CN113890912A - Electronic equipment - Google Patents

Abstract

The application provides an electronic device, which includes: the camera comprises a shell and a camera cover plate arranged on the shell, wherein a supporting piece is arranged on the camera cover plate and protrudes out of the outer surface of the camera cover plate. The application provides an electronic equipment is owing to be provided with support piece on camera apron, and when electronic equipment placed on the holding surface, support piece can get up camera apron support for the surface of camera apron can not contact with the holding surface, thereby can prevent that camera apron from being scraped the flower by the holding surface, has guaranteed electronic equipment's shooting effect. The embodiment of the application does not need to set up the annular frame of protrusion in camera apron surface around the round in camera apron periphery, only sets up the support piece of protrusion in camera apron surface on camera apron and can protect camera apron well, and the support piece is very little to the influence of electronic equipment outward appearance to the user has been improved and has used electronic equipment's visual experience.

Description

Electronic equipment

Technical Field

The present application relates to the field of electronic product technologies, and in particular, to an electronic device.

Background

A photographing function has been an indispensable function for electronic devices (e.g., mobile phones, tablets, etc.). The shooting device of the electronic equipment mainly comprises a front camera and a rear camera, wherein the front camera faces a cover plate of the display screen, and the rear camera faces a rear cover of the shell. The front side of the rear camera is generally provided with a camera cover plate, the camera cover plate is installed on a rear cover of the shell, the rear camera shoots through the camera cover plate, and the camera cover plate can protect the rear camera.

In the related art, in order to prevent the camera cover plate from scratching in the using process and affecting the shooting effect, the outer surface of the shell rear cover is usually provided with a groove-shaped mounting part in an outward protruding mode, the camera cover plate is installed in the groove-shaped mounting part, and the groove wall of the groove-shaped mounting part is higher than the outer surface of the camera cover plate, so that the camera cover plate is not easy to contact with supporting surfaces such as a desktop and the ground and scratch.

However, when the groove wall of the groove-shaped mounting element is higher than the outer surface of the camera cover plate, the part of the groove-shaped mounting element higher than the outer surface of the camera cover plate can form an annular frame which protrudes out of the outer surface of the camera cover plate and surrounds the periphery of the camera cover plate by a circle, and the annular frame can cause great influence on the appearance of the electronic device, so that the visual experience of a user is poor.

Disclosure of Invention

The application provides an electronic equipment can improve user's visual experience, also can prevent well that camera apron from being scraped the flower.

The application provides an electronic device includes: the camera comprises a shell and a camera cover plate arranged on the shell, wherein a supporting piece is arranged on the camera cover plate and protrudes out of the outer surface of the camera cover plate.

The camera cover plate can be any one of a 2.5D cover plate, a 3D cover plate and a plane cover plate.

The support member may be any one of a spherical structure, a block structure, a plate structure, a frame structure, a bracket structure, a rod structure, and a race-track structure, or a combination of these structures, and for example, the support member may be a structure formed by combining a block structure and a spherical structure, or a structure formed by combining a rod structure and a block structure. The supporting member may be any regular or irregular structure, and the supporting member has a supporting function, and the specific structure is not limited.

The material of the support member may be any one of glass, ceramic, crystal, sapphire and metal, but is not limited thereto.

Support piece can be connected on the surface of camera apron, for example, support piece can bond on the surface of camera apron through the colloid, and support piece also can be connected on the surface of camera apron through connection methods such as joint, riveting, threaded connection, pin joint, and support piece also can be installed on the surface of camera apron through mounting structure such as mount pad or mounting bracket. The manner of attachment of the support member to the outer surface of the camera cover is not limited.

Or, a through hole may be formed in the camera cover plate 300, and one end of the supporting member may be connected in the housing, and the other end of the supporting member may extend to the outer side of the outer surface of the camera cover plate through the through hole in the camera cover plate.

The electronic equipment that this application embodiment provided is owing to be provided with support piece on camera apron, and support piece protrusion in the surface of camera apron, like this, when electronic equipment placed on holding surfaces such as desktop or ground, support piece can get up camera apron support for the surface of camera apron can not contact with the holding surface, thereby can prevent that camera apron from being scraped the flower by the holding surface, has guaranteed electronic equipment's shooting effect.

The embodiment of the application does not need to set up the annular frame of protrusion in camera apron surface around the round in camera apron periphery, only sets up the support piece of protrusion in camera apron surface on camera apron, and support piece only needs very little volume can protect camera apron well, and support piece is very little to the influence of electronic equipment outward appearance to the user has been improved and has used electronic equipment's visual experience.

In addition, when the periphery of camera apron was equipped with the annular frame of round protrusion camera apron surface, the convex annular frame of round can cause great influence to the comfort when user handheld electronic equipment for it is great to the user experience influence of gripping. The embodiment of the application is provided with the support piece on the camera cover plate, so that the support piece can be arranged very small, the comfortable sensation when the user holds the electronic equipment is influenced less, and the gripping experience of the user is improved.

Along with the user is higher and higher to the requirement of electronic equipment outward appearance, the camera apron can be 2.5D apron, wherein, 2.5D apron passes through the cambered surface transition of evagination from the edge to the center, and the center protrusion in the edge of 2.5D apron can make the visual effect of camera apron better, can also improve user's sense of touch and experience. Since the outer surface of the 2.5D cover plate is higher than the edge, the outer surface of the 2.5D cover plate may be easily scratched by contacting the supporting surface. The embodiment of the application sets up the support piece of protrusion in camera apron surface on camera apron, can prevent the surface and the holding surface contact of 2.5D apron well to can prevent well that camera apron surface from being scraped the flower by the holding surface, guarantee electronic equipment's shooting effect.

Set up the support piece of protrusion in camera apron surface on the camera apron, when electronic equipment fell, support piece can earlier with the holding surface contact and play the supporting role to the camera apron, like this, can reduce the cracked phenomenon of camera apron that electronic equipment fell and lead to.

Because support piece sets up on the camera apron for the camera apron is difficult to contact with the holding surface, thereby has reduced the camera apron and has received the possibility of slant power, and wherein, slant power is the external force parallel with the surface of camera apron promptly, and like this, the camera apron is difficult to take place off-centre, has further guaranteed the shooting effect.

Because set up support piece on camera apron, can reduce the space that support piece took in the casing, make electronic equipment's structure compacter.

In one possible design, a recess is provided on the outer surface of the camera cover plate, and the support member is mounted in the recess.

The recess may be an open groove, which may also be referred to as a blind hole. Support piece can also bond in the recess through interference fit's mode, support piece, or, support piece can the joint in the recess, and support piece is not limited to this at the mounting means of recess.

In this embodiment installs support piece in the recess on camera apron surface, the installation of the support piece of being more convenient for, and can be more firm with support piece installation ground to make electronic equipment's overall structure stability better.

In one possible design, the groove is a through groove, the supporting piece penetrates through the through groove, a connecting piece is arranged at one end, located on the inner side of the camera cover plate, of the supporting piece, the connecting piece extends to the orthographic projection outer side of the through groove, and the connecting piece is abutted to the inner surface of the camera cover plate.

The groove is a through groove, that is, the groove penetrates through the camera cover plate to form a through hole, that is, the through groove is a through hole on the camera cover plate.

The one end that is located camera apron inboard of support piece can encircle support piece periphery round and be provided with the connecting piece that extends to the orthographic projection outside that leads to the groove, and under this condition, the connecting piece can form an annular structure, and the connecting piece can encircle the round butt on the internal surface of camera apron to make the stability of butt better, make support piece install on camera apron more reliably.

The connecting piece extends to the orthographic projection outside of the through groove, namely the connecting piece extends to the orthographic projection outside of the through groove on the connecting piece, namely the orthographic projection of the connecting piece on the camera cover plate extends to the periphery of the through groove, so that the connecting piece has a part overlapped with the inner surface of the camera cover plate.

In this embodiment, through the connecting piece butt on the internal surface of camera apron, can prevent that support piece from leading to the inslot outwards falling out, make support piece install at logical inslot more firmly to make electronic equipment's structural stability better. In addition, this embodiment can be directly with the support piece that is provided with the connecting piece from the inboard of camera apron insert and run through logical groove for support piece's installation is more convenient.

