CN210120573U - Electronic device - Google Patents

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Publication number
CN210120573U
CN210120573U CN201920351910.2U CN201920351910U CN210120573U CN 210120573 U CN210120573 U CN 210120573U CN 201920351910 U CN201920351910 U CN 201920351910U CN 210120573 U CN210120573 U CN 210120573U
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China
Prior art keywords
electronic device
light
cover plate
frame
camera module
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Active
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CN201920351910.2U
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Chinese (zh)
Inventor
温权浩
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Guangdong Oppo Mobile Telecommunications Corp Ltd
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Guangdong Oppo Mobile Telecommunications Corp Ltd
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Priority to CN201920351910.2U priority Critical patent/CN210120573U/en
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Abstract

The application discloses electronic equipment, electronic equipment includes frame and periscope formula module of making a video recording, the frame inboard is equipped with accommodating space, the frame has relatively the evagination side of accommodating space evagination, the evagination side is equipped with the recess, the recess bottom is equipped with the light trap, periscope formula module of making a video recording is fixed in the accommodating space, periscope formula module part of making a video recording with the light trap is just right, with the warp the light trap acquires the shooting light. Through set up the light trap on the frame, the module of making a video recording of periscope formula acquires light through the light trap, has protected electronic equipment front or back outward appearance structural integrity, has optimized electronic equipment's structural device and has arranged, has improved electronic equipment's appearance quality.

Description

Electronic device
Technical Field
The present application relates to the field of communication devices, and more particularly, to an electronic device.
Background
At present, because the camera module of the mobile phone needs to be provided with holes on the back cover of the mobile phone, the back structure of the mobile phone is incomplete, and the appearance performance of the mobile phone is reduced.
SUMMERY OF THE UTILITY MODEL
The application provides an electronic device.
The application provides an electronic equipment, wherein, electronic equipment includes frame and periscope formula module of making a video recording, the frame inboard is equipped with accommodating space, the frame has relatively the evagination side of accommodating space evagination, the evagination side is equipped with the recess, the recess bottom is equipped with the light trap, the periscope formula module of making a video recording is fixed in the accommodating space, the periscope formula module part of making a video recording with the light trap is just right, with the warp the light trap acquires the shooting light.
The application provides an electronic equipment, through set up the light trap on the frame, the module of making a video recording of periscope formula acquires light through the light trap, has protected electronic equipment front or back outward appearance structural integrity, has optimized electronic equipment's structural device and has arranged, has improved electronic equipment's appearance performance.
Drawings
In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.
Fig. 1 is a schematic diagram of an electronic device provided by an embodiment of the present application;
FIG. 2 is a schematic partial cross-sectional view of an electronic device provided by an embodiment of the present application;
fig. 3 is an exploded schematic view of an electronic device provided in an embodiment of the present application;
FIG. 4 is a schematic partial side view of an electronic device provided by an embodiment of the present application;
FIG. 5 is a schematic, partial side view of an electronic device provided in accordance with another embodiment of the present application;
FIG. 6 is an exploded view of an electronic device according to another embodiment of the present application;
FIG. 7 is a partially schematic illustration of an electronic device provided in accordance with another embodiment of the present application;
FIG. 8 is an exploded view of an electronic device provided in accordance with another embodiment of the present application;
FIG. 9 is a partially schematic illustration of an electronic device provided in accordance with another embodiment of the present application;
FIG. 10 is a partially schematic illustration of an electronic device provided in accordance with another embodiment of the present application;
FIG. 11 is an exploded view of an electronic device according to another embodiment of the present application;
FIG. 12 is an exploded view of an electronic device provided in accordance with another embodiment of the present application;
FIG. 13 is a partially schematic illustration of an electronic device provided in accordance with another embodiment of the present application;
FIG. 14 is a partially schematic illustration of an electronic device provided in accordance with another embodiment of the present application;
FIG. 15 is a partially schematic illustration of an electronic device as provided in another embodiment of the present application;
FIG. 16 is a schematic view of an electronic device provided by another embodiment of the present application;
fig. 17 is a partial schematic view of an electronic device according to another embodiment of the present application.
