CN110460694A - Electronic equipment - Google Patents

Abstract

This application involves a kind of electronic equipment, including shell, functional module group and driving mechanism, shell is equipped with through-hole, and functional module group may be selectively provided in shell or stretch out in shell via through-hole；Driving mechanism is connected between functional module group and shell；Driving mechanism includes that driving assembly and locking teeth group, driving assembly are set in the housing, and are connected to functional module group；Locking teeth group is connected to shell, and movably with functional module group phase clamping.When locking teeth group detachment function mould group, functional module group is driven by driving assembly and is stretched out except shell from through-hole.Above-mentioned electronic equipment, it is arranged by the retractable structure of functional module group, it can be avoided and open up the hole for accommodating or appearing functional module group in the front of the shell of electronic equipment and/or the back side, while so that shell is kept good physical integrity, be conducive to vacate more installation spaces for display panel, to make electronic equipment under the premise of shape size constancy, there is higher screen accounting.

Description

Electronic equipment

Technical field

This application involves technical field of electronic equipment.

Background technique

With the continuous development of electronic technology, such as smart phone or tablet computer electronic equipment to have become user common Electronic equipment.Currently, the electronic equipment with camera is more and more common, camera makes electronic equipment have call function It can also take a picture, image while energy, to greatly enrich and extend the use function of electronic equipment, increasing for people's lives Many enjoyment are added.

However, taking pictures for the ease of user or self-timer, the camera on electronic equipment is generally positioned at casting of electronic device Front and/or the back side, and camera occupies the significant component of position in front/and the back side of casting of electronic device, this It allows for that area shared by the screen of electronic equipment is relatively small, and does not meet becoming for the large-size screen monitors accounting that active user is pursued Gesture.

Summary of the invention

In view of this, the embodiment of the present application provides a kind of relatively large electronic equipment of screen accounting, for solving above-mentioned skill Art problem.

The embodiment of the present application provides a kind of electronic equipment, including shell, functional module group and driving mechanism, and shell is equipped with logical Hole, functional module group may be selectively provided in shell or stretch out in shell via through-hole；Driving mechanism be connected to functional module group with Between shell；Driving mechanism includes that driving assembly and locking teeth group, driving assembly are set in the housing, and are connected to function mould Group；Locking teeth group is connected to shell, and movably with functional module group phase clamping.When locking teeth group detachment function mould group, function Mould group is driven by driving assembly and is stretched out except shell from through-hole.

Compared with the existing technology, the structure that the functional module group for the electronic equipment that the application embodiment provides can stretch is set It sets, permission is stretched out when using functional module group, is withdrawn enclosure interior when that need not use functional module group, can be avoided The hole for accommodating or appearing functional module group is opened up in the front of the shell of electronic equipment and/or the back side, shell is made to keep good Physical integrity while, keep electronic equipment more aesthetically pleasing.In addition, functional module group flexible and indirect with respect to shell can be set Set in the front of shell, be conducive to vacate more installation spaces for display panel, thus make electronic equipment outer dimension not Under the premise of change, there is higher screen accounting, be advantageously implemented the full screen display of electronic equipment.Further, pass through locking Tooth group lock function mould group, and when locking teeth group detachment function mould group, driving assembly driving function mould group is stretched out except shell, energy Enough simplify the structure of driving mechanism, and effectively improve the compactness of the space layout of components, reducing can Pop-up function The space layout of energy mould group.

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, it is also possible to obtain other drawings based on these drawings.

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

Fig. 2 is the stereoscopic schematic diagram of the shell of electronic equipment shown in Fig. 1, camera mould group and driving mechanism；

Fig. 3 is the partial enlargement diagram of shell shown in Fig. 2, camera mould group and driving mechanism；

Fig. 4 is the perspective exploded view of shell shown in Fig. 3, camera mould group and driving mechanism；

Fig. 5 is the enlarged diagram of the region V of Fig. 4；

Fig. 6 is the enlarged diagram of the bracket of camera mould group and driving mechanism shown in Fig. 3；

Fig. 7 is the application wherein driving mechanism, camera mould group of the electronic equipment of embodiment offer and standing for shell Body schematic diagram；

Fig. 8 is the group of camera mould shown in Fig. 7, the bracket of driving mechanism and the perspective exploded view of shell；

Fig. 9 is the stereoscopic schematic diagram of bracket shown in Fig. 8；

Figure 10 is bracket shown in Fig. 8 and the cross-sectional view after the cooperation of camera mould group；

Figure 11 is the structural schematic diagram of the locked component of the application driving mechanism that wherein an embodiment provides；

Figure 12 is driving mechanism, camera mould group and the shell of the application electronic equipment that wherein another embodiment provides Stereoscopic schematic diagram；

Figure 13 is the structural schematic diagram of the locked component of driving mechanism shown in Figure 12；

Figure 14 is driving mechanism, camera mould group and the shell of the application electronic equipment that wherein another embodiment provides Stereoscopic schematic diagram；

Figure 15 is the structural schematic diagram of the locked component of driving mechanism shown in Figure 14.

Specific embodiment

In order to make those skilled in the art more fully understand application scheme, below in conjunction in the embodiment of the present application Attached drawing, the technical scheme in the embodiment of the application is clearly and completely described.Obviously, described embodiment is only Some embodiments of the present application, instead of all the embodiments.Based on the embodiment in the application, those skilled in the art are not having Every other embodiment obtained under the premise of creative work is made, shall fall in the protection scope of this application.

As used some vocabulary to censure specific components in the specification and claims.Those skilled in the art answer It is understood that hardware manufacturer may call same component with different nouns.Specification and claim be not with title Mode of the difference as differentiation component, but using the difference of component functionally as the criterion distinguished.Such as in specification in the whole text And "comprising" of the claim mentioned in is an open language, therefore should be construed to " including but not limited to "；" substantially " Refer to that those skilled in the art can solve technical problem within a certain error range, basically reaches technical effect.