In one possible design, the electronic device further includes: install installed part on the casing, the camera apron is installed on the surface of installed part, be provided with first through-hole on the installed part, support piece runs through first through-hole, the connecting piece with the internal surface looks butt of installed part.

This embodiment is more convenient for install the camera apron through the installed part, and in addition, the internal surface butt of connecting piece and installed part for the connecting piece not with the direct butt of camera apron, can reduce the external force of direct action on the camera apron, reduced because of the butt of connecting piece and to the stress that the camera apron produced, make the camera apron difficult impaired, thereby make electronic equipment's structural stability better.

In a possible design, the supporting member is elastically and telescopically arranged in the through groove.

Specifically, a gap can exist between the supporting piece and the groove wall of the through groove, so that the supporting piece can reciprocate in the through groove to realize stretching, elastic pieces such as springs and elastic colloids can be arranged between the supporting piece and the groove wall of the through groove, two ends of each elastic piece are respectively connected with the groove wall of the through groove and the supporting piece, and the elastic stretching of the supporting piece in the through groove can be realized through the elastic pieces.

In this embodiment, because support piece can be flexible in logical inslot, the flexible setting of elastic component can play the cushioning effect when support piece is collided, thereby can alleviate the power that support piece received, also can alleviate support piece to rather violent effort of parts such as the casing that has the relation of connection with it, camera apron, functional element, like this, parts such as casing, camera apron, functional element that can reduce produce the phenomenon of stress concentration because of the violent effort of support piece, thereby reduced these parts and taken place phenomenons such as fracture, deformation, improved electronic equipment's reliability.

In a possible design, the connecting piece is bonded with the inner surface of the camera cover plate through a first elastic colloid.

The first elastic gel may be any one of a double-sided tape, a rubber, a resin type adhesive, and an oil type adhesive, but is not limited thereto.

The connecting piece and the camera cover plate can be connected more firmly through the first elastic colloid, so that the supporting piece can be installed on the camera cover plate more reliably. In addition, the first elastic colloid has elasticity, so that the elastic expansion of the supporting piece in the through groove can be simply and reliably realized.

In one possible design, the electronic device further includes:

the elastic limiting part is arranged on the inner side of the supporting part and used for elastically abutting against the supporting part when the supporting part extends into the inner side of the camera cover plate.

The elastic limiting member may be any one of a spring plate, a rubber spring, a coil spring, and a torsion bar spring, but is not limited thereto.

This embodiment can be when support piece stretches into camera apron inboard through setting up elasticity locating part, plays the elastic buffer effect to support piece. And the elasticity of elasticity locating part is great usually, can cushion the external force that support piece received better, makes electronic equipment's reliability better.

In one possible design, when the supporting member is in the initial state, a first gap exists between the elastic limiting member and the supporting member.

The supporting piece is in an initial state, namely the state that the supporting piece is not in contact with the supporting surface, and at the moment, the supporting piece does not extend into the inner side of the camera cover plate.

The width of the first gap may range from 0.1 mm to 0.3 mm, and specifically, the width of the first gap may be 0.1 mm, 0.15 mm, 0.2 mm, or 0.3 mm. The width of the first gap may also be other smaller dimensions, for example 0.35 mm or 0.05 mm. The specific width of the first gap is not limited.

In the embodiment, the first gap exists between the elastic limiting part and the supporting part in the initial state, and the first gap can compensate assembly and manufacturing errors, so that the assembly of the elastic limiting part and the supporting part is more convenient, and the problem that the elastic limiting part and the supporting part cannot be installed due to interference when the elastic limiting part and the supporting part are installed is effectively avoided. In addition, the first gap can also prevent the supporting piece and the elastic limiting piece from being coupled together to influence the elastic limiting piece to restore to the initial state, so that the elastic limiting piece can be prevented from being out of work or the elasticity of the elastic limiting piece is reduced, and the reliability of the electronic equipment is higher. The first gap can also enable the elastic limiting part to restore to the initial state in the process of elastic deformation, and the space for restoring to the initial state is large, so that the instantaneous elastic force of the elastic limiting part is also large, and the supporting part can restore to the initial state more quickly and easily.

In a possible design, an end of the elastic limiting member facing away from the supporting member is bonded to the functional element in the housing through a third elastic adhesive.

The material, type and coating process of the third elastic colloid can be the same as or different from those of the first elastic colloid, and the specific arrangement mode of the third elastic colloid can refer to the first elastic colloid.

The functional element may be any of electronic elements such as a main board, a processor, an imaging device, a microphone, a battery, and a speaker, or may be a mounting member such as an intermediate frame.

In this embodiment, the elastic limiting member can be conveniently and stably installed in the housing through the third elastic rubber body. When the elastic limiting part elastically deforms, the third elastic colloid can elastically deform, so that the elasticity of the elastic limiting part can be further increased by the third elastic colloid, and the buffering effect of the elastic limiting part is better. In addition, the third elastic colloid can enable the elastic limiting parts to elastically deform in multiple directions, so that the elastic limiting parts elastically deform in more flexible directions, and therefore when the supporting piece receives external forces in different directions, the elastic limiting parts have better buffering performance, and the electronic equipment is better protected.

In one possible design, the functional element is a motherboard.

Because electronic equipment's camera is installed on the mainboard usually, so camera apron, elasticity locating part and mainboard have corresponding mounted position usually, and camera apron, elasticity locating part and mainboard superpose installation promptly, consequently, elasticity locating part bonds on the mainboard, can make the installation more convenient.

In one possible design, the surface of the supporting part facing the outer side of the camera cover plate is a convex cambered surface.

In this embodiment, the cambered surface of evagination can make the visual effect of support piece outward appearance better, and user's the comfort level of gripping is also better. In addition, the cambered surface can spread the force more divergently when receiving external force, reduces the phenomenon of stress concentration of the supporting piece and other parts connected with the supporting piece, and enables all parts of the electronic equipment to be less prone to damage, thereby enabling the structural stability of the electronic equipment to be better.

In one possible design, the electronic device further includes:

the camera cover plate comprises a groove-shaped mounting seat, the groove-shaped mounting seat penetrates through the through groove, the connecting piece is arranged on the periphery of one end, located on the inner side of the camera cover plate, of the groove-shaped mounting seat, and the supporting piece is mounted in the groove-shaped mounting seat.

The support piece is installed through the groove-shaped installation seat in the embodiment, the installation of the support piece can be more convenient, the groove-shaped installation seat can also play a role in protecting the support piece, and the connecting piece is installed on the groove-shaped installation seat, so that the structure of the support piece is simpler, and the processing and the manufacturing are easier.

In a possible design, the periphery of the inner bottom wall of the groove-shaped mounting seat is provided with a supporting part, the supporting part is supported on the supporting part, and the supporting part is bonded with the inner bottom wall of the groove-shaped mounting seat through a fourth glue body.

The support member can be conveniently installed in the groove-shaped installation seat through the fourth glue body. Because the supporting piece is bonded in the groove-shaped mounting seat through the colloid, the levelness of the installation of the supporting piece in the groove-shaped mounting seat is possibly lower, namely, the phenomenon that the supporting piece is inclined in the groove-shaped mounting seat is easier to occur.

In one possible design, a fourth through hole is provided on the bottom wall of the trough-shaped mounting seat for exhausting the gas between the bottom wall of the trough-shaped mounting seat and the support member.

The fourth colloid probably produces gas in the drying and solidification process, make the gas pressure between the inner bottom wall of support piece and flute profile mount pad great, support piece receives external force and when extrudeing the flute profile mount pad, the fourth colloid probably is extruded and takes place to warp, make to produce compressed gas between the inner bottom wall of support piece and flute profile mount pad, also can lead to the gas pressure between support piece and the inner bottom wall of flute profile mount pad great, through setting up the fourth through-hole, can reduce the atmospheric pressure between the inner bottom wall of support piece and flute profile mount pad, make the connection stability of support piece and flute profile installed part better, thereby make electronic equipment's structural stability better.

In addition, a fourth colloid can be formed by pouring glue between the inner bottom wall of the groove-shaped mounting seat and the supporting piece through the fourth through hole, so that the glue applying mode of the fourth colloid is more flexible.

In one possible design, the electronic device further includes:

the camera cover plate covers the cameras, and the supporting piece is located on one side of the cameras.