Detailed Description
The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without inventive step, are within the scope of the present disclosure.
In the description of the embodiments of the present application, it should be understood that the terms "thickness" and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience in describing the present application and simplifying the description, and do not imply or indicate 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.
Referring to fig. 1 and fig. 2, an electronic apparatus 1000 is provided, where the electronic apparatus 1000 includes a frame 100 and a periscopic camera module 200. The frame 100 has an inner side defining an accommodating space 110, and the frame 100 has an outer convex side 120 protruding outward relative to the accommodating space 110. The convex side 120 is provided with a groove 130, and the bottom of the groove 130 is provided with a light hole 140. The periscopic camera module 200 is fixed in the accommodating space 110, and the periscopic camera module 200 is partially opposite to the light hole 140 so as to obtain the shooting light through the light hole 140. It is understood that the bezel 100 is disposed at an edge of the electronic device 1000. The inner side of the frame 100 is used for supporting and stabilizing functional devices such as a display screen, a battery cover, a motherboard, and the like, and the electronic device 1000 may be a mobile phone, a tablet computer, a notebook computer, or the like.
Through set up light trap 140 on frame 100, periscopic camera module 200 obtains light through light trap 140 for the non-marginal zone's of electronic equipment 1000 integrality obtains the protection, has optimized the structural component of electronic equipment 1000 and has arranged, has improved electronic equipment 1000's appearance quality.
In the present embodiment, the electronic apparatus 1000 includes a functional device housed in the housing space 110. It is understood that the functional device may be a display, a battery, a motherboard, a processor, a speaker, a receiver, a transmitter, an antenna, or other electronic devices. The bezel 100 protects the functional devices housed in the housing space 110. The bezel 100 comprises a first short side 150 and a second short side 160 arranged opposite to the first short side 150, and two long sides 170 connected between the first short side 150 and the second short side 160. The light hole 140 is disposed on the first short side 150. The first short side 150 may be at the top of the electronic device 1000. The electronic device 1000 may be provided with an earpiece, a light-sensitive device, an upper antenna, etc. near the first short side 150. The second short side 160 may be at the bottom of the electronic device 1000. The electronic device 1000 may be provided with a fingerprint module, a microphone, a power connector, etc. near the second short side 160. Two long sides 170 may be provided integrally with the first short side 150 and the second short side 160. The frame 100 may be made of metal. The light-transmitting holes 140 are oriented substantially perpendicular to the longitudinal direction of the bezel 100. Of course, in other embodiments, the frame 100 may be made of ceramic, plastic, or glass, and the first short side 150, the second short side 160, and the long side 140 may be provided separately.
In the present embodiment, the convex side surface 120 protrudes from the outer side of the frame 100 toward the direction away from the receiving space 110, so as to increase the structural strength of the frame 100, and weaken the narrowness of the frame 100 in visual effect, so that the frame 100 forms a narrow frame. The groove 130 is disposed on the convex side surface 120, and the light hole 140 is disposed at the bottom of the groove 130, so as to cover the light hole 140 conveniently, simplify the structure of the frame 100, and improve the appearance performance of the electronic device 1000. The periscopic camera module 200 obtains the shooting light through the light hole 140, and the periscopic camera module 200 can be partially stacked with the convex side surface 120, i.e. the periscopic camera module 200 is closer to the outer side of the frame 100. On the other hand, the periscopic camera module 200 may partially overlap the frame 100, so that the ratio of the periscopic camera module 200 in the accommodating space 110 may be reduced. On the other hand, the frame 100 provides a larger installation space for the periscopic camera module 200 to ensure that the periscopic camera module 200 has a portion opposite to the light hole 140 and obtains the shooting light. It is understood that the convex side surface 120 may be a circular arc curved surface, or may be formed by two inclined planes arranged at an included angle.