In the description of the present application, it is to be understood that term " on ", "lower", "front", "rear", "left", "right", " inner " Equal indicating positions or positional relationship are to be based on the orientation or positional relationship shown in the drawings, and are merely for convenience of description the application and simple Change description, rather than the device or element of indication or suggestion meaning must have a particular orientation, with specific orientation construction with Operation, therefore should not be understood as the limitation to the application.

In this application, unless otherwise specific regulation or restriction, term " installation ", " connected ", " connection ", " fixation " etc. Term shall be understood in a broad sense.For example, it may be fixedly connected, may be a detachable connection or integrally connected；It can be machinery Connection, is also possible to be electrically connected；It can be and be directly connected to, two members can also be also possible to indirectly connected through an intermediary Connection inside part, be also possible to only surface contact and.It is right.It for the ordinary skill in the art, can basis Concrete condition understands the concrete meaning of above-mentioned term in this application.

Include as " electronic equipment " " communication terminal " (or being referred to as " terminal ") used in the embodiment of the present application, but It is not limited to be configured to connect via Wireline (such as via Public Switched Telephone Network (PSTN), digital subscriber line (DSL), digital cable, Direct cable connection and/or another data connection/network) and/or via (for example, being directed to honeycomb Network, WLAN (WLAN), the digital TV network of such as DVB-H network, satellite network, AM-FM broadcasting transmitter, with And/or another communication terminal) wireless interface receives/send the device of signal of communication.It is configured to pass through radio interface communication Communication terminal can be referred to as " wireless communication terminal ", " wireless terminal ", " mobile terminal " and/or " electronic equipment ".Electricity The example of sub- equipment includes, but are not limited to satellite or cellular phone；It can be with combination cellular radio telephone and data processing, fax And PCS Personal Communications System (PCS) terminal of communication ability；It may include radio telephone, pager, internet/inline Net the PDA of access, Web browser, memo pad, calendar and/or global positioning system (GPS) receiver；And it is conventional above-knee Type and/or palmtop receiver or other electronic devices including radiotelephone transceiver.

Referring to Fig. 1, the application embodiment provides a kind of electronic equipment 100, electronic equipment 100 can be but be not limited to For electronic devices such as mobile phone, tablet computer, smartwatch.The electronic equipment 100 of present embodiment, which takes the mobile phone as an example, to be illustrated.

Electronic equipment 100 includes shell 10 and the display screen 101 that is set on shell 10, in the present embodiment, display screen 101 generally include display panel, may also comprise for responding the circuit etc. for carrying out touch control operation to display panel.Display panel can Think a liquid crystal display panel (Liquid Crystal Display, LCD), in some embodiments, display panel can be with It is simultaneously touch display screen.

Please refer to Fig. 2 and Fig. 3, electronic equipment 100 further includes camera mould group 30 and driving mechanism 50.Driving mechanism 50 are arranged in shell 10, and camera mould group 30 is connected to driving mechanism 50, and the frame of shell 10 is offered for partly accommodating The through-hole 1231 of camera mould group 30, through-hole 1231 also provide for camera mould group 30 with respect to the space that shell 10 moves.Driving machine Structure 50 is used for when receiving the trigger command for stretching out camera, and driving camera mould group 30 moves, and makes camera mould group 30 from through-hole 1231 Except middle stretching shell 10.Driving mechanism 50 is also used to when receiving the trigger command for withdrawing camera, and driving camera mould group 30 is transported It is dynamic, retract camera mould group 30 within shell 10.

Specifically in the application embodiment, shell 10 includes ontology 12 and the dustproof cover 14 for being connected to ontology 12.Ontology 12 include bottom wall 121 and side wall 123, and side wall 123 is connected to the periphery of bottom wall 121 and bends relative to bottom wall 121.Further Ground, bottom wall 121 are arranged around the periphery of bottom wall 123, and accommodating space 125 is collectively formed with side wall 123, and accommodating space 125 is used In the electronic component and camera mould group 30, driving mechanism 50 of receiving electronic equipment 100.

Please refer to Fig. 4 and Fig. 5, in the present embodiment, through-hole 1231 is opened in side wall 123, and by accommodating space 125 are in communication with the outside.Further, the hole axis direction of through-hole 1231 is roughly parallel to 101 place plane of display screen, so that camera The telescopic direction of mould group 30 is roughly parallel to 101 place plane of display screen.Specific location of the through-hole 1231 on side wall 123 not by Limitation, for example, through-hole 1231 can be set in the side of the side wall of the left side of electronic equipment 100, the side wall of right edge or top Wall enables camera mould group 30 to stretch out from least one side in the side of the left and right of electronic equipment 100 two, and/or, camera Mould group 30 can be stretched out from the top of electronic equipment 100.Above-mentioned " left side " is it should be appreciated that user is using electronic equipment 100 and display screen 101 towards user front when, the side of the close shell 10 of the left hand of user；Similarly, the above-mentioned " right side It should be appreciated that user is using electronic equipment 100 and when display screen 101 is towards user front, the right hand of user is leaned on for side " The side of close shell 10.It is understood that through-hole 1231 can be set in side wall in other some embodiments Other positions other than 123 enable camera mould group 30 from electronic equipment for example, through-hole 1231 can be set on bottom wall 121 100 back side is stretched out, and correspondingly, dustproof cover 14 can correspond to through-hole 1231 and be connected to bottom wall 121.

In the present embodiment, dustproof cover 14 is movably connected in side wall 123, and for covering through-hole 1231 to seal The accommodating space 125 of shell 10.When camera mould group 30 is stretched out from through-hole 1231,30 pushing tow dustproof cover of camera mould group makes to prevent Dirt lid 14 is in open state；When camera mould group 30 withdraws 10 inside of shell, dustproof cover 14 can be closed under external force simultaneously Through-hole 1231 is covered, so as to realize the water proof and dust proof protection of shell 10.

