CN213342399U - Electronic equipment - Google Patents

Abstract

The utility model discloses an electronic equipment especially relates to an electronic equipment. The electronic equipment comprises a shell, a camera module and a lifting device. The lens of the camera module initially faces the back and can shoot or scan an object to be shot on the back; the camera module is rotatable coupling with the lift casing among the elevating gear, the lift casing is sliding connection with the shell, lift spare among the elevating gear is connected with the lift casing, through the lift casing, the lift spare, cooperation between the camera module three can make the camera module go up and down when the inside of shell and the camera module rotates when the outside of shell, and then make the camera module when the outside of shell, by camera lens orientation back rotation to the positive and the display screen slope that is located the front of camera lens orientation, when standing this electronic equipment on the desktop and using this moment, can shoot or scan the object of waiting to shoot of placing on the desktop.

Description

Electronic equipment

Technical Field

The utility model relates to an electronic equipment technical field especially relates to an electronic equipment.

Background

In order to meet the requirement of multi-angle shooting or scanning of electronic equipment, most of electronic equipment is provided with an independent front-mounted camera module and an independent rear-mounted camera module which are used for video calling or video online lessons and the like in a matched mode, and the rear-mounted camera module is used for scanning or shooting and the like; but a plurality of camera modules can occupy the more inner space of electronic equipment for electronic equipment is whole thick, and when electronic equipment was the flat computer, the user placed the flat computer perpendicularly and used at the desktop, need shoot and scan the article on the desktop simultaneously, and leading camera module can not satisfy the use this moment.

Therefore, it is urgently needed to design an electronic device, which can still realize multi-angle shooting and scanning while the camera module occupies less space of the electronic device.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an electronic equipment, this electronic equipment's camera module both can shoot and scan the object of shooing of treating that is located electronic equipment's the back, can stand when using on the desktop as this electronic equipment again, shoots and scans treating shooting object etc. on the desktop.

The utility model discloses an electronic equipment, include:

the display screen comprises a shell, a first cover and a second cover, wherein the shell comprises a front surface and a back surface which are oppositely arranged, a display screen is arranged on the front surface, and a first opening is formed in the edge of the shell;

the lens of the camera module faces the back surface;

the lifting device comprises a lifting shell and a lifting piece connected with the lifting shell, the lifting shell is rotatably connected with the camera module, the lifting shell is slidably connected with the shell, and the lifting shell and the lifting piece are used for driving the camera module to perform lifting motion along the first opening so as to enable the camera module to lift in the shell and rotate outside the shell;

when the camera module is positioned in the shell, the lifting shell, the camera module and the lifting piece are relatively static, and the lifting shell drives the camera module and the lifting piece to lift towards the first opening;

the camera module is located when the outside of shell, it is relative that the lift casing removes to drive the camera module rotates between primary importance and second position, the camera module is when the primary importance, the camera lens orientation the back, the camera module is when the second position, the camera lens orientation openly just to the display screen slope.

Furthermore, gears are fixed on two opposite sides of the camera module, the gears are rotatably connected to the lifting shell, the axis direction of the gears is perpendicular to the lifting direction of the lifting shell, the lifting piece is provided with a rack, the rack is lapped on the gears, and a first limiting part used for limiting the lifting piece to perform lifting movement is arranged in the shell;

when the camera module is positioned in the shell, friction force exists between the lifting shell and the lifting piece, and the gear is clamped with the rack, so that the lifting shell, the camera module and the lifting piece are relatively static, and the lifting shell drives the camera module and the lifting piece to lift towards the first opening;

when the camera module is located outside the shell, the first limiting portion supports the lifting piece, the lifting shell continues to lift and move relative to the lifting piece, the gear is meshed with the rack for transmission, and the gear is connected to the lifting shell and rotates, so that the camera module is driven to rotate between the first position and the second position.

Further, the lifting shell is provided with a plurality of convex ribs facing the lifting piece, and the convex ribs are attached to the surface of the lifting piece.

Further, the lift casing is being close to outside one side of shell is equipped with the second opening, the second opening perpendicular to the lateral wall caving in of the direction of rise and fall of lift casing both sides forms the recess, the recess is close to second open-ended one side and towards being close to the direction at the back is interior to form joint portion, the gear inlays to be established in joint portion, so that the rotatable being located of camera module in the second opening, the rack embedding in the recess and take on the gear.

Further, the back is equipped with towards the front protrusion forms the spout, the casing that goes up and down imbeds the spout and towards first opening goes up and down.

Furthermore, the sliding groove is provided with two opposite side walls, and the side walls of the sliding groove are close to one end of the first opening and protrude towards the front face to form a first limiting part;

the lifting piece is also provided with a lifting piece body extending from the rack towards the position far away from the first opening, and the lifting piece body extends towards the side walls on two sides of the first opening to form extending parts;

when the camera module is positioned outside the shell, the extending part props against the first limiting part so that the lifting piece and the shell are relatively static, the lifting shell body continues to lift and move relative to the lifting piece, and the gear connected to the lifting shell body is driven to rotate, so that the camera module is driven to rotate.

Furthermore, the lifting shell is provided with limiting grooves at two sides perpendicular to the lifting direction of the lifting shell, one end of each limiting groove close to the first opening is a second limiting part, one end of each limiting groove far away from the first opening is a third limiting part, and the extending part extends into the limiting groove;

when the camera module is located at the first position, the extension part is in contact with the second limiting part;

when the camera module is located at the second position, the extension part is abutted against the third limiting part.