In this embodiment, the periscopic camera module 200 includes a module housing 210, a light guide 220 fixed in the module housing 210, a lens set 230 slidably connected in the module housing 210, and a photosensitive chip 240 fixed in the module housing 210. One end of the module case 210 is provided with a lighting hole 211 facing the light-transmitting hole 140. The light guide 220 is opposite to the lighting hole 211. The photosensitive chip 240 is located at the other end in the module housing 210. The lens assembly 230 is slidable between the light guide 220 and the photosensitive chip 240. The light collected by the light collecting hole 211 is transmitted to the photosensitive chip 240 through the light guide 220 and the lens assembly 230 in sequence. The light guide member 220 may emit light rays taken by the light collecting hole 211 to the lens group 230, and the lens group 230 may slidably adjust a focal length to implement photographing zooming. The length of the module housing 210 is substantially perpendicular to the first short side 150 to optimize the device layout on the top of the electronic apparatus 1000. The periscopic camera module 200 obtains through the light trap 140 and shoots the light to can realize zooming and shoot, electronic equipment 1000 only sets up the light trap 140 on frame 100, and can realize sheltering from periscopic camera module 200, improves electronic equipment 1000 appearance quality. Of course, in other embodiments, the longitudinal direction of the module housing 210 may be parallel to the first short side 150.
In the present embodiment, the frame 100 is provided with a receiving groove 121 extending toward the outwardly convex side surface 120, and the periscopic camera module 200 is partially received in the receiving groove 121. The accommodating groove 121 is formed in the inner wall of the first short edge 150, so that the usage space of the periscopic camera module 200 occupying the accommodating space 110 is reduced, more devices are arranged in the accommodating space 110 conveniently, the periscopic camera module 200 can be closer to the convex side surface 120 of the frame 100, the distance from the light hole 130 to the convex side surface 120 can be smaller, and the screen occupation ratio of the electronic device 1000 is increased. Of course, in other embodiments, a concave side surface parallel to the convex side surface 120 may be correspondingly formed on the inner wall of the first short side 150, so that a larger receiving space may be obtained inside the first short side 150.
In this embodiment, the electronic device 1000 includes a middle plate 180 fixed inside the bezel 100 and a main board 190 fixed to the middle plate 180. The middle plate 180 carries the periscopic camera module 200, and the main board 190 is electrically connected to the periscopic camera module 200. The middle plate 180 may be integrally provided with the bezel 100. The main board 190 is stacked on the middle board 180. The main plate 190 may be located on a side of the middle plate 180 that opens toward the receiving space 110. The main board 190 is provided with a notch 191, and the notch 191 is used for the periscopic camera module 200 to pass through so as to facilitate the periscopic camera module 200 to be fixed on the middle plate 180.
Further, referring to fig. 2 and fig. 3, the electronic device 1000 includes a glass cover 300 at least partially received in the groove 130, and the glass cover 300 is fixed to the frame 100 and covers the light hole 140.
In the present embodiment, the glass cover 300 may be a front cover of the electronic apparatus 1000, a rear cover of the electronic apparatus 1000, or only a lens cover of the periscopic imaging module 200. The glass cover plate 300 protects the periscopic camera module 200 to prevent dust from entering the light transmission hole 140, and guarantee the shooting performance of the periscopic camera module 200. The glass cover 300 can be glued to the bottom of the groove 130. At least a portion of the peripheral sidewall of the glass cover plate 300 is in sealing engagement with the inner sidewall of the groove 130.