Further, dustproof cover 14 is connected to side wall 123 by shaft 141, so that dustproof cover 14 can be neatly opposite Through-hole 1231 unlatches and closes.In some embodiments, it is automatically closed to obtain dustproof cover 14 can after unlatching Thrust, dustproof cover 14 can be connected to side wall 123 by elastic hinge (not shown), and the elastic force by elastic hinge is anti- Dirt lid 14 provides the restoring force being automatically closed.It should be understood that elastic hinge can be elastic hinge generally in the art, this Specification does not repeat；Alternatively, torsional spring (not shown) can be arranged in shaft 141, make two elastic foots point of torsional spring It is not connected to side wall 123 and dustproof cover 141, provides the restoring force being automatically closed by the elastic deformation of torsional spring.

Further, in some embodiments, dustproof cover 14 by magnetic-adsorption on side wall 123, to cover through-hole 1231.Specifically, dustproof cover 14 is equipped with magnet 143 towards the side of through-hole 1231, while side wall 123 is magnetic part, at this time Magnet 143 can protrude from the surface of dustproof cover 14 so as to mutually chimeric with through-hole 1231；Alternatively, side wall 123 is equipped with magnet, it is dust-proof Lid 14 is magnetic part；Alternatively, dustproof cover 14 and side wall 123 are equipped with magnet 143.It should be understood that above-mentioned " magnet " should be Permanent magnet, and " magnetic part " should understand that be the element made of permeability magnetic material, " magnetic part " can be adsorbed by permanent magnet, magnetic conduction Material such as iron etc..

Further, specifically in the embodiment of Fig. 5, side wall 123 is equipped with heavy platform portion 1233,1233 opposite side of heavy platform portion The surface of wall 123 is in sinking shape, and heavy platform portion 123 is arranged around the periphery of through-hole 1231, and dustproof cover 14 is installed in heavy platform portion 1233, And it is embedded in heavy platform portion 1233.The thickness of dustproof cover 14 and the submergence depth in heavy platform portion 1233 are roughly equal, are embedded in dustproof cover 14 When heavy platform portion 1233, the outer surface of dustproof cover 14 and the surface of side wall 123 are generally in approximately the same plane, to guarantee shell 10 Appearance globality it is preferable.Certainly, in other implementations, the thickness of dustproof cover 14 can be other situations, for example, The thickness of dustproof cover 14 is more than or less than the submergence depth in heavy platform portion 1233, dust-proof when dustproof cover 14 being made to be embedded in heavy platform portion 1233 The surface of the outer surface opposing sidewalls 123 of lid 14 can highlight the three-dimensional sense of 100 structure of electronic equipment in protrusion or etat lacunaire Feel with design.

Further, heavy platform portion 1233 includes heavy platform bottom wall 1234 and two heavy platform side walls 1235 being oppositely arranged, and is sunk Platform bottom wall 1234 is arranged around through-hole 1231, and is connected between two heavy platform side walls 1235.The one of each heavy platform side wall 1235 End is equipped with axis hole (not marking in figure), and the both ends of shaft 141 are inserted in respectively in the axis hole of two heavy platform side walls 1235.Heavy platform Bottom wall 1234 is equipped with stage portion 1236 close to one end of shaft 141, and the both ends of stage portion 1236 are respectively adjacent to two axis hole settings, And the surface of stage portion 1236 protrudes from heavy platform bottom wall 1234, and therefore, when dustproof cover 14 is embedded in heavy platform portion 1233, dustproof cover 14 One end equipped with shaft 141 is stacked and placed in stage portion 1236, meanwhile, the magnet 143 protruded relative to dustproof cover 14 can be with platform Rank portion 1236 is set side by side, that is, magnet 143 can protrude out and be placed in the side of stage portion 1236 and the side in heavy platform portion 1233 In the accommodating space that wall 1235 is collectively formed, the dust seal performance of dustproof cover 14 can be further improved.

Further, in some embodiments, heavy platform portion 1233 is additionally provided with first seal 16, and first seal 16 connects It is connected on heavy platform bottom wall 1234, and is arranged around through-hole 1231.First seal 16 for realizing dustproof cover 14 and side wall 123 it Between sealing.In some embodiments, first seal 16 has elasticity, can be by rubber, silica gel, foam elastomeric material It is made, bumper and absorbing shock can be played the role of when dustproof cover 14 is closed.It is understood that in other embodiments In, the inner sidewall in heavy platform portion 1233 can also be arranged in first seal 16, for example, first seal 16 can connect in heavy platform The inner sidewall in portion 1233, when dustproof cover 14 is embedded in heavy platform portion 1233, which can be located at the side of dustproof cover 14 Between wall and the inner sidewall in heavy platform portion 1233.

Fig. 3, Fig. 4 and Fig. 6 are please referred to, driving mechanism 50 is set in shell 10, and camera mould group 30 is slidably connected to Driving mechanism 50.Camera mould group 30 includes that retaining piece 32 and the lens assembly 34 for being connected to retaining piece 32, retaining piece 32 can be slided It is connected to driving mechanism 50 dynamicly.

Driving mechanism 50 includes bracket 52, driving assembly 54 and locked component 56, and bracket 52 is fixedly connected on bottom wall 121, driving assembly 54 and locked component 56 are connected to bracket 52.

Bracket 52 includes fixing piece 521 and guide part 523, and fixing piece 521 is fixedly connected on the bottom wall 121 of shell 10, Guide part 523 is connected to fixing piece 521.

In the present embodiment, guide part 523 is guide rail structure, and quantity is two.Two guide parts 523 are set to solid Part 521 is determined towards the side of through-hole 1231, and two guide parts 523 are substantially parallel to each other setting, guide part 523 is used for and camera Mould group 30 is slidably matched, to guide the glide direction of camera mould group 30.Further, the retaining piece 32 of camera mould group 30 is equipped with and matches Conjunction portion 321, auxiliary section 321 with guide part 523 for matching to limit the glide direction of camera mould group 30.Specifically in Fig. 6 institute In the embodiment shown, auxiliary section 321 is two, and two auxiliary sections 321 are respectively arranged at the two sides of retaining piece 32, and each match Conjunction portion 321 is slidably matched with a guide part 523.Further, mating groove 3211, camera mould group 30 are formed on auxiliary section 321 Guide part 523 is movably sheathed on by mating groove 3211.