Furthermore, the lifting shell is provided with a plurality of limiting columns protruding towards the lifting piece, the lifting piece is provided with a plurality of guide holes matched with the limiting columns, and the limiting columns extend into the guide holes;

when the camera module is located at the first position, the limiting column props against one end, far away from the first opening, of the guide hole;

when the camera module is located at the second position, the limiting column props against one end, close to the first opening, of the guide hole.

Furthermore, the electronic device further comprises a limiting piece and a control module, the limiting piece is arranged inside the housing, the limiting piece is located on one side of the first limiting portion, which is far away from the first opening, and the control module is used for controlling the limiting piece to limit the lifting piece;

when the lifting shell moves towards the inside of the shell, the control module is used for controlling the limiting part to abut against one end, away from the first opening, of the extending part so that the lifting part and the shell are relatively static, the lifting shell moves relative to the lifting part, the gear and the rack are in meshing transmission, the gear connected to the lifting shell is driven to rotate, and the camera module is driven to rotate towards the back; when the extension part abuts against the second limiting part, the control module is used for controlling the limiting part to avoid the extension part, so that the lifting shell drives the lifting piece and the camera module to enter the shell along the first opening.

Further, a third position is further included between the first position and the second position, and when the camera module is located at the third position, a lens of the camera module faces the front surface.

Furthermore, the electronic equipment further comprises a guide piece, wherein the guide piece is fixed on one surface of the back surface facing the display screen and forms a passage for the lifting device to lift.

Further, the electronic device further comprises a driving device connected with the lifting shell, and the driving device is used for driving the lifting shell to move along the first opening.

Compared with the prior art, the utility model discloses following beneficial effect has:

the utility model relates to an electronic equipment's camera module both can shoot and scan the object of waiting to shoot that lies in electronic equipment's the back, can stand when using on the desktop when this electronic equipment again, shoots and scans waiting to shoot the object on the desktop, and this camera module has the multi-angle and shoots, scans and occupy the advantage that the electronic equipment space is few. The electronic equipment comprises a shell, a camera module and a lifting device, wherein a lens of the camera module initially faces to the back and can shoot or scan an object to be shot on the back; the camera module is rotatable coupling with the lift casing among the elevating gear, the lift casing is sliding connection with the shell, lift spare among the elevating gear is connected with the lift casing, through the lift casing, the lift spare, cooperation between the camera module three can make the camera module go up and down when the inside of shell and the camera module rotates when the outside of shell, and then make the camera module when the outside of shell, by camera lens orientation back rotation to the positive and the display screen slope that is located the front of camera lens orientation, when standing this electronic equipment on the desktop and using this moment, can shoot or scan the object of waiting to shoot of placing on the desktop.

Therefore, the utility model discloses an electronic equipment's camera module can go up and down and overturn, can make a camera module can shoot and scan the object of waiting to shoot that is located electronic equipment's the back, can stand on the desktop when this electronic equipment again, shoot and scan the object of waiting to shoot on the desktop, consequently use a camera module can replace the camera module of a plurality of single functions, can reduce the camera module and occupy electronic equipment's inner space, do benefit to electronic equipment's frivolousization, reduce cost and realization full-face screen.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, 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 only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural diagram (front side facing outward) of an electronic device according to an embodiment of the present application;

fig. 2 is a schematic structural diagram (back side facing outward) of an electronic device according to an embodiment of the present application;

FIG. 3 is a schematic structural diagram of a housing of an electronic device according to an embodiment of the present disclosure;

fig. 4 is an exploded view of the lifting device, the camera module, and the driving device of the electronic device according to the embodiment of the present disclosure;

fig. 5 is a schematic structural diagram of a lifting housing of an electronic device according to an embodiment of the present disclosure;

fig. 6 is a schematic structural diagram of the electronic device according to the embodiment of the present disclosure, in which a camera module is engaged with a lifting member;

fig. 7 is a schematic structural diagram of the electronic device according to the embodiment of the present application, in which the lens faces the back side (the display screen is omitted);

fig. 8 is a schematic structural diagram of an electronic device according to an embodiment of the present disclosure with a lens facing the front (a display screen is omitted);

fig. 9 is a schematic structural diagram of an electronic device according to an embodiment of the present disclosure in which a lens faces a front surface and is inclined toward a display screen (the display screen is omitted).

Reference numerals: 1-shell, 11-front, 111-display screen, 12-back, 13-first opening, 14-sliding groove, 141-first limit part, 2-camera module, 21-lens, 22-gear, 3-lifting device, 31-lifting shell, 311-convex rib, 312-second opening, 313-groove, 3131-clamping part, 314-limit groove, 3141-second limit part, 3142-third limit part, 315-limit column, 32-lifting piece, 321-rack, 322-lifting piece body, 3221-extension part, 323-guide hole, 33-cover plate, 4-driving device, 5-loudspeaker, 6-key and 7-guide piece.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the present invention, the terms "upper", "lower", "left", "right", "front", "rear", "top", "bottom", "inner", "outer", "middle", "vertical", "horizontal", "lateral", "longitudinal", and the like indicate the orientation or positional relationship based on the orientation or positional relationship shown in the drawings. These terms are used primarily to better describe the invention and its embodiments, and are not intended to limit the indicated devices, elements or components to a particular orientation or to be constructed and operated in a particular orientation.

