main shell 13 are made up of plastic material, can conveniently be molded types of functionality hole 138.Correspondingly, moving camera includes being slidedly arranged on housing 10 Pushing cover component 50, the pushing cover component 50 is to the functional hole 138 on open or shielding casing 10.

Pushing cover component 50 includes keeper 52 and is slidedly arranged on the slip lid 51 of housing 10, keeper 52 provided with a hidden position and An at least open position, slip lid 51 slides and is locked to hidden position to cover repertoire hole 138；Or slide and be locked to one Open position is with an open at least functional hole 138.

For example, being provided with a USB holes and a power interface on the housing 10, correspondingly, a mask bit is provided with keeper 52 Put and the first open position and the second open position.When slip lid 51 is located at screening-off position, the masking USB holes of slip lid 51 and power supply connect Mouthful, two functional holes 138 is in hidden state, it is to avoid the foreign matter such as dust is entered in functional hole 138.When USB holes need to be used, Then sliding slip lid 51 makes slip lid 51 be locked on the first open position, and now, USB holes are opened and power interface is in and hides shape State.When needing to use power interface, then slide slip lid 51 slip lid 51 is locked on the second open position, now, USB holes and Power interface is in open state, or USB holes hide and power interface is in open state.

Housing 10 of the slip lid 51 along moving camera slides and stops predeterminated position on the housing 10, so that right on housing 10 The functional hole 138 answered is opened and used, or closing function hole 138 operates so as to avoid the foreign matters such as dust from entering in functional hole 138 It is convenient.Slip lid 51 is during open functional hole 138, it is only necessary to which, to open position Slideslip, slip lid 51 is limited to shell all the time On body 10 with avoid lose.Meanwhile, slip lid 51 is slided along housing 10, and required operating space is small.

Housing 10 is provided with sliding groove 133, and slip lid 51 is slided along institute's sliding groove 133, and the sliding groove 133 is elongated slot, slip lid 51 Moved along sliding groove 133.Wherein, keeper 52 is located at the inner side of housing 10, and the part of slip lid 51 is through sliding groove 133 and is positioned 52 clampings of part.

With continued reference to Fig. 7 and Fig. 8, in one embodiment, slip lid 51 includes main part 511 and is convexly equipped in main part 511 Sliding part 512.Main part 511 is located at the side of housing 10, and sliding part 512 is through housing 10 and extends to the another of housing 10 Side, the clamping sliding part 512 of keeper 52 is so that slip lid 51 is fixed on hidden position or open position.In one embodiment, it is sliding Lid 51 also includes the barb 513 for being convexly equipped in sliding part 512, and the clasp joint of barb 513 is on keeper 52, so that slip lid 51 can not Depart from housing 10, it is not easy to lose.

Lead 514 is provided with the main part 511 of slip lid 51, the lead 514 is parallel with sliding part 512.In housing 10 are provided with the guide groove 134 parallel to sliding groove 133, and the part of slip lid 51 is limited in guide groove 134.When sliding part 512 is worn When crossing guide groove 134, the insertion guide groove 134 of lead 514.Sliding part 512 is slided on the housing 10 simultaneously with lead 514, The moving direction of slip lid 51 can be made steady.Unidirectional guide groove 134 is set on housing 10, and slip lid 51 is assembled to the process of housing 10 Middle identification is good.

The contact area of slip lid 51 and housing 10 is big, and both relative frictional force slided becomes big.In housing 10 provided with convex The lug boss 135 gone out, the lug boss 135 is distributed in the glide direction of slip lid 51, and lug boss 135 is in strip or the point at interval Shape etc..Slip lid 51 is resisted against on lug boss 135, to reduce the contact surface between slip lid 51 and housing 10, is reduced between the two Frictional force, slip lid 51 is moved flexibly.In another embodiment, lug boss 135 is on the slip lid 51 and against to housing 10 Surface, to reduce both contact surfaces.

The surface of the protrusion housing 10 of slip lid 51 is simultaneously slided on the surface of housing 10, can be with the functional hole on shielding casing 10 138.Further to improve the aesthetics of moving camera, housing 10 is in depression portion 136, at least a functional hole from surface concave 138 are located in depressed part 136, and slip lid 51 is located in depressed part 136 and slided along depressed part 136.Slip lid 51 is located at depressed part 136 It is interior, it is possible to decrease slip lid 51 protrudes the Partial Height of housing 10, or even sinks into slip lid 51 in depressed part 136.U.S. of moving camera Sight degree is high, and can reduce the probability for causing slip lid 51 to open during moving camera use.

Fig. 9 is the structural representation of the keeper 52 according to an exemplary embodiment.As shown in Figure 8 and Figure 9, position Part 52 is fixed on the housing 10, and to clamp and limit the sliding position of slip lid 51.Keeper 52 includes Response Division 521 and connected The fixed part 522 of housing 10 is connected to, keeper 52 is limited on the housing 10 by fixed part 522.Correspondingly, in Response Division 521 Upper formation at least two buckling grooves 5212, slip lid 51 is arranged in buckling groove 5212 so that slip lid 51 be limited to screening-off position or a dozen Open position.Wherein, keeper 52 limits slip lid 51 and limited including unilateral limit with bilateral：

A, unilateral restriction：Response Division 521 includes the first strain bar 5211, and the first strain bar 5211 is provided with least two grooves, Buckling groove 5212 is formed between groove and sliding groove 133, slip lid 51 is slidedly arranged on sliding groove 133 and blocked by the first strain bar 5211 Hold.The performance of the i.e. first strain flexible deformation of bar 5211.Slip lid 51 is in the sliding process of sliding groove 133, compression first Strain bar 5211 is allowed to occur elastic deformation.When slip lid 51 slides into groove, then the first strain bar 5211 resets is slided with clamping Lid 51, makes slip lid 51 keep in this place.Correspondingly, an open position of the location of groove correspondence slip lid 51 or mask bit Put.Alternatively, Response Division 521 also include second strain bar 5213 so that the Response Division 521 be in "U" shaped structure, this second should Become bar 5213 parallel to sliding groove 133.Slip lid 51 is slided and pressed from both sides along between the first strain strain bar 5213 of bar 5211 and second Hold.