Specifically, in one embodiment, the groove 130 communicates with the receiving space 110. The recess 130 extends through the inner wall of the first short side 150. The glass cover plate 300 also covers the receiving space 110. The glass cover plate 300 includes a lens light-transmitting portion 310 received in the recess 130 and covering the light-transmitting hole 140, and a cover plate body portion 320 covering the receiving space 110. The cover main body 320 protects the functional device fixed to the housing space 110. The inner sidewall of the frame 100 is provided with a bearing step 111, and the bearing step 111 can be attached to the inner surface of the cover plate main body portion 320, so as to stably bear the cover plate main body portion 320. The bottom surface of the groove 130 is attached to the lens light-transmitting portion 310. The lens light-transmitting portion 310 is flush with the cover main body portion 320. The bearing surface of the bearing step 111 is flush with the bottom surface of the groove 130, so that the glass cover plate 300 is stably fixed on the bezel 100, and the back or front structure of the electronic device 1000 is flat.
As one practical way, the glass cover plate 300 is a battery cover plate. The receiving space 110 has a rear opening 112. The glass cover plate 300 covers the back opening 112. The electronic device 1000 includes a battery 2100 fixed in the receiving space 110 and capable of abutting against the glass cover 300. The back side structural integrity of the electronic device 1000 is ensured by the glass cover plate 300 simultaneously covering the back side opening 112 and the light-transmissive holes 100.
The decoration layer 301 may be disposed on a side of the glass cover 300 facing the accommodating space 110, and a user may observe the decoration layer 301 through the glass cover 300, and the decoration layer 301 covers the battery 2100, the periscopic camera module 200, and other functional devices, so as to enhance the appearance performance of the back of the electronic device 1000. The decoration layer 301 faces the light hole 140 and a hollow area 302 can be formed therein, so that the periscopic camera module 200 can obtain the shooting light through the hollow area 302. Glass apron 300 can adopt the glass material of high strength, high rigidity, wear-resisting, resistant oil stain, resistant sweat stain to the realization is effectively protected periscopic camera module 200, and guarantees periscopic camera module 200's shooting performance.
In this embodiment, the inner sidewall of the frame 100 is attached to the glass cover 300 to protect the glass cover 300. The end surface of the bezel 100 is flush with the glass cover 300.
Specifically, referring to fig. 3 and 4, the frame 100 has an end surface 113 at the opening end of the accommodating space 110, and the end surface 113 is tangent to the outer convex side surface 120. The outer surface of the cover main body portion 320 is flush with the end surface 113. The end surface 113 is tangent to the convex side surface 120 to increase the smoothness of the appearance surface of the frame 100 and increase the hand feeling of the user. The outer surface of the cover main body 320 is flush with the end surface 113, so that the back structure of the electronic device 1000 is flat. The groove 130 extends from the outer convex side surface 120 to the accommodating space 110 through the end surface 113, so that the outer surface portion of the lens light-transmitting portion 310 is flush with the end surface 113. The end of the lens light-transmitting portion 310 away from the cover plate main body portion 320 exposes the groove 130, so that the lens light-transmitting portion 310 partially protrudes relative to the outer convex side surface 120. The lens light-transmitting portion 310 is flat on the outer surface, so that the lens light-transmitting portion 310 ensures the shooting performance of the periscopic camera module 200. The light-transmitting hole 140 may be entirely opposite to a portion of the lens light-transmitting portion 310 protruding from the outer convex side 120. The light transmission hole 140 may have a portion opposite to a portion of the lens light transmission portion 310 flush with the end surface 113 and another portion opposite to a portion of the lens light transmission portion 310 protruding from the outer convex side surface 120. Of course, in other embodiments, there may be a break between the outer surface of the cover body 320 and the end surface 113.
In this embodiment, the bottom surface of the groove 130 intersects with the convex side surface 120, so as to reduce the depth of the groove 130, thereby ensuring the structural strength of the frame 100. The sidewall of the lens light-transmitting portion 310 away from the cover plate main body portion 320 may completely expose the groove 130, increasing the bonding area between the lens light-transmitting portion 320 and the frame 100, and enhancing the structural stability of the lens light-transmitting portion 320 and the frame 100. Of course, in other embodiments, the bottom surface of the groove 130 may be offset from the convex side surface 120.