It is understood that in other implementations, the structure of bracket 52 can be for other than above-mentioned supporting structure Structure.For example, in some embodiments, bracket 52 can be channel design please refer to Fig. 7 to Fig. 9, can wrap Fixing piece 525 and guide part 527 are included, guide part 527 is fixed on the bottom wall 121 of shell 10 by fixing piece 525.In this implementation In mode, guide part 527 is guide channel structure, and guide part 527 is roughly parallel to the axis setting of through-hole 1231, camera mould group 30 are slideably contained in guide part 527.

Specifically in the illustrated embodiment, the substantially tubular sliding groove structure of guide part 527 comprising the first side wall 5271, second sidewall 5272, third side wall 5273 and the 4th side wall 5274, the first side wall 5271, second sidewall 5272, third Side wall 5273 and the 4th side wall 5274 successively end to end formation tubular sliding groove structure, wherein the first side wall 5271, third side Wall 5273 is substantially parallel opposite, and second sidewall 5272, the 4th side wall 5274 are substantially parallel opposite.

The first side wall 5271 is equipped with multiple guide posts 5275, and guide post 5275 is arranged along the extending direction of guide part 527, And multiple guide posts 5275 are substantially parallel to one another.Guide post 5275 can be an integral molding structure with the first side wall 5271, can also To be assembled on the first side wall 5271.In some embodiments, guide post 5275 by polyformaldehyde (Polyformaldehyde, POM, thermoplastic crystalline polymer) material is made, taken shape on the first side wall 5271 by Shooting Technique.In other implementations In mode, guide post 5275 is formed in the first side wall 5271 by Sheet Metal Forming Technology, for example, guide part 527 is whole by metal material system At, and guide post 5275 is metal stamping structure.Guide groove 5276, guide groove 5276 are formed between per two adjacent guide posts 5275 For matching with camera mould group 30, and guide the glide direction of camera mould group 30.Similarly, second sidewall 5272, third side It is equipped with guide post 5275 on wall 5273 and the 4th side wall 5274, to assist the glide direction of guiding camera mould group 30.

Further, guide part 527 is equipped with stopper section 5277 (referring to Fig. 8) close to one end of through-hole 1231, stopper section 5277 are protruded out by the inside of periphery towards the sliding groove structure of guide part 527 and are formed, and stopper section 5277 blocks the end of guide groove 5276 End, skids off out of guide groove 5276 to avoid camera mould group 30.Further, please refer to Figure 10, the fixing of camera mould group 30 32 periphery projection of part is equipped with auxiliary section 325, and auxiliary section 325 is multiple, multiple auxiliary sections 325 and multiple guide grooves 5276 one-to-one correspondence Setting, and each auxiliary section 325 protrudes out in corresponding guide groove 5276, and being capable of the sliding of opposed guide slots 5276.When camera mould When group 30 is slided relative to guide part 527, auxiliary section 325 is slided in guide groove 5276, when camera mould group 30 is relative to guide part After 527 slide into extreme position, auxiliary section 325 is held on stopper section 5277, to prevent camera mould group 30 from guide part 527 Interior disengaging.

It is understood that in other implementations, guide part 527 other than the sliding groove structure of above-mentioned tubular, It can also be other guide frames.For example, guide part 527 can be the sliding groove structure of opposing open, it may include above-mentioned The first side wall 5271, second sidewall 5272, third side wall 5273, and make the first side wall 5271, third side wall 5273 substantially Parallel opposite, second sidewall 5272 is connected between the first side wall 5271 and third side wall 5273, passes through the first side wall 5271, the Sliding groove structure is collectively formed in two side walls 5272, third side wall 5273, and at least partly structure of camera mould group 30 is contained in this In sliding groove structure.Even, guide part 527 may include above-mentioned the first side wall 5271, third side wall 5273, and make the first side Wall 5271, third side wall 5273 are substantially parallel opposite to form sliding groove structure, and at least partly structure of camera mould group 30 is contained in In the sliding groove structure.Further, the specific structure of guide part 527 is unrestricted, and in some embodiments, guide part 527 can Think oat tail groove structure, or cylindrical structure etc..

In the application embodiment, by the way that the guide part 527 of sliding groove structure is arranged, and make camera mould group 30 at least partly Ground is contained in guide part 527, can simplify the structure of driving mechanism 50, and effectively improve the space layout of components Compactness, reduce can Pop-up camera mould group space layout.Meanwhile the guide part 527 by the way that sliding groove structure is arranged, to phase The slide-and-guide of machine mould group 30 is more reliable.

Driving assembly 54 is connected between bracket 52 and camera mould group 30, and driving assembly 54 is used to provide for camera mould group 30 Stretch out in the power of shell 10.Referring to Fig. 6, in embodiment shown in the figure, driving assembly 54 includes elastic component 541, one end of elastic component 541 is connected to fixing piece 521, and the other end is flexibly held in camera mould group 30, and is camera mould group 30 apply the thrust towards through-hole 1231.Elastic component 541 for pushing camera mould group 30, make camera mould group 30 stretch out shell 10 it Outside.In the present embodiment, elastic component 541 is helical spring, it is to be understood that in other examples, elastic component 54 is also It can be other elastic constructions, such as elastic slice, resilient sleeve etc..

It can also be appreciated that in other implementations, driving assembly 54 can be other ejecting mechanisms, example Such as, driving assembly 54 can be electromagnetic drive mechanism, specifically, driving assembly 54 may include determine magnet and with it is described fixed The dynamic magnet that magnet is slidably matched, the bottom wall 121 determined magnet and be connected to the shell 10, the camera mould group 30 are connected to The dynamic magnet, wherein determine that magnet can be electromagnet and dynamic magnet is permanent magnet, or determine that magnet can be permanent magnet and move Magnet is electromagnet, by controlling the intracorporal current direction of electromagnetism, can change its electromagnetism field direction, to drive camera mould group 30 movements；For another example, driving assembly 54 can also be linear electric motor mechanism, specifically, driving assembly 54 may include fixed Son and mover, stator are fixedly installed on bottom wall 121, and mover is slidably matched with stator, and camera mould group 30 is connected to mover； Alternatively, driving assembly 54 can not also repeat one by one for other linear driving mechanisms, this specification.