Moreover, some of the above terms may be used to indicate other meanings besides the orientation or positional relationship, for example, the term "on" may also be used to indicate some kind of attachment or connection relationship in some cases. The specific meaning of these terms in the present invention can be understood by those of ordinary skill in the art as appropriate.

Furthermore, the terms "mounted," "disposed," "provided," "connected," and "connected" are to be construed broadly. For example, it may be a fixed connection, a removable connection, or a unitary construction; can be a mechanical connection, or an electrical connection; may be directly connected, or indirectly connected through intervening media, or may be in internal communication between two devices, elements or components. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

Furthermore, the terms "first," "second," and the like, are used primarily to distinguish one device, element, or component from another (the specific nature and configuration may be the same or different), and are not used to indicate or imply the relative importance or number of the indicated devices, elements, or components. "plurality" means two or more unless otherwise specified.

The technical solution of the present application will be further described with reference to the following embodiments and accompanying drawings.

The embodiment of the application provides an electronic device, which may be an electronic device such as a tablet computer, a notebook computer, a mobile phone, a tablet computer or a handheld computer, and is not limited herein as long as the electronic device needs to be provided with a camera module to realize functions of photographing, shooting or scanning. The embodiment of the present application is described only by taking the electronic device as a tablet computer as an example.

Referring to fig. 1 to 4, fig. 1 is a schematic structural diagram (front side facing outward) of an electronic device according to an embodiment of the present disclosure; fig. 2 is a schematic structural diagram (back side facing outward) of an electronic device according to an embodiment of the present application; FIG. 3 is a schematic structural diagram of a housing of an electronic device according to an embodiment of the present disclosure; fig. 4 is an exploded view of the lifting device, the camera module, and the driving device of the electronic device according to the embodiment of the present disclosure.

In an embodiment of the present application, the electronic device includes: shell 1, camera module 2 and elevating gear 3. The housing 1 includes a front surface 11 (exposed surface of the electronic device in fig. 1) and a back surface 12 (exposed surface of the electronic device in fig. 2) which are oppositely disposed, the front surface 11 is provided with a display screen 111, and an edge portion of the housing 1 is provided with a first opening 13; the lens 21 of the camera module 2 faces the back 12; elevating gear 3 includes lift casing 31 and the piece 32 that goes up and down that is connected with lift casing 31, and lift casing 31 rotationally is connected with camera module 3, lift casing 31 and shell 1 sliding connection, and lift casing 31 and piece 32 are used for driving camera module 2 and carry out elevating movement along first opening 13 to make camera module 2 go up and down when the inside of shell 1 and camera module 2 rotates when the outside of shell 1.

When camera module 2 is located the inside of shell 1, lift casing 31, camera module 2, lift piece 32 three are static relatively, and lift casing 31 drives camera module 2 and lift piece 32 and goes up and down towards first opening 13.

When camera module 2 is located the outside of shell 1, lift casing 31 moves relative lift piece 32 to drive camera module 2 and rotate between primary importance and second place, camera module when primary importance, camera lens 21 is towards the back 12, and camera module 2 is when the second place, and camera lens 21 is towards positive 11 and to display screen 111 slope.

In the embodiment of the present application, please refer to fig. 2, the lens 21 of the camera module 2 of the electronic device initially faces the back 12, and a user can shoot or scan an object to be shot (e.g. a blackboard or a person) located at the back 12 of the electronic device through the camera module 2.

In order to photograph or scan an object (such as a textbook) placed on a desktop when the electronic device is standing on the desktop. The lifting shell 31 and the camera module 2 are rotatably connected, the lifting shell 31 and the shell 1 are slidably connected, the lifting shell 31 and the lifting piece 32 are connected, when the camera module 2 is positioned in the shell 1, the lifting shell 31, the lifting piece 32 and the camera module 2 can be mutually matched and kept relatively static, therefore, when a user slides the lifting shell 31 from the first opening 13 to the outside of the shell 1, the camera module 2 and the lifting piece 32 can move along the first opening 13 to the outside of the shell 1 under the driving of the lifting shell 31, the camera module 2 cannot rotate in the process, namely, the lens 21 of the camera module 2 always faces the back in the process, and the camera module 2 can stably lift in the shell 1; when the camera module 2 is located outside the housing 1, the lifting housing 31 moves relative to the lifting member 32, that is, a displacement is generated between the lifting housing 31 and the lifting member 32, so that the camera module 2 connected to the lifting housing 31 can rotate, and further the lens 21 of the camera module 2 rotates from the back 12 to the lens 21 to incline toward the front 11 and toward the display screen 111, at this time, the user can stand the electronic device on a desktop for use, the lens 21 of the electronic device inclines toward the front 11 and toward the display screen 111, that is, the lens 21 faces the desktop, and the user can scan or identify courseware and the like on the desktop through the camera module 2.

Therefore, the utility model discloses an electronic equipment's camera module 2 is through going up and down and upset, can make camera module 3 can shoot or scan the object of waiting to shoot that is located the electronic equipment back, can stand when this electronic equipment on the desktop again, shoot or scan the object of waiting to shoot on the desktop, consequently, camera module 3 can replace the camera module of a plurality of single functions, can just can satisfy multi-angle shooting or scanning only set up a camera module in electronic equipment like this, can reduce the camera module and occupy electronic equipment's inner space, do benefit to electronic equipment's frivolousness, reduce cost, and because this camera module 3 is towards back 12, need not occupy the space that has the front 11 of display screen 111, consequently, use this camera module 3 to do benefit to the full screen that realizes electronic equipment.