B, bilateral are limited：Response Division 521 include the first strain bar 5211 and with the first strain bar 5211 symmetrically arranged the Two strain bars 5213.First strain bar 5211 is provided with least two grooves, and the opening of the groove strains bar 5213 towards second, accordingly Ground, is provided with corresponding groove, the groove strains bar 5211 towards first in the second strain bar 5213.First strains the recessed of bar 5211 Buckling groove 5212 is formed between groove and the second strain corresponding groove of bar 5213, slip lid 51 is slidedly arranged on the first strain bar 5211 and the Between two strain bars 5213.Slip lid 51 is in the sliding process of sliding groove 133, and compression first strains the strain bar of bar 5211 and second 5213 make both occur elastic deformation.When slip lid 51 slides into groove, then the first strain bar 5211 and second strains bar 5213 Reset with clamping slip lid 51, slip lid 51 is kept in this place.Correspondingly, an opening of the location of groove correspondence slip lid 51 Position or screening-off position.The traveling comfort of slip lid 51 can be improved by being limited using bilateral, be more uniformly stressed.

Fixed part 522 is keeper 52 to be fixed on the housing 10, and fixed part 522 is outside from one end of Response Division 521 Extension.Fixed part 522 includes head rod 5221 and the second connecting rod being bent to form from one end of head rod 5221 5222, the other end of head rod 5221 is connected to housing 10, and the second connecting rod 5222 is connected to Response Division 521.

In one embodiment, the first strain strain formation "U" shaped structure of bar 5213 of bar 5211 and second, in the first strain The end of the strain bar 5213 of bar 5211 and second is respectively equipped with fixed part 522, i.e., the first strain bar 5211 is in fixed part 522 "U" shaped structure, the second strain bar 5213 is in "U" shaped structure with fixed part 522, and overall keeper 52 is in " W " shape structure. Housing 10 is provided with the spacing edge-cut or positive stop lug boss 137 of opening outwardly, and the spacing edge-cut or positive stop lug boss 137 are to limit the The shift position of one connecting rod 5221 and the second connecting rod 5222, makes keeper 52 fix on the housing 10, easy for installation.

The moving camera also includes processor and the memory for storing processor-executable instruction.

Those skilled in the art will readily occur to its of the disclosure after considering specification and putting into practice disclosure disclosed herein Its embodiment.The application is intended to any modification, purposes or the adaptations of the disclosure, these modifications, purposes or Person's adaptations follow the general principle of the disclosure and including the undocumented common knowledge in the art of the disclosure Or conventional techniques.Description and embodiments are considered only as exemplary, and the true scope of the disclosure and spirit are by following Claim is pointed out.

These are only the preferred embodiment of the disclosure, not to limit the disclosure, all spirit in the disclosure and Within principle, any modification, equivalent substitution and improvements done etc. should be included within the scope of disclosure protection.

Claims (12)

1. a kind of moving camera, including housing, the mainboard for being assembled to the housing, lens assembly and supply unit, the camera lens Component and supply unit are electrically connected to the mainboard, it is characterised in that the housing includes main shell and located at the main shell On front panel and back shroud, the front panel and back shroud be made of metal material, and the mainboard is assembled to before described Plate is simultaneously connected with the front panel heat conduction, the supply unit and the lens assembly be assembled to the back shroud and with it is described after Cover plate heat conduction is connected.

2. moving camera according to claim 1, it is characterised in that the main shell is made up of plastic material, it is described after Cover plate is embedded in the main shell.

3. moving camera according to claim 1, it is characterised in that the front panel and back shroud are by magnesium alloy materials system Into.

4. moving camera according to claim 1, it is characterised in that the back shroud is provided with some heat emission holes, described Heat emission hole is corresponding with the supply unit.

5. moving camera according to claim 1, it is characterised in that the mainboard is at least partly led with the supply unit It is thermally coupled.

6. moving camera according to claim 1, it is characterised in that the mainboard includes wiring board and located at the circuit An at least processor unit on plate, an at least processor unit is connected with the front panel heat conduction.

7. moving camera according to claim 1, it is characterised in that the mainboard includes wiring board and located at the circuit An at least processor unit on plate, an at least processor unit is connected with the supply unit heat conduction.

8. moving camera according to claim 1, it is characterised in that the supply unit includes energy-storage units and is located at Protecting frame outside the energy-storage units, the protecting frame is affixed to the back shroud.

9. moving camera according to claim 8, it is characterised in that the mainboard is connected with the protecting frame heat conduction.

10. moving camera according to claim 9, it is characterised in that be provided with and lead between the mainboard and the protecting frame Thermal medium.

11. moving camera according to claim 1, it is characterised in that the lens assembly includes camera lens module and assembling To the lens board of camera lens module, the lens board is electrically connected with the mainboard, the camera lens module be affixed to the back shroud and The lens board is connected with the back shroud heat conduction.

12. moving camera according to claim 11, it is characterised in that the lens board includes and the camera lens module pair The sensitive chip that should be set, the sensitive chip is connected with the back shroud heat conduction.