In this embodiment, the support member is located on one side of the plurality of cameras, so the distance between the support member and each camera is far away, the influence of the setting of the support member on the installation of the cameras is small, the interference between the support member and the cameras is not easy to occur, and the setting of the support member is also more convenient.

In one possible design, the electronic device further includes: the camera cover plate covers the cameras, the cameras are arranged on the cameras in a surrounding mode and are arranged on the periphery of the supporting piece, and the distance between the supporting piece and each camera is equal. The mode can better prevent the camera cover plate from generating an eccentric phenomenon under the acting force of the supporting piece, and the shooting effect is more effectively ensured.

In a possible design, the supporting piece is positioned on the symmetrical center plane of the plurality of cameras, so that the camera cover plate can be better prevented from being eccentric under the acting force of the supporting piece, and the shooting effect is more effectively ensured.

In a possible design, the connecting piece is hermetically bonded with the inner surface of the camera cover plate through the first elastic colloid.

This embodiment is sealed with connecting piece and camera apron and is bonded, can make the leakproofness between connecting piece and the camera apron better, can prevent effectively that external dust from getting into in the casing and influencing the work of each part of electronic equipment from the clearance between connecting piece and the camera apron to make electronic equipment's reliability higher.

Drawings

Fig. 1 is a state structure diagram of an electronic device according to an embodiment of the present application.

Fig. 2 is a right side view of the electronic device shown in fig. 1.

Fig. 3 is a partially enlarged view of a portion a of the right side view shown in fig. 2.

Fig. 4 is a cross-sectional view from the perspective of B-B of the electronic device shown in fig. 1.

Fig. 5 is a partial enlarged view of the sectional view shown in fig. 4 at the portion D.

Fig. 6 is a partially enlarged view of a portion E of the sectional view shown in fig. 5.

Fig. 7 is a state diagram of the enlarged view of fig. 6 when the supporting member is elastically abutted against the elastic limiting member.

Fig. 8 is another state diagram of the enlarged view of fig. 6 when the supporting member is elastically abutted against the elastic limiting member.

Fig. 9 is a sectional view of a structure assembled by a support member, a slot-shaped mount, and a connecting member of the electronic apparatus shown in fig. 1.

Fig. 10 is a partial cross-sectional view of another example of an electronic device according to an embodiment of the present application.

Fig. 11 is a partial cross-sectional view of still another example of an electronic device according to an embodiment of the present application.

Fig. 12 is a partial cross-sectional view of another example of an electronic device according to an embodiment of the present application.

Reference numerals:

100. an electronic device;

200. a housing; 210. a rear cover; 220. a frame;

300. a camera cover plate; 310. a light-transmitting region;

410. a connecting member; 420. a groove-shaped mounting seat; 422. a fourth via hole; 423. a support portion; 430. a support member; 460. a fourth colloid;

510. a first elastic gel; 530. a third elastic colloid; 540. a fifth colloid;

600. an elastic limiting part; 610. a first gap;

710. a rear camera; 720. a flash lamp; 730. a front camera;

810. a main board; 820. a battery; 830. a speaker; 840. a volume key; 850. a screen turning key; 860. a display module; 870. a display screen cover plate;

910. a middle frame; 920. and (4) a mounting piece.

Detailed Description

The technical solution in the present application will be described below with reference to the accompanying drawings. It is to be understood that the embodiments described are only a few embodiments of the present application and not all embodiments.

In the description of the present application, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; may be mechanically connected, may be electrically connected or may be in communication with each other; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as appropriate.

In the description of the present application, it is to be understood that the terms "upper", "lower", "side", "inner", "outer", "top", "bottom", and the like, indicate orientations or positional relationships based on installation, are only used for convenience in describing the present application and simplifying the description, and do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present application.

It should be noted that the same reference numerals are used to denote the same components or parts in the embodiments of the present application, and for the same parts in the embodiments of the present application, only one of the parts or parts may be given the reference numeral, and it should be understood that the reference numerals are also applicable to the other same parts or parts.

In the following, the terms "first", "second", etc. are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first," "second," etc. may explicitly or implicitly include one or more of that feature.

In the description of the present application, it should be noted that the term "and/or" is only one kind of association relationship describing an associated object, and means that three relationships may exist, for example, a and/or B may mean: a exists alone, A and B exist simultaneously, and B exists alone.

It should be noted that the same reference numerals are used to denote the same components or parts in the embodiments of the present application, and for the same parts in the embodiments of the present application, only one of the parts or parts may be given the reference numeral, and it should be understood that the reference numerals are also applicable to the other same parts or parts.

A photographing function has been an indispensable function for electronic devices (e.g., mobile phones, tablets, etc.). The front side of a camera of an electronic device is generally provided with a camera cover plate, the camera cover plate is installed on a shell, and the camera cover plate can protect the camera.

In the related art, in order to prevent the camera cover plate from scratching in the using process and affecting the shooting effect, the outer surface of the shell is usually provided with a groove-shaped mounting part in an outward protruding mode, the camera cover plate is installed in the groove-shaped mounting part, and the groove wall of the groove-shaped mounting part is higher than the outer surface of the camera cover plate, so that the camera cover plate is not easy to contact with supporting surfaces such as a desktop and the ground and scratch.

However, when the groove wall of the groove-shaped mounting element is higher than the outer surface of the camera cover plate, the part of the groove-shaped mounting element higher than the outer surface of the camera cover plate can form an annular frame which protrudes out of the outer surface of the camera cover plate and surrounds the periphery of the camera cover plate by a circle, and the annular frame can cause great influence on the appearance of the electronic device, so that the visual experience of a user is poor.

Along with the user is higher and higher to the requirement of electronic equipment outward appearance, can use the 2.5D apron as the camera apron, wherein, the 2.5D apron passes through the cambered surface transition of evagination from the edge to the center, and the center protrusion in the edge of 2.5D apron can make the visual effect of camera apron better, can also improve user's sense of touch and experience.

Because the outer surface of 2.5D glass is protruded from the edge, in order to make the appearance effect of the electronic device better, the groove wall of the groove-shaped installation part is lower than the outer surface of the 2.5D cover plate, so that the outer surface of the 2.5D cover plate is contacted with the supporting surface and is easily scratched, thereby affecting the shooting effect.

In order to solve the above problem, an embodiment of the application provides an electronic device, which can improve visual experience of a user and can well prevent a camera cover plate from being scratched.

The electronic device may be a device having a camera, such as a mobile phone, a tablet computer, a notebook computer, an ultra-mobile personal computer (UMPC), a handheld computer, an intercom, a netbook, a point of sale (POS) machine, a Personal Digital Assistant (PDA), a driving recorder, and a security device, but is not limited thereto. In the embodiments of the present application, a mobile phone is taken as an example for description.

Fig. 1 is a schematic overall structure diagram of an electronic device according to an embodiment of the present application, a left side diagram in fig. 1 is a structural diagram of a front view of the electronic device, and a right side diagram in fig. 1 is a structural diagram of a back view of the electronic device. Fig. 2 is a right side view of the rear perspective structural view of the electronic apparatus shown in fig. 1. Fig. 3 is a partially enlarged view of a portion a of the right side view shown in fig. 2. Fig. 4 is a cross-sectional view from the perspective of B-B of the electronic device shown in fig. 1.

As shown in fig. 1 to 4, in the embodiment of the present application, an electronic device 100 is a mobile phone, and the electronic device 100 includes: the display screen is installed on the casing 200 and comprises a display module 860 and a display screen cover plate 870 covering the display module 860. The electronic device 100 further includes functional elements disposed inside the housing 200, the functional elements include electronic elements (only some of the electronic elements are shown in the figure) such as a main board 810, a processor, a camera, a microphone, a battery 820, and a speaker 830, and the functional elements may further include mounting components such as a middle frame 910, but are not limited thereto.

The housing 200 may be a metal housing 200, such as a metal housing 200 of magnesium alloy, stainless steel, or the like. In addition, the housing 200 may be a plastic housing 200, a glass housing 200, a ceramic housing 200, or the like, but is not limited thereto. The housing 200 may include a bezel 220 and a rear cover 210. The material of the frame 220 and the material of the back cover 210 may be the same or different. For example, the rear cover 210 may be made of glass, and the frame 220 may be made of metal; for another example, the rear cover 210 may be made of plastic, and the frame 220 may be made of ceramic; for another example, the frame 220 and the rear cover 210 may be made of metal, ceramic, or glass. The material of the frame 220 and the rear cover 210 is not limited.