It should be noted that the camera module 2 and the lifting housing 31 are rotatably connected, specifically, the two sides of the camera module 2 may be provided with rotating shafts, the lifting housing 31 is provided with shaft holes corresponding to the rotating shafts, and the rotating shafts are embedded into the shaft holes so as to rotatably connect the camera module 2 and the lifting housing 31; certainly also can be that camera module 2's both sides have the gear, correspond the gear in the lift casing 31 and be equipped with the draw-in groove, with in the gear embedding draw-in groove so that camera module 2 and lift casing 31 rotatable coupling, this application does not do specifically and restricts here.

It should be further noted that, with continuing to refer to fig. 1, the electronic device further includes a speaker 5 and a key 6, where the speaker 5 and the key 6 are disposed at adjacent sides of the first opening 13, when the electronic device is used while standing on a desktop, one side of the electronic device where the camera module is disposed is usually away from the desktop, that is, the side opposite to the side where the camera module is disposed is in contact with the desktop (i.e., the side located below the electronic device in fig. 1), and at this time, the speaker 5 and the key 6 are located at the left side or the right side of the first opening 13, which can not only prevent the speaker 5 and the key 6 from interfering with the desktop, but also facilitate the user to operate the key 6. Of course, the speaker 5 and the key 6 may be disposed on the same side as the first opening 13, and the application is not limited thereto.

Next, the embodiment of the present application will explain the use of the electronic device in more detail with reference to an actual usage scenario.

Taking an electronic device as a tablet computer for example, when the electronic device is a tablet computer, a student stands the tablet computer on a desktop for use, for example, the electronic device leans against a cabinet body behind the desk or a support is arranged on one side of the electronic device, because the lens 21 of the camera module 2 faces the back side initially, an object to be shot is a blackboard at the moment, the student can face the back side of the electronic device to the blackboard, and a shooting button is clicked to record a lecture on the blackboard through shooting, so that the subsequent review is facilitated; when waiting to shoot the object for placing the textbook teaching material on the desktop, the student slides this electronic equipment's lift casing 31 towards first opening 13's direction (towards upper side in fig. 1 promptly) with the hand, lift casing 31 drives camera module 2 and lift piece 32 and also moves to first opening 13's direction, and then when camera module 2 stretches out shell 1, lift casing 31 removes relative lift piece 32, can make to rotate camera module 2 of connection on lift casing 31 and rotate, and then make camera module 2's camera lens 21 by facing to the back rotation to facing to the front and towards the desktop slope, lens 21 is facing to the textbook teaching material on the desktop this moment, the student makes electronic equipment scan the textbook teaching material and discern through clicking the shooting button.

Further, a third position is included between the first position and the second position, and when the camera module 2 is located at the third position, the lens 21 of the camera module 2 faces the front surface 11. Wherein when the camera module 2 is at the first position, the lens 21 faces the back 12, when the camera module 2 rotates to the second position, the lens 21 faces the front 11 and inclines towards the display 111, when the camera module 2 rotates from the first position to the second position, the lens 21 rotates first towards the front 11 and then rotates to face the front 11 and inclines towards the display 111, therefore, when the camera module 2 is at the third position, namely the lens 21 faces the front 11, students can use the electronic device to take self-shoot, therefore, the camera module 2 can not only shoot or scan the object to be shot at the back 12 of the electronic device, but also shoot or scan the object to be shot at the front 11 of the electronic device, and also shoot or scan the object to be shot on the desktop when the electronic device stands on the desktop, also this electronic equipment can use a camera module 2 to realize that multi-angle is shot and is scanned, has improved the experience sense that the user used, only installs a camera module in the electronic equipment and just can realize the shooting and the scanning of multi-angle, has practiced thrift electronic equipment's inner space, and the electronic equipment's of being convenient for frivolousization.

In order to improve the convenience of the camera module 2 of the electronic device, in this embodiment of the application, the electronic device further includes a driving device 4 connected to the lifting housing 31, and the driving device 4 is connected to the lifting housing 31 to drive the lifting housing 31 to ascend and descend along the first opening 13, so that the user can be replaced by poking the lifting housing 31 to ascend and descend by hand, and the electronic device is more humanized and convenient for the user to use the camera module 2.

In some embodiments, referring to fig. 3 to 6, gears 22 are fixed on two opposite sides of the camera module 2, the gears 22 are rotatably connected to the lifting housing 31, an axial direction of the gears 22 is perpendicular to a lifting direction of the lifting housing 31 (i.e., a vertical direction in fig. 1), the lifting member 32 has a rack 321, the rack 321 is overlapped on the gears 22, and a first limiting portion 141 for limiting the lifting movement of the lifting member 32 is disposed in the housing 1;

when the camera module 2 is located inside the housing 1, friction force exists between the lifting shell 31 and the lifting piece 32, and the gear 22 is clamped with the rack 321, so that the lifting shell 31, the camera module 2 and the lifting piece 32 are relatively static, and the lifting shell 31 drives the camera module 2 and the lifting piece 32 to lift towards the first opening 13;

when the camera module 2 is located outside the housing 1, the first limiting portion 141 supports the lifting member 32, the lifting housing 31 continues to lift and moves relative to the lifting member 32, the gear 22 and the rack 321 are engaged for transmission, and the gear 22 connected to the lifting housing 31 is driven to rotate, so that the camera module 2 is driven to rotate between the first position and the second position.