Further, referring to fig. 3 and 5, the lens light-transmitting portion 310 is provided with a cover plate chamfered surface 311 corresponding to the edge of the convex side surface 120.
In this embodiment, the cover chamfered surface 311 is offset from the light transmitting hole 140, so that the region where the light transmitting hole 140 faces the lens light transmitting portion 310 is disposed flatly. The cover plate chamfered surface 311 is an arc chamfered surface to increase the smoothness of the portion of the lens light-transmitting portion 310 protruding from the outer convex side surface 120, and improve the appearance performance of the electronic device 1000. Of course, in other embodiments, the cover chamfered surface 311 may be an inclined straight chamfer.
Furthermore, the sealing colloid 312 is disposed on the peripheral sidewall of the lens light-transmitting portion 310 and the inner wall of the groove 130. The encapsulant 312 covers the sidewalls of the lens light-transmitting portion 310 exposed out of the groove 130, and the encapsulant 312 is partially stacked on the outer convex side 120. The part of the sealing colloid 312 exposed out of the groove 130 forms a filling structure connecting the lens light-transmitting part 310 and the convex side surface 120, so that the difference between the outer surface of the lens light-transmitting part 310 and the convex side surface 120 is reduced, and the appearance performance of the electronic device 1000 is improved.
In the present embodiment, the size of the lens translucent portion 310 is set according to the size of the translucent hole 140. The lens light-transmitting portion 310 forms a convex structure of the cover plate main body portion 320, so that the area of the frame 100 occupied by the lens light-transmitting portion 310 is reduced, more devices can be arranged on the frame 100, the width of the frame 100 can be reduced as much as possible, and the frame 100 can be narrowed.
In another embodiment, as shown in FIG. 6, which is substantially the same as the embodiment shown in FIG. 3, the electronic device 1000 includes a flash 400, and the bezel 100 is provided with flash holes 401 on the convex side 120. The flash hole 401 is located outside the groove 130 and may be arranged side by side with the groove 130. The flash hole 401 may be covered by a flash lens. The flash 400 is fixed on the inner side of the first short side 150 and is opposite to the flash hole 401, and the flash 400 can emit light through the flash hole 401 to assist the periscopic camera module 200 in taking a picture. The flash holes 401 are isolated from the glass cover 300 to preserve the integrity of the glass cover 300. The periscopic camera module 200 may be a front camera module or a rear camera module. Of course, in other embodiments, the first short side 150 may further have a receiver hole formed on the convex side 120, and the electronic device 1000 may further include a receiver fixed inside the first short side 150, so that the receiver emits sound through the receiver hole.
In another embodiment, as shown in FIG. 7, which is substantially the same as the embodiment shown in FIG. 3, the convex side 120 is connected to the inner wall of the bezel 100. Specifically, the bezel 100 is provided with an inner peripheral side surface 114 connected to the bearing step 111. The edge of the inner peripheral side surface 114 remote from the bearing step 111 is connected to the outer convex side surface 120. The inner peripheral side surface 114 is fitted to the outer peripheral side surface of the glass cover plate 300. The convex side 120 is substantially tangent or intersects with the outer surface of the glass cover plate 300. The convex side surface 120 is flush with or intersects the outer surface of the glass cover plate 300, so that the convex side surface 120 is closer to the inner wall of the bezel 100, so that the bezel 100 can be narrower. The bezel 100 does not have an end surface flush with the glass cover 300, so that the structure of the bezel 100 can be more simplified.