Referring to Fig. 4, locked component 56 is connected to shell 10, and movably with 30 phase clamping of camera mould group.When When locked component 56 is with camera mould 30 phase clamping of group, camera mould group 30 is limited in shell 10, and elastic component 541 is in compressed Elastic deformation state.When locked component 56 and camera mould group 30 are separated, elastic component 541 restores deformation, the bullet of elastic component 541 Property restoring force push camera mould group 30, make camera mould group 30 stretch out shell 30 except.

Please refer to Fig. 4 and Figure 11, in a kind of embodiment provided by the present application, locked component 56 is locking teeth group Structure.Locked component 56 includes locating part 561, locking piece 563, return springs 565, operating parts 567 and button 569.

In the present embodiment, locating part 561 is fixed on the bottom wall 121 of shell 10, and near bracket 52 is arranged.Locating part 561 for limiting the installation position and the direction of motion of locking piece 563.

Locking piece 563 is arranged adjacent to locating part 561, and is slideably in contact with locating part 561.In present embodiment In, the structure substantially in the shape of a rod of locking piece 563 is approximately perpendicular to the glide direction of camera mould group 30.One end court of locking piece 563 To camera mould group 30 extend, and movably with 30 phase clamping of camera mould group.When locking piece 563 and 30 phase clamping of camera mould group or When being separated, locking piece 563 is slided along the extending direction of locating part 561.

Specifically, locking piece 563 includes tooth-strip part 5631 and holding section 5633.Tooth-strip part 5631 is rack structure, It is used to be meshed with operating parts 567.Holding section 5633 is connected to tooth-strip part 5631 close to one end of camera mould group 30, holding section 5633 are used for and 30 phase clamping of camera mould group.Accordingly, the retaining piece 32 of camera mould group 30 is equipped with holding hole 323 (referring to figure 6).Holding section 5633 protrudes into holding hole 323, and camera mould group 30 is limited in shell 10.When holding section 5633 is detached from When holding hole 323, camera mould group 30 is stretched out except shell 10 under the pushing of driving assembly 54.Further, holding section 5633 It is equipped with guiding surface 5635 towards the side of through-hole 1231, guiding surface 5635 can reduce the size of 5633 end of holding section, So that holding section 5633 is easy to protrude into holding hole 323.

Return springs 565 are connected to locking piece 563, and are flexibly held between locking piece 563 and locating part 561. Return springs 565 are used to provide the thrust for protruding into holding hole 323 for locking piece 563.In the present embodiment, locking piece 563 It further include the mounting portion 5637 for being connected to tooth-strip part 5631, mounting portion 5637 is located between locating part 561 and camera mould group 30, multiple Position elastic component 565 is movably sheathed on mounting portion 5637, and is flexibly held between mounting portion 5637 and locating part 561. When locking piece 563 is moved towards the direction far from camera mould group 30 under external force, return springs 565 are compressed, when this After external force revocation, return springs 565 restore deformation, and push locking piece 563 and move towards camera mould group 30, so as to locking piece 563 again with 323 phase clamping of holding hole.

Operating parts 567 is connected to locking piece 563, and transports for controlling locking piece 563 towards the direction far from camera mould group 30 It is dynamic.In the present embodiment, operating parts 567 includes rack gear 5671 and gear 5673.Rack gear 5671 is approximately perpendicular to locking piece 563 settings, and it is located at the side that locking piece 563 deviates from locating part 561, gear 5673 is engaged in rack gear 5671 and tooth-strip part 5631 Between.Button 569 is movably disposed in the side wall 123 of shell 10, and is partially exposed to except shell 10.Meanwhile button 569 are connected to rack gear 5671, by push button 569, can be driven by gear 5673, make locking piece 563 towards far from camera The direction of mould group 30 moves.

It is understood that in other implementations, button 569 can be omitted, and can by one end of rack gear 5671 It is actively set to side wall 123, the other end is meshed with gear 5673.Further, in some embodiments, button 569 can be omitted, and operating parts 567 can be other operation structures.For example, operating parts 567 can be knob structure, it can To include meshing teeth and operation portion, at this point, operating parts 567 is rotatablely arranged at shell 10, and operation portion is partly sudden and violent It is exposed to except shell, engaging section is meshed with locking piece, by pushing operation portion, rotates operating parts 567, by engaging tooth Portion's transmission, moves locking piece 563 towards the direction far from camera mould group 30.Further, knob is rotationally connected by pivot It is connected to the bottom wall 121 of shell 10, torsional spring can be equipped on pivot, two torsional spring feet of torsional spring are respectively elastically held in bottom wall Between 121 and knob, to provide the thrust that revolution resets for knob.

It is understood that in other implementations, locating part 561 also can be omitted, and by return springs 565 It is flexibly held between locking piece 563 and shell 10, pushes power to provide for locking piece 563 towards camera mould group 30.

The locked component 56 that present embodiment provides is tooth group engaging structure, can simplify the structure of driving mechanism 50, and And effectively improve the compactness of the space layout of components, reduce can Pop-up camera mould group space layout.

Figure 12 and Figure 13 is please referred to, in another embodiment provided by the present application, locked component 56 is locking lever Group structure.Locked component 56 includes locking piece 573, lever 575, return springs 577 and toggle 579.

The setting of 573 near bracket 52 of locking piece, and be slideably connected with bracket 52, at this point, bracket 52 is also used to limit The glide direction of locking piece 573 processed.In the present embodiment, the structure substantially in the shape of a rod of locking piece 573, is approximately perpendicular to camera The glide direction of mould group 30.One end of locking piece 573 towards camera mould group 30 extend, and movably with 30 phase card of camera mould group It holds.When locking piece 573 and 30 phase clamping of camera mould group or when being separated, locking piece 573 is slided along the direction that bracket 52 limits.

Specifically, locking piece 573 includes interconnecting piece 5731 and holding section 5733.Interconnecting piece 5731 is equipped with connecting hole 5732, connecting hole 5732 with lever 575 for being connected.