The middle frame 910 may be connected to the housing 200 by an integral molding process, for example, by at least one integral molding process of injection molding, compression molding, extrusion molding, forging, die casting, and Computer Numerical Control (CNC) machining; the middle frame 910 may also be connected to the housing 200 by bonding, clamping, or screwing, which is not limited in this application. A first receiving space may be formed among the middle frame 910, the rear cover 210, and the bezel 220, at least a portion of the electronic components may be disposed in the first receiving space, a second receiving space may be formed among the middle frame 910, the display screen, and the bezel 220, and a portion of the electronic components may be disposed in the second receiving space.

The frame 220 may be provided with a volume key 840, a screen-turning key 850, and other functional keys, which may be electrically connected to the processor.

The display screen may be a Light Emitting Diode (LED) display screen, a Liquid Crystal Display (LCD) display screen, an Organic Light Emitting Diode (OLED) display screen, or a touch-sensitive liquid crystal display (TP-LCD) display screen, but is not limited thereto. Furthermore, the display screen may also be a folding screen (flexible screen).

The photographing device may include a front camera 730 and a rear camera 710. In order to enhance the photographing effect, the photographing device may further include a flash 720.

The partial area of the front camera 730 passes through the display module 860, the front camera 730 faces the display screen cover plate 870, the display screen cover plate 870 covers the front camera 730, the front camera 730 shoots through the display screen cover plate 870, and the display screen cover plate 870 can protect the front camera 730. For the front camera 730, the display cover 870 may serve as the camera cover 300.

The rear camera 710 faces the rear cover 210 of the housing 200, a through hole for the flash lamp 720 and the rear camera 710 to transmit light is formed in the rear cover 210, a camera cover plate 300 is arranged on the front side of the rear camera 710, the camera cover plate 300 is mounted on the rear cover 210 of the housing 200, the rear camera 710 shoots through the camera cover plate 300, and the camera cover plate 300 can protect the rear camera 710. In the embodiment of the present application, the camera cover plate 300 may be used to cover the front camera 730 and may also be used to cover the rear camera 710.

In the embodiment of the present application, the positions where the front camera 730 and the rear camera 710 are disposed are not limited to the above description. In some embodiments, the number of the front camera 730 and the rear camera 710 may be one or more.

The front camera 730 and the rear camera 710 may include: lenses, filters, supports, light sensing elements, flexible plates, and connectors (the specific structure of the front camera 730 and the rear camera 710 is not shown in the figure).

The camera lens links to each other with the one end of support, and the other end of support is fixed on the one end of flexbile plate, and the connector is fixed on the other end of flexbile plate, and the connector links to each other flexbile plate and mainboard 810 electrical property. The lens can be arranged on the bracket through welding, clamping, bonding, threaded connection or other connection modes. The bracket and the flexible plate are fixedly connected through bonding, clamping or welding. The material of the bracket can be plastic or metal material.

The optical filter can be located between camera lens and the support, for example the optical filter can be installed in the fretwork region of support, and photosensitive element establishes on the one end of flexible sheet, and the electrical connection between photosensitive element and the flexible sheet, support enclose to establish in photosensitive element's outward flange. The optical filter can be an infrared cut-off optical filter, and the optical filter can filter infrared light rays to prevent the infrared light rays from entering the lens to influence imaging.

The photosensitive element may be a Charge Coupled Device (CCD) or a complementary metal-oxide-semiconductor (CMOS) phototransistor. The connector is used for electrically connecting the flexible board and an image processing unit (ISP) on the main board 810, and the image processing unit is electrically connected with the digital processing unit.

Hereinafter, the camera cover 300 is used to cover the rear camera 710 for illustration, and the camera can be understood as the rear camera 710 hereinafter.

The camera cover 300 is provided with a supporting member 430, and the supporting member 430 protrudes from the outer surface of the camera cover 300.

The camera cover 300 may be bonded to the outside of the rear cover 210 of the case 200. For example, the camera cover 300 may be directly adhered to the outer surface of the back swing of the case 200. The region of the camera cover 300 opposite to the camera and the flash 720 is a transparent region so that the camera and the flash 720 transmit light through the light-transmitting region 310. The region of the camera cover 300 other than the region opposite to the camera and the flash 720 may be a non-light-transmitting region so that light is not easily scattered during light transmission.

Fig. 5 is a partial enlarged view of the sectional view shown in fig. 4 at the portion D. Alternatively, as shown in fig. 4 and 5, a second through hole may be provided on the rear cover 210 of the housing 200, and the camera and the flash 720 may transmit light through the second through hole. The mounting part 920 can be installed on the rear cover 210 of the housing 200, the mounting part 920 is installed on the second through hole, the camera cover plate 300 can be installed on the outer surface of the mounting part 920, the camera cover plate 300 can be installed more conveniently through the mounting part 920, and therefore the electronic device 100 is more convenient to assemble and reasonable in structure.

In the embodiment of the present application, the mounting member 920 may also be referred to as a decoration member.

The mounting member 920 may have a plate-like structure, a block-like structure, a frame structure, or any other structure to which the camera cover 300 can be mounted. The camera cover 300 may be adhered to the outer surface of the mounting member 920 by a fifth glue 540. At least one third through hole may be formed in the mounting member 920, and the camera and the flash 720 may transmit light through each third through hole.

The mounting member 920 may be provided at an outer surface thereof with a ring structure forming a groove structure with the outer surface of the mounting member 920, and an edge of the camera cover 300 may be provided in the groove structure to make the camera cover 300 more securely mounted on the mounting member 920.

In order to facilitate the camera to shoot through the camera cover plate 300, the fifth colloid 540 may be Optical Clear Adhesive (OCA), which is a double-sided adhesive tape without a base material, and has the characteristics of being colorless and transparent, high in light transmittance (total light transmittance > 99%), high in adhesive force, high-temperature resistant, ultraviolet resistant, and the like, and has a controlled thickness, and can provide a uniform distance, and the problems of yellowing, peeling and deterioration cannot occur after long-term use.

The material of the camera cover plate 300 may be any one of glass, organic glass, sapphire, plastic, and optical ceramic.

The camera cover 300 may be any one of a 2.5D cover, a 3D cover, and a planar cover. Wherein, above-mentioned 2.5D apron passes through the cambered surface transition of evagination from the plane at edge to center, and the plane protrusion in the edge at 2.5D apron center, 2.5D apron can make camera apron 300's visual effect better, can also improve user's sense of touch and experience. The whole surface of above-mentioned 3D apron is the cambered surface of evagination, can make camera apron 300's visual effect better, and user's sense of touch experience is also good. The whole surface of the plane cover plate is a plane, and the plane cover plate is simple and convenient to process and assemble.

The supporting member 430 may be any one of a spherical structure, a block structure, a plate structure, a frame structure, a bracket structure, a rod structure, and a racetrack structure (the cross section of the racetrack structure is a pattern in which two tangential semi-circles are respectively provided at two ends of a rectangle), and the supporting member 430 may be a combined structure of the above structures, for example, the supporting member 430 may be a structure formed by combining the block structure and the spherical structure, or the supporting member 430 may be a structure formed by combining the rod structure and the block structure. The supporting member 430 may be any regular or irregular structure, and the supporting member 430 has a supporting function, and the specific structure is not limited.

Fig. 6 is a partially enlarged view of a portion E of the sectional view shown in fig. 5. Fig. 7 is a state diagram of the enlarged view of fig. 6 when the supporting member 430 is elastically abutted against the elastic limiting member 600. Fig. 8 is another state diagram of the enlarged view of fig. 6 when the supporting member 430 is elastically abutted against the elastic limiting member 600. Fig. 9 is a sectional view of a structure in which the support member 430, the slot-shaped mount 420, and the connection member 410 of the electronic apparatus 100 shown in fig. 1 are assembled.