Wherein, the camera module 2 can be rotatably connected to the lifting housing 31 by fixing the gears 22 at both sides (i.e., left and right sides in fig. 4) of the camera module 2, and the lifting member 32 has the rack 321 and is overlapped on the gear 22; when the camera module 2 is located inside the housing 1, the lifting housing 31 and the lifting member 32 can be kept static by friction force between the lifting housing 31 and the lifting member 32, and meanwhile, the rack 321 is lapped on the gear 22, so that the lifting member 32 can keep the camera module 2 static and cannot rotate, and because the rack 321 is lapped on the gear 22, the lens 21 of the camera module 2 faces the back 12, and the side of the camera module 2, which is away from the lens 21, is propped against the inner wall of the housing 1, so that the camera module 2 cannot rotate, the lifting housing 31, the lifting member 32 and the camera module 2 are further kept static, and the stability of the camera module 2 in lifting inside the housing 1 is improved; when the camera module 2 extends out of the housing 1 along the first opening 13, because the first limiting portion 141 is arranged inside the housing 1, the first limiting portion 141 can abut against the lifting member 32, that is, the lifting member 32 does not rise after being abutted by the first limiting portion 141, at this time, the lifting housing 31 continues to rise and moves relative to the lifting member 32, because the rack 321 of the lifting member 32 is lapped on the gear 22, and the rack 321 and the gear 22 can perform meshing transmission, so the gear 22 can rotate and drive the camera module 2 to rotate, so that the lens 21 facing the back 12 inclines towards the front 11 and then towards the display screen 111.

It should be noted that the first limiting portion 141 may be a limiting block formed by protruding from the inner surface of the housing 1, or a limiting block may be bonded to the inside of the housing 1, as long as the lifting member 32 is limited to continuously lift when the camera module 2 is located outside the housing 1, which is not limited herein.

It should be noted that, referring to fig. 5, in order to increase the friction force between the lifting housing 31 and the lifting member 32, the lifting housing 31 is provided with a plurality of ribs 311 protruding toward the lifting member 32, and the ribs 311 are attached to the surface of the lifting member 32. The friction between the lifting housing 31 and the lifting member 32 is increased by the provision of the ribs 311, so that the lifting housing 31 and the lifting member 32 can be kept relatively stationary and stably lifted when lifted inside the housing 1, and the camera module 2 does not rotate inside the housing 1.

In other embodiments, the electronic device includes two driving devices, one of the driving devices is connected to the lifting housing 31, the other driving device is connected to the lifting member 32, when the camera module 2 is located inside the housing 1, the two driving devices keep lifting synchronously to make the lifting housing 31, the lifting member 32 and the camera module 2 connected to the lifting housing 31 relatively stationary, when the camera module 2 extends out of the housing 1 along the first opening 13, the driving device connected to the lifting member 32 stops driving to make the lifting member 32 stationary, the driving device connected to the lifting housing 31 continues driving, the lifting housing 31 and the lifting member 32 generate relative movement, the gears 22 at both sides of the camera module 2 are shifted by the lifting member 32 stopping lifting, and the camera module 2 rotates.

Further, the lifting housing 31 is provided with a second opening 312 at one side near the outer portion of the outer shell 1, the side walls of the second opening 312 at two sides perpendicular to the lifting direction of the lifting housing 31 are recessed to form a groove 313, the groove 313 is close to one side of the second opening 312 and recessed towards the direction close to the back surface 12 to form a snap-in portion 3131, the gear 22 is embedded in the snap-in portion 3131, so that the camera module 2 is rotatably located in the second opening 312, and the rack 321 is embedded in the groove 313 and is lapped on the gear 22.

In the embodiment of the present application, by providing the second opening 312 at one side of the lifting housing 31 close to the outside of the housing 1 and accommodating the camera module 2 in the second opening 312, when the lifting device 3 is not lifted, the lifting housing 31 above the second opening 312 blocks the first opening 13, so that the appearance of the housing 1 is integrally consistent, the appearance is more attractive, and dust is prevented from entering the inside of the housing 1; referring to fig. 8, two sides of the second opening 312 are recessed to form a groove 313, the rack 321 is embedded in the groove 313 to ensure that the lifting member 32 can be lifted stably without shaking, an edge of the groove 313 is recessed to form a clamping portion 3131, the gear 22 is embedded in the clamping portion 3131 to enable the gear 22 to be clamped by the clamping portion 3131, so as to ensure that the camera module 2 rotates in the clamping portion 3131 stably and prevent the camera module 2 from falling off during movement.

It should be noted that, in order to prevent the gear 22 and the rack 321 from being exposed when the lifting shell 31 extends out of the housing 1, in the embodiment of the present application, the cover plate 33 is disposed at the position corresponding to the groove 313, and the cover plate 33 is covered on the groove 313, so that the gear 22 and the rack 321 can be covered, and the appearance of the lifting shell 31 extending out of the housing 1 is improved.

Referring to fig. 3 and 7, the back 12 is provided with a sliding slot 14 protruding toward the front 11, and the lifting housing 31 is inserted into the sliding slot 14 and lifted toward the first opening 13. The sliding groove 14 is formed by protruding from the back of the shell 1 toward the front 11, so that the sliding groove 14 and the shell 1 are integrally formed, meanwhile, the lifting shell 31 is embedded into the sliding groove 14, the sliding groove 14 can limit the lifting shell 31 to lift only along the direction of the sliding groove 14, the sliding groove 14 plays a guiding role, and the lifting shell 31 cannot shake in lifting to generate abnormal sound.