Holding section 5733 is connected to interconnecting piece 5731 close to one end of camera mould group 30, and holding section 5733 is used for and camera mould 30 phase clampings of group.Accordingly, bracket 52 is equipped with limit hole 5201 (e.g., fixed frame 521 is equipped with limit hole 5201), camera mould group 30 retaining piece 32 is equipped with holding hole 323 (referring to Fig. 6), and holding hole 323 is corresponding with limit hole 5201, and holding section 5733 can It is actively arranged in limit hole 5201, and is protruded into holding hole 323, camera mould group 30 is limited in shell 10.Work as card When holding the disengaging holding hole 323 of portion 5733, camera mould group 30 is stretched out except shell 10 under the driving of driving assembly 54.Further Ground, holding section 5733 are equipped with guiding surface 5735 towards the side of through-hole 1231, and guiding surface 5735 can reduce holding section The size of 5733 ends, so that holding section 5733 is easy to protrude into holding hole 323.

It is understood that in other implementations, it may not be necessary to limit the movement of locking piece 573 using bracket 52 Direction, but locating part is set on the bottom wall of shell 10 121, and limit hole is opened up on locating part, make holding section 5733 can It is actively arranged in limit hole, and is protruded into holding hole 323, camera mould group 30 is limited in shell 10.

Lever 575 is connected to the interconnecting piece 5731 of locking piece 573, and for controlling locking piece 573 towards far from camera mould group 30 direction movement.In the present embodiment, lever 575 includes articulated section 5751 and the pushing portion for being connected to articulated section 5751 5753.The approximate mid-section position of articulated section 5753 is articulated in bottom wall 121, and pushing portion 5753 is set to articulated section 5751 close to locking One end of part 573.Pushing portion 5753 is movably contained in the connecting hole 5732 of locking piece 5731, when articulated section 5751 rotates When, drive pushing portion 5753 to rotate, pushing portion 5753 pushes the inner wall of connecting hole 5732, make locking piece 573 towards close to or far from The direction of camera mould group 30 moves.Further, the lateral wall of pushing portion 5753 is smooth surface structure, so that pushing portion 5753 Movement when pushing the inner wall of connecting hole 5732 is more smoothly.In the embodiment being specifically illustrating, pushing portion 5753 is part It is cylindric.

Return springs 577 are connected to lever 575, and are flexibly held between lever 575 and bracket 52.Flexible Reset Part 577 is used to provide the thrust for protruding into holding hole 323 for locking piece 573.In the present embodiment, return springs 577 support In the one end of articulated section 5751 far from pushing portion 5753, when lever 575 is rotated relative to shell 10 under external force, and drive When locking piece 573 is moved towards the direction far from camera mould group 30 (specifically in Figure 12, lever 575 is rotation counterclockwise at this time), Return springs 577 are compressed, and after external force revocation, return springs 577 restore deformation, and it is multiple to push the revolution of lever 575 Position (specifically in Figure 12, lever 575 is to rotate clockwise at this time), moves locking piece 573 towards camera mould group 30, in order to Locking piece 573 again with 323 phase clamping of holding hole.

In the present embodiment, toggle 579 and lever 575 are locked collectively as the operating parts of locked component 56 for controlling Part 573 is determined close to or far from camera mould group 30.Toggle 579 is movably disposed in the side wall 123 of shell 10, and partially exposed Except shell 10.Meanwhile toggle 579 is located at articulated section and deviates from the side of return springs 577, and is actively held in pivot joint The one end of portion 5751 far from pushing portion 5753.By stirring toggle 579, it can be driven by lever 575, make 573 court of locking piece Direction far from camera mould group 30 moves.Further, lever 575 is articulated in the bottom of shell 10 by pivot (not marking in figure) The position that wall 121, pushing portion 5753 and lever 575 and toggle 579 abut against is located at the opposite sides of the pivot.

It is understood that in other implementations, toggle 579 can be omitted, and by the articulated section of lever 575 5751 one end is movably disposed in side wall 123, and the other end is connected with pushing portion 5753.Alternatively, in some implementations In mode, lever 575 be can be omitted, and one end of toggle 579 is directly connected in locking piece 583, and the other end is movably set It is set to the side that toggle 579 deviates from camera mould group 30 in side wall 123, while by return springs 577, makes return springs 577 are flexibly held between shell 10 and toggle 579, stir toggle 579 by external force, and toggle 579 is made to drive locking piece 573 It is moved towards the direction far from camera mould group 30, while compressing return springs 577；After external force revocation, return springs 577 are extensive Complex elasticity deformation, and push toggle 579 and locking piece 573 is driven to reset.

The locked component 56 that present embodiment provides is lever drive structure, can simplify the structure of driving mechanism 50, and And effectively improve the compactness of the space layout of components, reduce can Pop-up camera mould group space layout.

Figure 14 and Figure 15 is please referred to, in another embodiment provided by the present application, locked component 56 is lock link Structure.Locked component 56 includes locating part 581, locking piece 583, return springs 585, connecting rod 587 and button 589.

In the present embodiment, locating part 581 is fixed on the bottom wall 121 of shell 10, and is connected to bracket 52.Locating part 581 for limiting the installation position and the direction of motion of locking piece 583.

Locating part 581 includes supporting part 5811 and blocking part 5813, and one end of supporting part 5811 is connected to bracket 52, supports Stopper 5813 is connected to the one end of supporting part 5813 far from bracket 52.In the present embodiment, supporting part 5811 is generally rectangular shaped Plate, extending direction are approximately perpendicular to the glide direction of camera mould group 30, and supporting part 5811 is for carrying locking piece 583 and limiting The direction of motion of locking piece 583 processed.Supporting part 5811 is equipped with carrying protrusion 5812, and carrying protrusion 5812 protrudes from supporting part 5811 surface is used to install and carry locking piece 583, to reduce the contact area of locking piece 583 Yu supporting part 5811, from And reduce the frictional resistance of locking piece 583 during exercise.In the present embodiment, carrying protrusion 5812 is multiple, multiple carryings Protrusion 5812 is intervally installed.Blocking part 5813 is bent to form in the one end of supporting part 5813 far from bracket 52, blocking part 5813 for limiting locking piece 583 towards extreme position when moving far from camera mould group 30.