In one embodiment, as shown in fig. 2 to 9, in order to improve the appearance of the electronic device 100, the surface of the supporting member 430 facing the outer side of the camera cover 300 may be a convex arc surface. The convex arc surface can make the appearance contour of the supporting member 430 softer and more beautiful, thereby making the visual effect of the electronic better and the holding comfort of the user better. In addition, the convex arc surface can spread the force more divergently when being subjected to an external force, so that the phenomenon of stress concentration of the supporting member 430 and other parts connected with the supporting member 430 is reduced, and each part of the electronic device 100 is less prone to damage, so that the structural stability of the electronic device 100 is better.

The material of the supporting member 430 may be any one or a combination of glass, ceramic, crystal, sapphire, metal and plastic. For example, the material of the supporting member 430 may be cermet. The ceramic material has the advantages of high hardness, good wear resistance and scratch resistance, low cost, and good appearance, so in one embodiment, the support member 430 may be made of ceramic. The material of the supporting member 430 may also be any other material having a supporting effect, and the application is not particularly limited.

The outer surface of the camera cover 300, i.e., the surface of the camera cover 300 facing the outside of the housing 200, i.e., the surface of the camera cover 300 facing the outside of the electronic device 100, i.e., the surface of the camera cover 300 facing away from the covered camera.

In a specific implementation manner, the supporting member 430 may be connected to the outer surface of the camera cover plate 300, for example, the supporting member 430 may be adhered to the outer surface of the camera cover plate 300 by glue, the supporting member 430 may also be connected to the outer surface of the camera cover plate 300 by clamping, riveting, screwing, pin-jointing, and the like, and the supporting member 430 may also be mounted on the outer surface of the camera cover plate 300 by a mounting structure such as a mounting seat or a mounting rack. The manner of coupling the support 430 to the outer surface of the camera cover 300 is not limited.

In another specific implementation manner, a through hole may be formed in the camera cover plate 300, and one end of the supporting member 430 may be connected in the housing 200, and the other end of the supporting member passes through the through hole in the camera cover plate 300 and extends to the outside of the outer surface of the camera cover plate 300. One end of the supporting member 430 is connected to the inside of the casing 200, and one end of the supporting member 430 may be connected to the inner wall of the casing 200, or one end of the supporting member 430 may be connected to functional elements such as the middle frame 910, the main board 810, and the battery 820 in the casing 200. The other end of the supporting member 430 passes through a through hole of the camera cover plate 300, and specifically, may pass through the rear cover 210 of the housing 200 and then pass through a through hole of the camera cover plate 300.

In the above embodiment, the end of the supporting member 430 located inside the camera cover 300 is connected to the housing 200 or a functional element in the housing 200, so that the supporting member 430 can be easily, conveniently and reliably mounted on the camera cover 300.

As shown in fig. 3 to 5, since at least a partial region of the outer surface of the 2.5D cover plate or the 3D cover plate is a convex arc surface, rather than being entirely planar, the heights of the respective points in the outer surface of the 2.5D cover plate or the 3D cover plate are not completely equal. In one embodiment, the supporting member 430 protrudes from the outer surface of the camera cover 300, and may be the highest point of the supporting member 430 protruding from the outer surface of the camera cover 300.

The highest point of the outer surface of the camera cover 300, that is, the point of the outer surface of the camera cover 300 where the height difference from the edge is the largest, that is, the most protruded point of the outer surface of the camera cover 300. The highest point of the outer surface of the camera cover 300 may include a plurality of points or may include one point. For example, each point on the plane at the center of the 2.5D cover plate is the highest point of the outer surface of the camera cover plate 300, the most protruded point at the center of the 3D cover plate is the highest point of the outer surface of the camera cover plate 300, and each point on the outer surface of the plane cover plate is the highest point of the outer surface of the camera cover plate 300.

In this embodiment, the supporting member 430 protrudes from the highest point of the outer surface of the camera cover plate 300, so that the supporting member 430 can support the entire outer surface of the camera cover plate 300, and can prevent any point in the outer surface of the camera cover plate 300 from contacting with a supporting surface, thereby better protecting the entire outer surface of the camera cover plate 300.

The electronic device 100 provided by the embodiment of the application is provided with the supporting member 430 on the camera cover plate 300, and the supporting member 430 protrudes from the outer surface of the camera cover plate 300, so that when the electronic device 100 is placed on a supporting surface such as a desktop or the ground, the supporting member 430 can support the camera cover plate 300, so that the outer surface of the camera cover plate 300 cannot contact with the supporting surface, thereby preventing the camera cover plate 300 from being scratched by the supporting surface, and ensuring the shooting effect of the electronic device 100.

The embodiment of the application does not need to surround the annular frame 220 protruding out of the outer surface of the camera cover plate 300 around the circle at the periphery of the camera cover plate 300, but only sets the supporting piece 430 protruding out of the outer surface of the camera cover plate 300 on the camera cover plate 300, the supporting piece 430 only needs a small volume to well protect the camera cover plate 300, the influence of the supporting piece 430 on the appearance of the electronic equipment 100 is very small, and therefore the visual experience of a user using the electronic equipment 100 is improved.

In addition, when the periphery of the camera cover plate 300 is provided with a circle of annular frame 220 protruding the outer surface of the camera cover plate 300, the protruding circle of annular frame 220 may cause great influence on the comfort when the user holds the electronic device 100, so that the holding experience of the user is greatly influenced. According to the embodiment of the application, the supporting piece 430 is arranged on the camera cover plate 300, so that the supporting piece 430 can be arranged very little, the comfortable feeling influence on the user when the user holds the electronic device 100 is small, and the holding experience of the user is improved.

When the camera cover 300 is a 2.5D cover or a 3D cover, the outer surface of which is higher than the edge of the cover, the supporting member 430 protruding out of the outer surface of the camera cover 300 is disposed on the camera cover 300, so that the outer surface of the 2.5D cover can be well prevented from contacting with the supporting surface, thereby well preventing the outer surface of the camera cover 300 from being scratched by the supporting surface, ensuring the shooting effect of the electronic device 100, and ensuring the overall appearance effect of the electronic device 100.

The supporting member 430 protruding from the outer surface of the camera cover 300 is disposed on the camera cover 300, and when the electronic device 100 falls, the supporting member 430 can contact with the supporting surface to support the camera cover 300, so that the phenomenon that the camera cover 300 is cracked due to the falling of the electronic device 100 can be reduced.

Because support piece 430 sets up on camera apron 300 for camera apron 300 is difficult to contact with the holding surface, thereby has reduced camera apron 300 and has received the possibility of slant power, and wherein, the slant power is the external force parallel with the surface of camera apron 300 promptly, and like this, camera apron 300 is difficult to take place off-centre, has further guaranteed the shooting effect.

In an alternative embodiment, the outer surface of the camera cover 300 may be provided with a groove, and the supporter 430 may be mounted in the groove.

The cross section of the groove can be in a regular pattern such as a circle, a square, a runway shape, a strip shape and the like, and the cross section of the groove can also be in an irregular pattern. In the embodiment of the present application, the cross-sectional shape of the groove may be adapted to the cross-sectional shape of the supporting member 430, so that the supporting member 430 can be installed in the groove, the installation structure has higher stability, the electronic device 100 is assembled more compactly, and the structure is more reasonable.

For example, when the support 430 has a cubic structure and the cross-sectional shape of the support 430 is rectangular, the cross-sectional shape of the groove is rectangular; when the supporting member 430 has a cylindrical structure and the cross-sectional shape of the supporting member 430 is circular, the cross-sectional shape of the groove is circular. In the embodiment of the present application, the supporting member 430 may be mounted in the groove, and the specific shape is not limited.

The recess may be an open groove, which may also be referred to as a blind hole. The supporting member 430 may be installed in the groove in an interference fit manner, and the supporting member 430 may also be bonded in the groove, or the supporting member 430 may be snapped in the groove, and the installation manner of the supporting member 430 in the groove is not limited thereto.

For example, the supporting member 430 may be adhered by glue disposed between the supporting member 430 and the bottom wall of the groove, which may simply and stably achieve the installation of the supporting member 430 in the groove; for another example, a clamping structure such as a claw or a buckle may be disposed on the peripheral wall of the groove, and the support 430 is installed in the groove through the clamping structure.

In this embodiment, the supporting member 430 is installed in the groove on the outer surface of the camera cover 300, so that the supporting member 430 is more conveniently installed, and the supporting member 430 can be installed more stably, thereby improving the stability of the overall structure of the electronic device 100.