In another embodiment, as shown in fig. 8, 9 and 10, the electronic device 1000 includes a device cover 330 covering the receiving space 110, and the device cover 330 is provided separately from the glass cover 300, substantially the same as the embodiment shown in fig. 3. Specifically, the step surface of the bearing step 111 of the bezel 100 is attached to the inner surface of the device cover 330 to bear the device cover 330. The step surface of the bearing step 111 is offset from the bottom surface of the groove 130, and the bottom surface of the groove 130 is recessed relative to the step surface of the bearing step surface 112, i.e. the depth of the groove 130 is increased. By increasing the depth of the groove 130, the glass cover plate 300 can be completely accommodated in the groove 130. There is a break between the outer surface of the glass cover plate 300 and the outer surface of the device cover plate 330. The glass cover plate 300 is isolated from the device cover plate 330 by the sealing gel 312 and seals the gap between the glass cover plate 300 and the glass cover plate 300. In order to increase the smoothness of the outer appearance surface of the frame 100, the inner side surface of the groove 130 is connected with the outer convex side surface 120 through a groove chamfered surface 131, and the groove chamfered surface 131 is a circular arc curved surface. The chamfer radius of the groove chamfer surface 131 may adopt a gradual change structure, that is, the chamfer radius of the groove chamfer surface 131 may change from large to small as the depth of the groove 130 is reduced.
It can be understood that the periscopic camera module 200 according to the embodiment of the present disclosure is not limited to a front camera module or a rear camera module, that is, the periscopic camera module 200 may be on the same side of the rear cover of the electronic device 1000, on the same side of the front cover of the electronic device 1000, or on both sides of the front cover and the rear cover of the electronic device 1000, and the periscopic camera module 200 is disposed.
In another embodiment, please refer to fig. 11, which is substantially the same as the embodiment shown in fig. 3, except that the electronic device 1000 includes a front display 500 and a back display 600, and the front display 500 and the back display 600 are respectively fixed on two opposite sides of the frame 100. The front display screen 500 is a commonly used display screen, and the electronic device 1000 is provided with front functional devices such as a headphone, a front camera, a photosensitive device, and the like on one side of the front display screen 500. The glass cover 300 is a display cover attached to the rear display 600 to protect the rear display 600. The periscopic camera module 200 and the rear display screen 600 are located on the same side of the frame 100, i.e. the orientation of the light hole 140 is substantially the same as the orientation of the rear display screen 600. The glass cover plate 300 covers the rear display screen 600 and the periscopic camera module 200 and the light hole 140, so that the display can be realized on the rear structure of the electronic device 1000, and the rear structure is flat.
In another embodiment, please refer to fig. 12, which is substantially the same as the embodiment shown in fig. 11, except that the electronic device 1000 is a single display device. The electronic device 1000 includes a front display 500 and a back panel 700 opposite the front display 500. The front display screen 500 and the back panel 700 are respectively fixed to two opposite sides of the bezel 100. The glass cover 300 is a display cover attached to the front display 500. The glass cover 500 and the periscopic camera module 200 are disposed on the front side of the electronic apparatus 1000. The periscopic camera module 200 is a front camera. The light hole 140 is oriented substantially parallel to the front display 500. The glass cover 300 covers the front display screen 500, the periscopic camera module 200 and the light hole 140, so that the front structure of the electronic device 1000 is flat.
In another embodiment, please refer to fig. 13, which is substantially the same as the embodiment shown in fig. 3, except that the electronic apparatus 1000 includes a fixed focus camera module 800 fixed inside the frame 100 and arranged alongside the periscopic camera module 200, the fixed focus camera module 800 is opposite to the light hole 140, and captures the shooting light through the light hole 140. It is relative with fixed focus camera module 800 with periscopic camera module 200 through light trap 140, and glass apron 300 covers light trap 140 for periscopic camera module 200 and fixed focus camera module 800 all can acquire through glass apron 300 and shoot light, increase electronic equipment 1000's the mode of shooing and the performance of shooing.