Referring to fig. 3, the sliding slot 314 has two opposite side walls (a left side wall and a right side wall of the sliding slot in fig. 3), and the side wall of the sliding slot 314 is close to one end of the first opening 13 and protrudes toward the front surface 11 to form a first limiting portion 141; with reference to fig. 4, the lifting element 32 further has a lifting element body 322 extending from the rack 321 toward the position far away from the first opening 13, and the lifting element body 322 extends toward the sidewalls of the two sides of the first opening 13 to form an extending portion 3221;

when the camera module 2 is located outside the housing 1, the extending portion 3221 abuts against the first position-limiting portion 141, so that the lifting member 32 and the housing 1 are relatively stationary, the lifting housing 31 continues to lift and move relative to the lifting member 32, and the gear 22 connected to the lifting housing 31 is driven to rotate, thereby driving the camera module 2 to rotate.

The first position-limiting portion 141 protrudes from the side wall of the sliding groove 14, and it is not necessary to separately set a position-limiting block in the housing 1 to limit the lifting of the lifting member 32, the sliding groove 14 can guide the lifting housing 31 and limit the lifting of the lifting member 32, which is convenient for simplifying the production process of the housing 1, and an extending portion 3221 is disposed at an end of the lifting member 32 away from the rack 321, and the extending portion 3221 can abut against the first position-limiting portion 14, so when the camera module 2 is located outside the housing 1, the extending portion 3221 abuts against the first position-limiting portion 14 to stop the lifting member 32 from lifting, and when the lifting housing 31 continues to lift, the lifting housing 31 can displace with the lifting member 32, so that the gear 22 and the rack 321 are in meshing transmission, and the rotation of the gear 22 can drive the camera module 2 to rotate.

Further, referring to fig. 5, the lifting housing 31 is provided with a limiting groove 314 on two sides perpendicular to the lifting direction thereof, and one end of the limiting groove 314 close to the first opening 13 is a second limiting portion 3141, one end of the limiting groove 314 far from the first opening 13 is a third limiting portion 3142, and the extending portion 3221 extends into the limiting groove 314; when the camera module 2 is located at the first position, the extending portion 3221 is in contact with the second position-limiting portion 3141; when the camera module 2 is located at the second position, the extending portion 3221 abuts against the third position-limiting portion 3142.

Wherein, extension 3221 stretches into and sets up in the spacing groove 314 of lift casing 31, when camera module 2 is located the first position, also be the camera module 2 is located the outside of shell 1 and when camera lens 21 is towards back 12, lift 32 stops rising this moment, lift casing 31 continues to rise and drives camera module 2 and rotates, when camera lens 21 is towards front 11 and when inclining towards display screen 111, third spacing portion 3142 can support extension 3221, make lift casing 31 stop rising, and then make camera module 2 stall, and keep camera lens 21 towards front 11 and incline towards display screen 111, the user of being convenient for this moment uses camera module 2 to shoot and scan.

In order to facilitate the camera module 2 to descend, the lens 21 is first tilted from the front 11 to the display 111 until the lens 21 faces the front, and then rotated until the lens 21 faces the back. The electronic device further includes a limiting member (not shown in the figure) and a control module (not shown in the figure), the limiting member is disposed inside the housing 1, the limiting member is located on one side of the first limiting portion 141 away from the first opening 13, and the control module is used for controlling the limiting member to limit the lifting member 32;

when the lifting housing 31 moves towards the inside of the housing 1, that is, when the lifting housing 31 descends, the control module is configured to control the limiting member to abut against one end of the extending portion 3221 away from the first opening 13, at this time, the lifting member 32 does not descend, the lifting housing 31 continues to descend and generates displacement with the lifting member 32, the gear 22 is engaged with the rack 321 for transmission, and the gear 22 connected to the lifting housing 31 is driven to rotate, thereby driving the camera module 2 to rotate, so that the lens 21 will first tilt from facing the front surface 11 and facing the display 111 to the position where the lens 21 faces the front surface, then, the lens 21 is rotated to face the back, when the extension portion 3221 abuts against the second stopper portion 3141, the control module controls the position-limiting member to avoid the extending portion 3221, i.e. the descending of the lifting member 32 is no longer limited, and since the extending portion 3221 abuts against the second position-limiting portion 3141, the lifting housing 31 drives the lifting member 32 and the camera module 2 to extend into the housing 1.

Furthermore, the lifting housing 31 is provided with a plurality of limiting posts 315 protruding towards the lifting member 32, the lifting member 32 is provided with a plurality of guiding holes 323 matching with the limiting posts 315, the limiting posts 315 extend into the guiding holes 323, and when the camera module 2 is located at the first position, the limiting posts 315 abut against one end of the guiding holes 323 away from the first opening 13; when the camera module 2 is located at the second position, the position-limiting column 315 abuts against one end of the guiding hole 323 close to the first opening 13. Wherein, through stretching into the guiding hole 323 with spacing post 315, can make lift 32 and lift casing 31 when going up and down, lift 32 and lift casing 31 can not be to the skew of the direction that perpendicular to self goes up and down, promote the stability between lift 32 and the lift casing 31, and the guiding hole 323 is kept away from the one end of first opening 13 and is played the effect the same with third spacing portion 3142, can make lift casing 31 stop rising, the guiding hole 323 is close to the one end of first opening 13 and is played the effect the same with second spacing portion 3141, can make lift casing 31 drive lift 32 and camera module 2 descend together when descending.