In one implementation, as shown in fig. 5 to 8, the groove may be a through groove, the support 430 may penetrate through the through groove, one end of the support 430 located inside the camera cover 300 is provided with a connecting member 410, the connecting member 410 extends to the orthographic projection outside of the through groove, and the connecting member 410 abuts against the inner surface of the camera cover 300.

The groove is a through groove, that is, the groove penetrates through the camera cover 300 to form a through hole, that is, the through groove is a through hole in the camera cover 300.

The inner side of the camera cover 300, that is, the side toward which the inner surface of the camera cover 300 faces, the inner surface of the camera cover 300 faces the inner cavity of the housing 200, the inner surface of the camera cover 300 is opposite to the outer surface of the camera cover 300, the outer surface of the camera cover 300 has been explained above, and details are not repeated here.

The connecting member 410 may be any member capable of performing a connecting function, such as a plate-shaped structure, a block-shaped structure, a rod-shaped structure, a disk-shaped structure, a frame structure, but is not limited thereto.

One end of the support 430, which is located at the inner side of the camera cover plate 300, may be provided with a ring of connectors 410 extending to the outer side of the orthographic projection of the through slots around the periphery of the support 430, in this case, the connectors 410 may form an annular structure, and the connectors 410 may abut on the inner surface of the camera cover plate 300 around a ring, so that the abutting stability is better, and the support 430 is more reliably mounted on the camera cover plate 300.

The end of the supporting member 430 located inside the camera cover 300 may also be provided with the connecting member 410 at a partial position of the outer periphery of the supporting member 430, that is, the connecting member 410 does not form a circle around the outer periphery of the supporting member 430, and this way, the connecting member 410 can also abut on the camera cover 300. The present application does not limit the specific arrangement of the connection member 410.

The connecting member 410 may be connected to the supporting member 430 by welding, clipping, bonding, or screwing.

Fig. 10 is a partial cross-sectional view of another example of the electronic device 100 according to the embodiment of the present application. As shown in fig. 10, the connecting member 410 and the supporting member 430 may also be formed as a unitary structure through an integral molding process, for example, the connecting member 410 and the supporting member 430 may be formed as a unitary structure through at least one of injection molding, compression molding, extrusion molding, forging, die casting, and CNC machining.

The connection member 410 extends outward of the orthographic projection of the through-groove, that is, the connection member 410 extends outward of the orthographic projection of the through-groove on the connection member 410, that is, the orthographic projection of the connection member 410 on the camera cover plate 300 extends toward the outer periphery of the through-groove, so that the connection member 410 has a portion overlapping the inner surface of the camera cover plate 300.

The connecting member 410 abuts on the inner surface of the camera cover 300, and specifically, a portion of the connecting member 410 overlapping the camera cover 300 abuts on the inner surface of the camera cover 300.

In one particular implementation, the connector 410 may abut an inner surface of the camera cover plate 300. In this embodiment, the mounting member 920 may be provided with a first through hole, the first through hole is opposite to the through groove, an orthographic projection of the first through hole may surround the periphery of the through groove (that is, the orthographic projection of the through groove is located in the first through hole), and the connecting member 410 may be located in the first through hole.

In this embodiment, the connecting member 410 abuts against the inner surface of the camera cover plate 300, so that the supporting member 430 can be prevented from falling out of the through groove, and the supporting member 430 can be more stably installed in the through groove, thereby improving the structural stability of the electronic device 100. In addition, the present embodiment may directly insert the support 430 provided with the connection member 410 from the inner side of the camera cover plate 300 and penetrate the through groove, so that the installation of the support 430 is more convenient.

The probability that the mounting part 920 is damaged can be reduced through the supporting part 430, so that the maintenance frequency of the mounting part 920 is reduced, and the cost is saved.

In one implementation, the supporting member 430 is elastically and telescopically disposed in the through groove.

Specifically, a gap may exist between the supporting member 430 and the groove wall of the through groove, so that the supporting member 430 may reciprocate in the through groove to achieve expansion, an elastic member such as a spring, an elastic gel, etc. may be disposed between the supporting member 430 and the groove wall of the through groove, two ends of the elastic member are respectively connected with the groove wall of the through groove and the supporting member 430, and the elastic expansion of the supporting member 430 in the through groove is achieved through the elastic member.

In this embodiment, since the supporting member 430 can elastically extend and retract in the through groove, the elastic extension and retraction of the elastic member can play a role in buffering when the supporting member 430 is collided, so as to relieve the force applied to the supporting member 430, and also relieve the violent acting force of the supporting member 430 on the components such as the housing 200, the camera cover plate 300, and the functional element which are connected with the supporting member, in this way, the stress concentration phenomenon generated by the components such as the housing 200, the camera cover plate 300, and the functional element due to the violent acting force of the supporting member 430 can be reduced, thereby reducing the phenomena such as cracking and deformation of the components, and improving the reliability of the electronic device 100.

In an alternative embodiment, as shown in fig. 6 to 8 and 10, the connection member 410 and the inner surface of the camera cover plate 300 may be bonded by a first elastic gel 510.

The first elastic gel 510 in this embodiment has elasticity. The first elastic gel 510 may be any one or a combination of two-sided tape, rubber, resin-based glue, oil-based glue, and polyurethane elastic glue, but is not limited thereto. The first elastic gel 510 may be a hot melt adhesive, a thermosetting adhesive, or a quick-drying adhesive, or may be any other type of gel with specific elasticity. The first elastic gel 510 may be disposed between the connecting member 410 and the inner surface of the camera cover plate 300 through a dispensing or back-gluing process.

The embodiment can enable the connecting member 410 and the camera cover plate 300 to be more stably connected through the first elastic gel 510, so that the supporting member 430 can be more reliably mounted on the camera cover plate 300. In addition, since the first elastic gel 510 has elasticity, the first elastic gel 510 can simply and reliably realize the elastic expansion and contraction of the supporting member 430 in the through groove.

In one embodiment, the first connecting member 410 and the inner surface of the camera cover plate 300 can be hermetically bonded by the first elastic gel 510. Specifically, one end of the support 430, which is located on the inner side of the camera cover plate 300, may be provided with a connecting member 410 extending to the outer side of the orthographic projection of the through slot around the circumference of the support 430, and the first elastic rubber 510 may be provided around the circumference of the support 430, so that the first connecting member 410 and the camera cover plate 300 may be hermetically bonded.

In the embodiment, the connecting member 410 is hermetically bonded to the camera cover plate 300, so that the sealing property between the connecting member 410 and the camera cover plate 300 is better, and external dust can be effectively prevented from entering the housing 200 from a gap between the connecting member 410 and the camera cover plate 300 to affect the operation of each component of the electronic device 100, thereby improving the reliability of the electronic device 100.

Fig. 11 is a partial cross-sectional view of another example of the electronic apparatus 100 according to the embodiment of the present application. In an alternative embodiment, as shown in fig. 5 to 8, 10, and 11, the electronic device 100 may further include: the elastic limiting member 600 is disposed on the inner side of the supporting member 430, and the elastic limiting member 600 is used for elastically abutting against the supporting member 430 when the supporting member 430 extends into the inner side of the camera cover plate 300.

Fig. 7 and 8 show the state in which the elastic limiting member 600 and the supporting member 430 are elastically abutted, and in fig. 7 and 8, the elastic limiting member 600 and the supporting member 430 are indirectly abutted through the groove-shaped mounting seat 420. When the slot-shaped mounting seat 420 is not provided, as shown in fig. 10, the elastic limiting member 600 may directly and elastically abut against the supporting member 430 when the supporting member 430 extends inward toward the camera cover plate 300, and in fig. 10, the supporting member 430 is in an initial state, and the supporting member 430 does not abut against the elastic limiting member 600.

The elastic limiting member 600 may be any one of a spring plate, a rubber spring, a coil spring, and a torsion bar spring, but is not limited thereto. When the elastic limiting member 600 is a spring piece, the spring piece may be any one of a "Z" shape, a parallelogram shape, an "L" shape, a "U" shape, and a step shape, but is not limited thereto. As shown in fig. 5 to 8 and 10, the elastic limiting member 600 is a "Z" shaped spring plate, and the elastic limiting member 600 in fig. 11 is a coil spring.