Further, in some embodiments, locating part 581 further includes limiting section 5815, and limiting section 5815 is connected to The side of supporting part 5811, and bent relative to supporting part 5811.Limiting section 5818 include connecting pin (not marked in figure) and Positive stop end (does not mark) in figure, and connecting pin is connected to supporting part 5811, and along the direction direction for being approximately perpendicular to supporting part 5811 The side wall 123 of shell 10 extends, and positive stop end is connected to side of the connecting pin far from supporting part 5811, and positive stop end is roughly parallel to Supporting part 5811.Guide space is formed between positive stop end and supporting part 8511, the guide space is for accommodating locking piece 853.Lock When determining part 583 and being contained in the guide space, limiting section 5818 can limit the installation position of locking piece 583, and prevent from locking Part 583 is detached from locating part 581.

Locking piece 583 is slidably disposed on locating part 581.In the present embodiment, locking piece 583 is substantially in the shape of a rod Structure is approximately perpendicular to the glide direction of camera mould group 30.One end of locking piece 583 is set to the supporting part of locating part 581 5811, the other end towards camera mould group 30 extend, and movably with 30 phase clamping of camera mould group.When locking piece 583 and camera 30 phase clamping of mould group or when being separated, locking piece 583 is slided along the extending direction of supporting part 5811.

Specifically, locking piece 583 includes interconnecting piece 5831 and holding section 5833.Interconnecting piece 5831 is equipped with pivot 5832, pivot 5832 with connecting rod 587 for being connected.

Holding section 5833 is connected to interconnecting piece 5831 close to one end of camera mould group 30, and holding section 5833 is used for and camera mould 30 phase clampings of group.Accordingly, the retaining piece 32 of camera mould group 30 is equipped with holding hole 323 (referring to Fig. 6), and holding section 5833 can live It is arranged in bracket 52 dynamicly, and protrudes into holding hole 323, camera mould group 30 is limited in shell 10.Work as holding section When 5833 disengaging holding hole 323, camera mould group 30 is stretched out except shell 10 under the pushing of driving assembly 54.Further, block It holds portion 5833 and is equipped with guiding surface 5835 towards the side of through-hole 1231, guiding surface 5835 can reduce 5833 end of holding section Size so that holding section 5833 is easy to protrude into holding hole 323.

Return springs 585 are connected to locking piece 583, and are flexibly held between locking piece 583 and locating part 581. Return springs 585 are used to provide the thrust for protruding into holding hole 323 for locking piece 583.In the present embodiment, locking piece 583 Further include the mounting portion (not marked in figure) for being connected to interconnecting piece 5831, installation position in interconnecting piece 5831 and blocking part 5813 it Between, return springs 585 are movably sheathed on mounting portion, and be flexibly held in interconnecting piece 5831 and blocking part 5813 it Between.When locking piece 583 is moved towards the direction far from camera mould group 30 under external force, return springs 585 are compressed, when After external force revocation, return springs 585 restore deformation, and push locking piece 583 and move towards camera mould group 30, to lock Part 583 again with 323 phase clamping of holding hole.

Connecting rod 587 is connected to the pivot 5832 of locking piece 583, and for controlling locking piece 583 towards far from camera mould group 30 direction movement.

In the present embodiment, button 589 and connecting rod 577 are locked collectively as the operating parts of locked component 56 for controlling Part 583 is determined close to or far from camera mould group 30.Button 589 is movably disposed in the side wall 123 of shell 10, and partially exposed Except shell 10.Meanwhile button 589 is articulated in the one end of connecting rod 587 far from locking piece 583.Pass through pressed by external force button 589, it is able to drive the movement of connecting rod 587, moves locking piece 563 towards the direction far from camera mould group 30.

It is understood that in some embodiments, connecting rod 587 can be omitted, button 589 can other operation knots Structure.For example, button 589 can be push-button structure, at this point, one end of toggle is connected to locking piece 583, the other end is movably Set on side wall 123, at this point, the connection between toggle and locking piece 583 is rigid connection, by stirring toggle, drive toggle Locking piece 583 is moved towards the direction far from camera mould group 30, while compressing return springs 585；After external force revocation, bullet is resetted Property part 585 restore elastic deformation, and push toggle drive locking piece 583 reset.

The locked component 56 that present embodiment provides is link transmission structure, can simplify the structure of driving mechanism 50, and And effectively improve the compactness of the space layout of components, reduce can Pop-up camera mould group space layout.

Compared to the prior art, the structure setting that the camera mould group 30 of above-mentioned electronic equipment 100 can stretch allows It is stretched out when using camera mould group 30, is withdrawn inside shell 10, be can be avoided when camera mould group 30 need not be used The front and/or the back side of the shell 10 of electronic equipment 100 open up the hole for accommodating or appearing camera mould group 30, make shell 10 While keeping good physical integrity, keep electronic equipment 100 more aesthetically pleasing.In addition, camera mould group 30 can be with respect to shell 10 fronts that are flexible rather than being set up directly on shell 10, are conducive to vacate more installation spaces for display screen 101, to make electricity Sub- equipment 100 has higher screen accounting, is advantageously implemented the complete of electronic equipment 100 under the premise of shape size constancy Screen display.

Further, in some embodiments, camera mould group 30 may include front camera, rear camera or sudden strain of a muscle It is any one or more in light lamp.