Further, referring to fig. 7 to 9, the electronic device further includes a guide 7, the guide 7 is fixed on a surface of the back surface 12 facing the display screen 111 and forms a passage through which the lifting device 3 lifts, the passage can ensure that the lifting device 3 lifts along the passage, the lifting device 3 is prevented from inclining to other directions during lifting, and the lifting stability of the lifting device 3 is further ensured.

To sum up, when the electronic device of the embodiment of the application is in use, in an initial state, the camera module 2 is not lifted, as shown in fig. 7, at this time, the lens 21 of the camera module 2 faces the back 12, and a user can shoot or scan an object to be shot located on the back 12 of the electronic device;

in the first stage, the camera module 2 starts to ascend and descend and extends out of the first opening 13, specifically, friction force between the ascending and descending shell 31 and the ascending and descending member 32 can keep the ascending and descending shell 31 and the ascending and descending member 32 stationary, and meanwhile, the rack 321 is lapped on the gear 22, so that the ascending and descending member 32 can keep the camera module 2 stationary and cannot rotate, that is, the ascending and descending shell 31, the ascending and descending member 32 and the camera module 2 are kept relatively stationary; because the rack 321 is lapped on the gear 22, the lens 21 of the camera module 2 faces the back 12, and one side of the camera module 2 away from the lens 21 is abutted by the inner wall of the shell 1, so that the camera module 2 cannot rotate, and further the lifting shell 31, the lifting piece 32 and the camera module 2 are kept static, so that the lifting shell 31 can drive the lifting piece 32 and the camera module 2 to move up and down together, and when the camera module 2 extends out of the first opening 13, the extension portion 3221 is abutted against the first limiting portion 141;

in the second stage, as shown in fig. 8, the camera module 2 starts to rotate to make the lens 21 face the front 11, specifically, the extension portion 3221 is abutted by the first limiting portion 141, that is, the lifting member 32 is limited to rise, at this time, the lifting housing 31 continues to rise, the lifting housing 31 and the lifting member 32 move to make the rack 321 and the gear 22 perform meshing transmission, the gear 22 rotates to drive the camera module 2 to rotate, the lens 21 rotates to face the front 11, a user can use the camera module 2 to perform self-shooting, at this time, the extension portion 3221 is located in the middle of the limiting groove 314, and the guide post 315 is located in the middle of the guide hole 323;

a third stage, as shown in fig. 9, the camera module 2 continues to rotate to make the lens 21 tilt toward the front 11 and toward the display screen 111, specifically, the lifting housing 31 continues to rise, the rack 321 and the gear 22 continue to engage and transmit, the gear 22 rotates to drive the camera module 2 to continue to rotate, the lens 21 rotates to face the front 11 and tilt toward the display screen 111, at this time, the control module controls the limiting member to abut against one end of the extending portion 3221 away from the first opening 13, the extending portion 3221 abuts against the third limiting portion 3142, and the guide post 315 abuts against one end of the guide hole 323 close to the first opening 13;

in the fourth stage, the camera module 2 rotates, so that the lens 21 is obliquely rotated from the position facing the front 11 to the position facing the display screen 111 until the lens 21 faces the front, specifically, because one end of the extension portion 3221 away from the first opening 13 is abutted by the limiting member, that is, the lifting member 32 is limited to descend, at this time, the lifting housing 31 descends, the lifting housing 31 and the lifting member 32 move, so that the rack 321 and the gear 22 are in meshing transmission, the gear 22 rotates to drive the camera module 2 to rotate, the lens 21 rotates to face the front 11, a user can use the camera module 2 to perform self-shooting, at this time, the extension portion 3221 is located in the middle of the limiting groove 314, and the guide post 315 is located in the middle of the guide hole 323;

in the fifth stage, the camera module 2 continues to rotate, so that the lens 21 rotates from the front side to the back side of the lens 21, specifically, the lifting housing 31 continues to descend, the lifting housing 31 and the lifting member 32 continue to move, the rack 321 and the gear 22 continue to engage and transmit, the gear 22 rotates to drive the camera module 2 to rotate, the lens 21 rotates to the back side 12, at this time, one end of the extension 3221 close to the first opening 13 abuts against the second limiting portion 3141, the guide post 315 abuts against one end of the guide hole 323 away from the first opening 13, and the control module controls the limiting member to avoid the extension 3221;

at the sixth stage, the camera module 2 descends, specifically, since the limiting member does not abut against the extending portion 3221, that is, the ascending and descending member 32 is not limited to descend, at this time, one end of the extending portion 3221 close to the first opening 13 abuts against the second limiting portion 3141, the guiding post 315 abuts against one end of the guiding hole 323 far away from the first opening 13, the ascending and descending housing 31 descends continuously to drive the ascending and descending member 32 and the camera module 2 to descend together, so that the ascending and descending device returns to the initial state shown in fig. 9.

The electronic device disclosed in the embodiments of the present invention is described in detail above, and the description of the above embodiments is only used to help understand the method and the core idea of the present invention; meanwhile, for the general technical personnel in the field, according to the idea of the present invention, there are changes in the specific implementation and application scope, to sum up, the content of the present specification should not be understood as the limitation of the present invention.