The inner side of the support 430, i.e., the side of the support 430 facing the inner cavity of the housing 200, i.e., the side facing the inner surface of the support 430, is opposite to the surface of the support 430 facing the outer side of the camera cover 300. In this embodiment, the elastic limiting member 600 is located in the housing 200.

In the embodiment, by providing the elastic limiting member 600, when the supporting member 430 extends into the camera cover plate 300, the supporting member 430 can be elastically buffered and damped. The elasticity of the elastic limiting member 600 is generally larger, so that the external force received by the supporting member 430 can be better buffered, and the reliability of the electronic device 100 is better.

In a specific implementation manner, as shown in fig. 6 to 8, 10 and 11, when the supporting member 430 is in the initial state, a first gap 610 may exist between the elastic limiting member 600 and the supporting member 430.

The supporting member 430 is in an initial state, that is, a state in which the supporting member 430 is not in contact with the supporting surface, and at this time, the supporting member 430 does not protrude toward the inside of the camera cover 300.

The width of the first gap 610 may range from 0.1 mm to 0.3 mm, and specifically, the width of the first gap 610 may be 0.1 mm, 0.15 mm, 0.2 mm, or 0.3 mm. The width of the first gap 610 may also be other smaller dimensions, such as 0.35 mm or 0.05 mm. The specific width of the first gap 610 is not limited.

It is understood that the width of the first gap 610 should not be set too large to ensure that the supporting member 430 can abut against the elastic limiting member 600 when the supporting member 430 extends into the camera cover plate 300.

In the embodiment, since the first gap 610 exists between the elastic limiting member 600 and the supporting member 430 in the initial state, the first gap 610 can compensate for assembly and manufacturing errors, so that the assembly of the elastic limiting member 600 and the supporting member 430 is facilitated, and the problem that the elastic limiting member 600 and the supporting member 430 cannot be assembled due to interference during the assembly is effectively avoided. In addition, the first gap 610 may also prevent the supporting element 430 and the elastic limiting element 600 from being coupled together to affect the elastic limiting element 600 to return to the initial state, so as to prevent the elastic limiting element 600 from failing or becoming less elastic, and thus the reliability of the electronic device 100 is higher. The first gap 610 may also enable the elastic limiting member 600 to have a larger instantaneous elastic force due to a larger space for restoring the initial state in the process of restoring the initial state by elastic deformation, so that the supporting member 430 can be restored to the initial state more quickly and easily.

In one specific implementation manner, as shown in fig. 5 to 8, one end of the elastic limiting member 600 facing away from the supporting member 430 may be bonded to the functional element in the housing 200 through a third elastic adhesive 530.

The material, type and coating process of the third elastic colloid 530 may be the same as or different from those of the first elastic colloid 510, and the specific arrangement manner of the third elastic colloid 530 may refer to the first elastic colloid 510, which is not described herein again.

In this implementation manner, specifically, the outer surface of the elastic limiting member 600 facing away from the supporting member 430 is bonded to the functional element in the housing 200 through the third elastic adhesive 530.

The elastic limiting member 600 may be adhered to the middle frame 910, the main board 810, the display module 860, the battery 820, or the processor in the housing 200, but is not limited thereto. Since the camera of the electronic device 100 is usually mounted on the main board 810, the camera cover 300, the elastic limiting member 600 and the main board 810 usually have corresponding mounting positions, that is, the camera cover 300, the elastic limiting member 600 and the main board 810 are mounted in an overlapping manner, and therefore, the elastic limiting member 600 is bonded on the main board 810, which makes the mounting more convenient.

In this embodiment, the elastic limiting member 600 can be conveniently and stably installed in the housing 200 through the third elastic gel 530. When the elastic limiting member 600 elastically deforms, the third elastic colloid 530 can elastically deform, so that the elasticity of the elastic limiting member 600 can be further increased by the third elastic colloid 530, and the buffering effect of the elastic limiting member 600 is better. In addition, the third elastic colloid 530 may enable the elastic limiting member 600 to elastically deform in multiple directions, so that the elastic limiting member 600 is more flexible in the direction of elastic deformation, and thus when the supporting member 430 receives external forces in different directions, the elastic limiting member 600 has better buffering performance, and has better protection function for the electronic device 100.

In an alternative embodiment, as shown in fig. 6 to 9 and 11, the electronic device 100 may further include: and the groove-shaped mounting seat 420 penetrates through the through groove, the connecting piece 410 is arranged on the periphery of one end of the groove-shaped mounting seat 420, which is positioned on the inner side of the camera cover plate 300, and the supporting piece 430 is arranged in the groove-shaped mounting seat 420.

In this embodiment, the open end of the groove-shaped mount 420 faces the outside of the camera cover 300.

The connecting member 410 may be disposed on the groove-shaped mounting seat 420 by welding, clamping, bonding, or screwing, and the connecting member 410 may also be integrally formed with the groove-shaped mounting seat 420 by an integral forming process, for example, the connecting member 410 and the groove-shaped mounting seat 420 may be integrally formed by at least one of injection molding, compression molding, extrusion molding, forging, die casting, and CNC machining.

The supporting member 430 may be installed in the slot-shaped mounting seat 420 by interference fit, the supporting member 430 may also be bonded, clamped, pinned or riveted in the slot-shaped mounting seat 420, and the installation manner of the supporting member 430 in the slot-shaped mounting seat 420 is not limited.

The material of the groove-shaped mounting seat 420 can be any one or a combination of more of glass, ceramic, crystal, sapphire, metal and plastic. The metal has better strength and impact resistance, so the material of the groove-shaped mounting seat 420 can be metal.

In order to make the supporting member 430 have better wear resistance and better appearance, and to make the supporting member 430 be reliably mounted on the camera cover plate 300, the supporting member 430 may be made of ceramic or glass, the slot-shaped mounting seat 420 and the connecting member 410 may be made of metal, and the slot-shaped mounting seat 420 and the connecting member 410 are formed into an integral structure through an integral molding process.

In the embodiment, the supporting member 430 is mounted through the groove-shaped mounting seat 420, so that the supporting member 430 can be mounted more conveniently, the groove-shaped mounting seat 420 can also protect the supporting member 430, and the connecting member 410 is mounted on the groove-shaped mounting seat 420, so that the structure of the supporting member 430 is simpler, and the processing and the manufacturing are easier.

In addition, in this embodiment, the groove-shaped mounting seat 420, the connecting member 410, and the supporting member 430 may be assembled into a module and then mounted on the camera cover 300, which is very convenient for the assembly and disassembly.

In a specific implementation manner, as shown in fig. 9, a supporting portion 423 may be disposed on an inner bottom wall of the mounting socket 420 having a groove shape, the supporting member 430 is supported on the supporting portion 423, and the supporting member 430 is bonded to the inner bottom wall of the mounting socket 420 having the groove shape by a fourth glue 460.

For example, the support portion 423 may be provided at a middle position of the inner bottom wall of the groove-shaped mount 420.

For another example, as shown in fig. 9, the groove-shaped mounting seat 420 may be provided with a supporting portion 423 at a peripheral edge of an inner bottom wall thereof. Specifically, the supporting portion 423 may be a circular step arranged at the periphery of the inner bottom wall of the groove-shaped mounting seat 420, and the supporting portion 423 may also be a plurality of protrusions arranged at intervals along the periphery of the inner bottom wall of the groove-shaped mounting seat 420, and the protrusions may be a boss, a supporting block, a bracket, and the like, but is not limited thereto. The embodiment may more stably support the supporting member 430 and may leave more space for the arrangement of the fourth colloid 460.

In the present embodiment, the support part 423 may support the support 430, and the specific structure is not limited.

The fourth glue body 460 may be a hot melt glue, a thermosetting glue, or a quick-drying glue, and may also be any other type of glue body. The fourth colloid 460 may or may not have elasticity. The fourth glue body 460 may be disposed between the support 430 and the camera lens shaped mount 420 through a glue dispensing or a glue backing process.

The present embodiment can conveniently mount the supporting member 430 in the slot-shaped mounting seat 420 through the fourth glue 460. Since the support 430 is adhered to the groove-shaped mounting seat 420 by the adhesive, the levelness of the support 430 mounted in the groove-shaped mounting seat 420 may be low, that is, the support 430 may be inclined more easily in the groove-shaped mounting seat 420, and by supporting the support 430 on the supporting portion 423 at the periphery of the bottom wall in the groove-shaped mounting seat 420, the levelness of the support 430 mounted in the groove-shaped mounting seat 420 may be effectively ensured, the support 430 may not be inclined easily, and the yield of the electronic device 100 may be improved.