In another embodiment, please refer to fig. 14, which is substantially the same as the embodiment shown in fig. 3, except that the recess 130 is isolated from the accommodating space 110. The groove 130 opens completely onto the convex side 120. In particular, the groove 130 extends from the edge of the end surface 113 connecting the outer convex side surface 120 to the outer convex side surface 120. The recess 130 is isolated from the receiving space 110 by the end surface 113. The groove 130 is isolated from the receiving space 120 to provide integrity to the receiving space 110 and facilitate the covering of the receiving space 120.
The electronic device 100 includes a device cover 330 covering the receiving space 110, and the device cover 330 and the glass cover 300 are disposed on the same side of the bezel 100. The outer surface of the device cover 330 is flush with the end face 113. The glass cover plate 300 is partially received in the groove 130, and the other part is exposed out of the groove 130. The peripheral side wall of the glass cover plate 300 is in sealing fit with the inner side wall of the groove 130. The outer surface of the glass cover 300 is flush with the outer surface of the device cover 330 to smooth the back structure of the electronic device 1000. The device cover 330 is a battery cover. The device cover 330 may be made of glass. The periscopic camera module 200 is a rear camera module. The outer surface of the glass cover 300 may be provided with a glass cover chamfered surface 303 at its periphery to enhance the smoothness of the appearance of the electronic device 1000. Of course, in other embodiments, the equipment cover 330 may be a back display cover or a front display cover, and the periscopic camera module 200 may also be a front camera module.
In another embodiment, please refer to fig. 15, which is substantially the same as the embodiment shown in fig. 3, except that the glass cover plate 300 is completely received in the groove 130. The glass cover 130 is disconnected from the device cover 330. There is a break between the outer surface of the glass cover plate 300 and the outer surface of the device cover plate 330. The glass cover plate 300 is parallel to the device cover plate 330. The inner side surface of the groove 130 is connected with the outer convex side surface 120 through a chamfered surface to increase the appearance performance of the electronic device 1000.
In another embodiment, please refer to fig. 16, which is substantially the same as the embodiment shown in fig. 3, except that the electronic device 1000 includes a back plate 900 integrated with the bezel 100. The groove 130 is completely opened on the outer convex side 120 and is located on one side of the bezel 100 close to the back plate 900. The glass cover 300 and the back plate 900 are fixed to the same side of the bezel 100. The glass cover plate 300 covers only the light transmission holes 140. The outer surface of the glass cover plate 300 is flush with the outer surface of the back plate 900, so that the back structure of the electronic device 1000 is flat. The back plate 900 and the bezel 100 may be made of metal, ceramic, or plastic.
In another embodiment, please refer to fig. 17, which is substantially the same as the embodiment shown in fig. 3, except that the electronic device 1000 includes a front display 500 attached to the device cover 330. The device cover 330 is fixed to the front surface of the bezel 100 to cover the front opening of the receiving space 110. The glass cover 300 and the device cover 330 are disposed on the same side of the bezel 100. The glass cover plate 300 is fixed in the groove 130. The glass cover 300 is a front lens transparent lens of the periscopic camera module 200 (see fig. 12).
The foregoing is an implementation of the embodiments of the present application, and it should be noted that, for those skilled in the art, several modifications and decorations can be made without departing from the principle of the embodiments of the present application, and these modifications and decorations are also regarded as the protection scope of the present application.

Claims (20)

1. The utility model provides an electronic equipment, its characterized in that, electronic equipment includes frame and periscope formula module of making a video recording, the frame inboard is equipped with accommodating space, the frame has relatively the evagination side of accommodating space evagination, the evagination side is equipped with the recess, the recess bottom is equipped with the light trap, periscope formula module of making a video recording is fixed in the accommodating space, periscope formula module part of making a video recording with the light trap is just right, with the warp the light trap acquires the shooting light.
2. The electronic device of claim 1, comprising a glass cover plate at least partially received within the recess, the glass cover plate covering the light-transmissive aperture.