Further, in some embodiments, camera mould group 30 may include front camera, rear camera or sudden strain of a muscle It is any one or more in light lamp.Further, in some embodiments, others can also be set in camera mould group 30 Functional unit, for example, the functional units such as called device assembly, sensor module, flash lamp component can be equipped in camera mould group 30 In any one or more, at this point, retaining piece 32, lens assembly 34 and called device assembly, sensor module, flash lamp component etc. Any one or more in functional unit form a functional module group, which is driven by driving mechanism 50 stretches out shell 19 Except.In other words, which may include front camera, rear camera, flash lamp, receiver, sensor etc. Any one or more in functional unit need not used by driving mechanism 50 by except functional module group stretching shell 19 It is withdrawn when functional module group inside shell 10, can be avoided and opened up in the front of the shell 10 of electronic equipment 100 and/or the back side For accommodating or appearing the hole of functional module group, while so that shell 10 is kept good physical integrity, make electronic equipment 100 It is more aesthetically pleasing.

Further, referring to Fig. 1, in some embodiments, above-mentioned electronic equipment 100 can be full frame electricity Sub- equipment, full frame electronic equipment is it should be appreciated that screen accounting is greater than or equal to the electronic equipment of preset value, that is, display screen 101 At 10 front of shell, the surface area of display screen 101 and the percentage of the positive projected area of shell 10 are greater than or equal to for setting Preset value.In some embodiments, shield accounting preset value can be greater than or equal to 74%, such as 74%, 75%, 76%, 78%, 79%, 80%, 81%, 83%, 85%, 87%, 89%, 90%, 91%, 93%, 95%, 97%, 99% etc..One In a little embodiments, the front of full frame electronic equipment can be set there are three or less entity key, and/or, full frame electronics is set There are two standby front can be set or less aperture is conducive to improve full frame electricity with the structure of the full frame electronic equipment of simplification The screen accounting of sub- equipment.

In the description of this specification, reference term " one embodiment ", " some embodiments ", " example ", " specifically show The description of example " or " some examples " etc. means specific features, structure, material or spy described in conjunction with this embodiment or example Point is contained at least one embodiment or example of the application.In the present specification, schematic expression of the above terms are not It must be directed to identical embodiment or example.Moreover, particular features, structures, materials, or characteristics described can be in office It can be combined in any suitable manner in one or more embodiment or examples.In addition, without conflicting with each other, the skill of this field Art personnel can tie the feature of different embodiments or examples described in this specification and different embodiments or examples It closes and 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 this feature.In the description of the present application, the meaning of " plurality " is at least two, such as two, three It is a etc., unless otherwise specifically defined.

Finally, it should be noted that above embodiments are only to illustrate the technical solution of the application, rather than its limitations；Although The application is described in detail with reference to the foregoing embodiments, those skilled in the art are when understanding: it still can be with It modifies the technical solutions described in the foregoing embodiments or equivalent replacement of some of the technical features；And These are modified or replaceed, do not drive corresponding technical solution essence be detached from each embodiment technical solution of the application spirit and Range.

Claims (12)

1. a kind of electronic equipment characterized by comprising

Shell, the shell are equipped with through-hole；

Functional module group may be selectively provided in the shell or stretch out in the shell via the through-hole；

Driving mechanism is connected between the functional module group and the shell；The driving mechanism includes:

Driving assembly is disposed in the housing, and is connected to the functional module group；And

Locking teeth group is connected to the shell, and movably with the functional module group phase clamping；The locking teeth group is detached from institute When stating functional module group, the functional module group is driven by the driving component and is stretched out except the shell from the through-hole.

2. electronic equipment as described in claim 1, which is characterized in that the locking teeth group includes operating parts and locking piece, The operating parts is set to the shell, and the locking piece includes tooth-strip part and the holding section for being connected to the tooth-strip part, institute It states tooth-strip part to be meshed with the operating parts, the holding section and the functional module group phase clamping.

3. electronic equipment as claimed in claim 2, which is characterized in that the locking teeth group further includes return springs, described Return springs one end is fixedly connected to the shell, and the other end of the return springs is flexibly held in the locking Part, and provide for the locking piece towards the functional module group and push power.

4. electronic equipment as claimed in claim 2, which is characterized in that the holding section is equipped with guiding surface, the function mould Group is equipped with holding hole, and when the locking piece is with the functional module group phase clamping, the holding section is protruded into the holding hole.

5. electronic equipment as claimed in claim 2, which is characterized in that the operating parts includes rack gear and is engaged in the tooth Gear between item and the locking piece, one end of the rack gear are movably connected in the shell, the other end and the tooth Wheel is meshed.

6. electronic equipment as claimed in claim 5, which is characterized in that the operating parts further includes button, and the button can live It is set to the shell dynamicly, and is partially exposed to except the shell, the rack gear is connected to the button.

7. electronic equipment as claimed in claim 2, which is characterized in that the operating parts is knob, and the knob includes engagement Teeth portion and operation portion, the knob is rotatablely arranged at the shell, and the operation portion is exposed to except the shell, The engaging section is meshed with the locking piece.

8. electronic equipment as claimed in claim 7, which is characterized in that the knob is rotatably connected at described by pivot Shell, the pivot are equipped with torsional spring, and the torsional spring is held between the knob and the shell, and is provided for the knob The restoring force of rotation.

9. electronic equipment as described in claim 1, which is characterized in that the driving mechanism further includes bracket, and the bracket is solid Surely it is set in the shell, the functional module group is slidably connected to the bracket；The driving component includes elasticity Part, one end of the elastic component are connected to the bracket, and the other end of the elastic component is held in the functional module group, and to institute State thrust of the functional module group application towards the through-hole.

10. electronic equipment as claimed in claim 9, which is characterized in that the bracket includes fixing piece and guide part, described Fixing piece is fixed on the shell, and the guide part is connected to the fixing piece, and the guide part is guide rail structure, the function Mould group is equipped with auxiliary section, and the auxiliary section forms mating groove, and the functional module group is movably sheathed on by the mating groove The guide part.

11. electronic equipment as described in claim 1, which is characterized in that the driving component is electromagnetic drive mechanism, the drive Dynamic component includes electromagnet and the dynamic magnet that is slidably matched with the electromagnet, and the electromagnet is connected to the shell, institute It states functional module group and is connected to the dynamic magnet.

12. electronic equipment as described in claim 1, which is characterized in that the functional module group includes in functional unit Any one or more: front camera, rear camera, flash lamp, receiver, sensor.