In an alternative embodiment, as shown in fig. 6 to 11, the bottom wall of the mounting seat 420 may be provided with a fourth through hole 422 for exhausting the gas between the bottom wall of the mounting seat 420 and the supporting member 430.

In the present embodiment, the fourth through hole 422 is specifically used to exhaust the gas between the bottom wall of the slot-shaped mount 420 and the support 430 to the outside of the slot-shaped mount 420.

The fourth colloid 460 may generate gas in the drying and solidifying process, so that the gas pressure between the support 430 and the inner bottom wall of the groove-shaped mounting seat 420 is relatively high, when the support 430 is pressed against the groove-shaped mounting seat 420 by an external force, the fourth colloid 460 may be pressed to deform, so that compressed gas is generated between the support 430 and the inner bottom wall of the groove-shaped mounting seat 420, and the gas pressure between the support 430 and the inner bottom wall of the groove-shaped mounting seat 420 is also relatively high, and by providing the fourth through hole 422, the gas pressure between the support 430 and the inner bottom wall of the groove-shaped mounting seat 420 can be reduced, so that the connection stability between the support 430 and the groove-shaped mounting seat 420 is better, and the structural stability of the electronic device 100 is better.

In addition, the fourth glue body 460 can be formed by pouring glue between the inner bottom wall of the slot-shaped mounting seat 420 and the supporting member 430 through the fourth through hole 422, so that the glue applying manner of the fourth glue body 460 is more flexible.

In one embodiment, the electronic device 100 as shown in fig. 1 and 5 may include a plurality of cameras, and the camera cover 300 covers the plurality of cameras, and the support 430 is located at one side of the plurality of cameras.

In this embodiment, the supporting member 430 is located at one side of the plurality of cameras, so the supporting member 430 is far away from each camera, the influence of the arrangement of the supporting member 430 on the installation of the cameras is small, and the arrangement of the supporting member 430 is more convenient.

Specifically, the supporting member 430 may be located at a position close to an edge of the camera cover 300, so that the influence of the arrangement of the supporting member 430 on the installation of the camera is smaller, and the phenomenon of interference between the supporting member 430 and the camera is further reduced.

In another embodiment, a plurality of cameras may also be arranged around the outer circumference of the support 430, and the distance from the support 430 to each camera may be equal. This way can prevent the camera cover plate 300 from being eccentric under the action of the supporting member 430, and ensure the shooting effect more effectively.

In one embodiment, the support 430 may be located on a center plane of symmetry of the plurality of cameras. In this embodiment, the supporting member 430 is located on the central axis of the arrangement of the plurality of cameras.

The above-mentioned symmetry center plane is: a plane passing through the center lines of symmetry of the plurality of cameras and perpendicular to the outer surface of the camera cover 300.

This embodiment can better prevent the camera cover plate 300 from being eccentric under the acting force of the supporting member 430, and more effectively ensure the photographing effect.

Fig. 12 is a partial cross-sectional view of another example of the electronic device 100 according to the embodiment of the present application. As shown in fig. 12, the present embodiment is different from the above embodiments in that in the present embodiment, the supporting member 430 penetrates the first through hole of the mounting member 920, and the connecting member 410 abuts against the inner surface of the mounting member 920.

In this embodiment, the manner in which the connecting member 410 abuts against the mounting member 920 can refer to the manner in which the connecting member 410 abuts against the camera cover plate 300 in the above embodiments, and details are not described here.

This embodiment is more convenient for install camera apron 300 through installed part 920, in addition, the internal surface butt of connecting piece 410 and installed part 920 for connecting piece 410 does not with camera apron 300 direct butt, can reduce the external force of direct action on camera apron 300, has reduced the stress to camera apron 300 production because of the butt of connecting piece 410, makes camera apron 300 difficult impaired, thereby makes electronic equipment 100's structural stability better.

Alternatively, as shown in fig. 12, the connecting member 410 and the inner surface of the mounting member 920 may be bonded by the first elastic gel 510 to realize elastic expansion and contraction of the supporting member 430 with respect to the camera cover plate 300.

The above description is only for the specific embodiments of the present application, but the scope of the present application is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present application, and shall be covered by the scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims (20)

1. An electronic device, comprising: the camera comprises a shell (200) and a camera cover plate (300) installed on the shell (200), wherein a supporting piece (430) is arranged on the camera cover plate (300), and the supporting piece (430) protrudes out of the outer surface of the camera cover plate (300).

2. The electronic device of claim 1, wherein a recess is provided on an outer surface of the camera cover plate (300), the support member (430) being mounted in the recess.

3. The electronic device according to claim 2, wherein the groove is a through groove, the support member (430) penetrates through the through groove, a connecting member (410) is disposed at one end of the support member (430) located at the inner side of the camera cover plate (300), the connecting member (410) extends to the outer side of the orthographic projection of the through groove, and the connecting member (410) abuts against the inner surface of the camera cover plate (300).

4. The electronic device of claim 3, further comprising: install mounting part (920) on casing (200), camera apron (300) are installed on the surface of mounting part (920), be provided with first through-hole on mounting part (920), support piece (430) run through first through-hole, connecting piece (410) with the internal surface looks butt of mounting part (920).

5. The electronic device of claim 3, wherein the support member (430) is elastically and telescopically disposed in the through slot.

6. The electronic device of claim 5, wherein the connecting member (410) is bonded to the inner surface of the camera cover plate (300) by a first elastic gel (510).

7. The electronic device of claim 5 or 6, further comprising:

the elastic limiting part (600) is arranged on the inner side of the support part (430) and used for elastically abutting against the support part (430) when the support part (430) extends towards the inner side of the camera cover plate (300).

8. The electronic device according to claim 7, wherein a first gap (610) exists between the elastic stop (600) and the support member (430) when the support member (430) is in the initial state.

9. The electronic device according to claim 7, wherein an end of the elastic stopper (600) facing away from the support is bonded to the functional element in the housing (200) through a third elastic adhesive (530).

10. The electronic device of claim 9, wherein the functional element is a motherboard.

11. The electronic device according to any one of claims 1 to 10, wherein a surface of the support member (430) facing an outside of the camera cover (300) is a convex arc surface.

12. The electronic device of any of claims 3-10, further comprising:

the camera cover plate (300) comprises a groove-shaped mounting seat (420), the groove-shaped mounting seat (420) penetrates through the through groove, the connecting piece (410) is arranged on the periphery of one end, located on the inner side of the camera cover plate (300), of the groove-shaped mounting seat (420), and the supporting piece (430) is mounted in the groove-shaped mounting seat (420).

13. The electronic device according to claim 12, wherein a supporting portion (423) is disposed at a periphery of an inner bottom wall of the groove-shaped mounting seat (420), the supporting member (430) is supported on the supporting portion (423), and the supporting member (430) is bonded to the inner bottom wall of the groove-shaped mounting seat (420) through a fourth adhesive body (460).

14. The electronic device of claim 13, wherein a fourth through hole (422) is provided in the bottom wall of the slot-shaped mount (420) for exhausting gas between the bottom wall of the slot-shaped mount (420) and the support member (430).

15. The electronic device according to any of claims 1 to 14, wherein the material of the support member (430) is any one of glass, ceramic, crystal, sapphire and metal.

16. The electronic device according to any of claims 1 to 15, wherein the camera cover (300) is any of a 2.5D cover, a 3D cover, a planar cover.

17. The electronic device of any of claims 1-16, further comprising:

the camera cover plate (300) covers the cameras, and the supporting piece (430) is located on one side of the cameras.

18. The electronic device of claim 6, wherein the connecting member (410) is hermetically bonded to the inner surface of the camera cover plate (300) by the first elastic gel (510).

19. The electronic device according to claim 18, wherein the first elastic gel (510) is any one of a double-sided tape, a rubber, a resin-based tape, and an oil-based tape.

20. The electronic device according to any of claims 7 to 10, wherein the elastic limiting member (600) is any one of a leaf spring, a rubber spring, a coil spring, and a torsion bar spring.

Images