Claims (12)

1. An electronic device, comprising:

the display screen comprises a shell, a first cover and a second cover, wherein the shell comprises a front surface and a back surface which are oppositely arranged, a display screen is arranged on the front surface, and a first opening is formed in the edge of the shell;

the lens of the camera module faces the back surface;

the lifting device comprises a lifting shell and a lifting piece connected with the lifting shell, the lifting shell is rotatably connected with the camera module, the lifting shell is slidably connected with the shell, and the lifting shell and the lifting piece are used for driving the camera module to perform lifting motion along the first opening so as to enable the camera module to lift in the shell and rotate outside the shell;

when the camera module is positioned in the shell, the lifting shell, the camera module and the lifting piece are relatively static, and the lifting shell drives the camera module and the lifting piece to lift towards the first opening;

the camera module is located when the outside of shell, it is relative that the lift casing removes to drive the camera module rotates between primary importance and second position, the camera module is when the primary importance, the camera lens orientation the back, the camera module is when the second position, the camera lens orientation openly just to the display screen slope.

2. The electronic device of claim 1,

gears are fixed on two opposite sides of the camera module, the gears are rotatably connected to the lifting shell, the axis direction of the gears is perpendicular to the lifting direction of the lifting shell, the lifting piece is provided with a rack, the rack is overlapped on the gears, and a first limiting part used for limiting the lifting piece to perform lifting movement is arranged in the shell;

when the camera module is positioned in the shell, friction force exists between the lifting shell and the lifting piece, and the gear is clamped with the rack, so that the lifting shell, the camera module and the lifting piece are relatively static, and the lifting shell drives the camera module and the lifting piece to lift towards the first opening;

when the camera module is located outside the shell, the first limiting portion supports the lifting piece, the lifting shell continues to lift and move relative to the lifting piece, the gear is meshed with the rack for transmission, and the gear is connected to the lifting shell and rotates, so that the camera module is driven to rotate between the first position and the second position.

3. The electronic device of claim 2, wherein the lifting housing is provided with a plurality of ribs protruding toward the lifting member, and the ribs are attached to a surface of the lifting member.

4. The electronic device of claim 2,

the lifting housing is being close to outside one side of shell is equipped with the second opening, second opening perpendicular to the lateral wall caving in of the direction of rise and fall of lifting housing's both sides forms the recess, the recess is close to second open-ended one side and towards being close to the direction at the back is concave to form joint portion, the gear inlays to be established in joint portion, so that camera module is rotatable to be located in the second opening, the rack embedding in the recess and take on the gear.

5. The electronic device according to any one of claims 2 to 4, wherein the rear surface is provided with a sliding groove protruding toward the front surface, and the lifting housing is inserted into the sliding groove and lifted toward the first opening.

6. The electronic device of claim 5,

the sliding groove is provided with two opposite side walls, and the side walls of the sliding groove are close to one end of the first opening and protrude towards the front face to form the first limiting part;

the lifting piece is also provided with a lifting piece body extending from the rack towards the position far away from the first opening, and the lifting piece body extends towards the side walls on two sides of the first opening to form extending parts;

when the camera module is positioned outside the shell, the extending part props against the first limiting part so that the lifting piece and the shell are relatively static, the lifting shell body continues to lift and move relative to the lifting piece, and the gear connected to the lifting shell body is driven to rotate, so that the camera module is driven to rotate.

7. The electronic device of claim 6,

the lifting shell is provided with limiting grooves at two sides perpendicular to the lifting direction of the lifting shell, one end of each limiting groove close to the first opening is a second limiting part, one end of each limiting groove far away from the first opening is a third limiting part, and the extending part extends into the limiting groove;

when the camera module is located at the first position, the extension part is in contact with the second limiting part;

when the camera module is located at the second position, the extension part is abutted against the third limiting part.

8. The electronic device of claim 7,

the lifting shell is provided with a plurality of limiting columns protruding towards the lifting piece, the lifting piece is provided with a plurality of guide holes matched with the limiting columns, and the limiting columns extend into the guide holes;

when the camera module is located at the first position, the limiting column props against one end, far away from the first opening, of the guide hole;

when the camera module is located at the second position, the limiting column props against one end, close to the first opening, of the guide hole.

9. The electronic device of claim 7,

the electronic equipment further comprises a limiting piece and a control module, the limiting piece is arranged inside the shell and is positioned on one side, away from the first opening, of the first limiting part, and the control module is used for controlling the limiting piece to limit the lifting piece;

when the lifting shell moves towards the inside of the shell, the control module is used for controlling the limiting part to abut against one end, away from the first opening, of the extending part so that the lifting part and the shell are relatively static, the lifting shell moves relative to the lifting part, the gear and the rack are in meshing transmission, the gear connected to the lifting shell is driven to rotate, and the camera module is driven to rotate towards the back; when the extension part abuts against the second limiting part, the control module is used for controlling the limiting part to avoid the extension part, so that the lifting shell drives the lifting piece and the camera module to enter the shell along the first opening.

10. The electronic device according to any one of claims 1-4, further comprising a third position between the first position and the second position, wherein a lens of the camera module faces the front surface when the camera module is located at the third position.

11. The electronic device according to any one of claims 1 to 4, further comprising a guide member fixed to a surface of the rear surface facing the display screen and forming a passage through which the lifting means is lifted.

12. The electronic device of any of claims 1-4, further comprising a driving device coupled to the lift housing, the driving device configured to drive the lift housing to move along the first opening.

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