3. The electronic device of claim 2, wherein the groove is in communication with the receiving space.
4. The electronic device of claim 3, wherein the glass cover plate comprises a lens light-transmitting portion that is received in the recess and covers the light-transmitting hole, and a cover plate body portion that covers the receiving space.
5. The electronic device according to claim 4, wherein the frame has an end surface at an opening end of the receiving space, the end surface intersects or is tangent to the outer convex side surface, and an outer surface of the cover main body portion is flush with the end surface.
6. The electronic device of claim 5, wherein the lens light-transmitting portion is provided with a cover chamfered surface with respect to the edge protruding from the outer convex side surface.
7. The electronic device of claim 4, wherein the glass cover plate is a front display cover plate, a back display cover plate, or a battery cover.
8. The electronic device of claim 2, wherein the recess is isolated from the receiving space.
9. The electronic device according to claim 8, comprising a device cover plate covering the accommodating space, wherein the device cover plate and the glass cover plate are disposed on the same side of the frame.
10. The electronic device of claim 9, wherein the glass cover plate is parallel to the device cover plate.
11. The electronic device of claim 9, wherein the device cover is a front display cover, a back display cover, or a battery cover.
12. The electronic device of claim 2, wherein the electronic device comprises a back plate integrally disposed with the bezel, and wherein the glass cover plate is flush with the back plate.
13. The electronic device according to any one of claims 1 to 12, wherein the groove has an inner side surface, and a groove chamfer surface is connected between the inner side surface and the outer convex side surface.
14. The electronic device of any of claims 1-12, wherein a bottom surface of the recess intersects the convex side surface.
15. The electronic device according to any one of claims 1 to 12, wherein a receiving groove extending toward the convex side surface is formed on an inner side of the frame, and the periscopic camera module is partially received in the receiving groove.
16. The electronic device of any one of claims 1-12, wherein the convex side surface is a circular arc convex side surface.
17. The electronic device according to any one of claims 1 to 12, wherein the frame is provided with a flash hole at one side of the light-transmitting hole, and the electronic device further comprises a flash lamp fixed to an inner side of the frame and facing the flash hole.
18. The electronic device according to any one of claims 1 to 12, further comprising a fixed focus camera module fixed inside the frame and arranged alongside the periscopic camera module, wherein the fixed focus camera module is opposite to the light hole and obtains the shooting light through the light hole.
19. The electronic device according to any one of claims 1 to 12, wherein the electronic device includes a middle plate fixed inside the bezel and a main board fixed to the middle plate, the middle plate carries the periscopic camera module, and the main board is electrically connected to the periscopic camera module.
20. The electronic device according to any one of claims 1 to 12, wherein the periscopic camera module comprises a module housing, a light guide member fixed in the module housing, a lens set slidably connected in the module housing, and a photosensitive chip fixed in the module housing, one end of the module housing is provided with a lighting hole opposite to the light transmission hole, the photosensitive chip is located at the other end of the module housing, the lens set can slide between the light guide member and the photosensitive chip, and light rays collected by the lighting hole are transmitted to the photosensitive chip through the light guide member and the lens set in sequence.
CN201920351910.2U 2019-03-19 2019-03-19 Electronic device Active CN210120573U (en)

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2020187076A1 (en) * 2019-03-19 2020-09-24 Oppo广东移动通信有限公司 Electronic device, display screen assembly and cover plate
CN114942506A (en) * 2021-02-08 2022-08-26 宁波舜宇光电信息有限公司 Collimator-based correction method for assembling system of periscopic camera module

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2020187076A1 (en) * 2019-03-19 2020-09-24 Oppo广东移动通信有限公司 Electronic device, display screen assembly and cover plate
CN114942506A (en) * 2021-02-08 2022-08-26 宁波舜宇光电信息有限公司 Collimator-based correction method for assembling system of periscopic camera module
CN114942506B (en) * 2021-02-08 2024-03-29 宁波舜宇光电信息有限公司 Calibration method of assembly system for periscope type camera module based on collimator

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