WO2020034200A1 - 移动终端及其拍照方法 - Google Patents

移动终端及其拍照方法 Download PDF

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Publication number
WO2020034200A1
WO2020034200A1 PCT/CN2018/101097 CN2018101097W WO2020034200A1 WO 2020034200 A1 WO2020034200 A1 WO 2020034200A1 CN 2018101097 W CN2018101097 W CN 2018101097W WO 2020034200 A1 WO2020034200 A1 WO 2020034200A1
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WO
WIPO (PCT)
Prior art keywords
outer frame
camera
mobile terminal
display area
flexible screen
Prior art date
Application number
PCT/CN2018/101097
Other languages
English (en)
French (fr)
Inventor
杨松龄
陈松亚
Original Assignee
深圳市柔宇科技有限公司
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 深圳市柔宇科技有限公司 filed Critical 深圳市柔宇科技有限公司
Priority to PCT/CN2018/101097 priority Critical patent/WO2020034200A1/zh
Priority to CN201880094140.6A priority patent/CN112640397A/zh
Publication of WO2020034200A1 publication Critical patent/WO2020034200A1/zh

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Classifications

    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04MTELEPHONIC COMMUNICATION
    • H04M1/00Substation equipment, e.g. for use by subscribers
    • H04M1/02Constructional features of telephone sets

Definitions

  • the present application relates to the field of electronic devices, and in particular, to a mobile terminal and a photographing method of the mobile terminal.
  • the foldable mobile phones generally include a first outer frame, a second outer frame, and are connected to the first outer frame.
  • full-screen mobile phones have become a new trend in the development of mobile phones.
  • the front of existing full-screen mobile phones is generally equipped with a front lens, which occupies space on the front of the mobile phone. , Thereby limiting the increase of the screen ratio of the mobile phone.
  • the present application provides a mobile terminal with an increased screen ratio, and a photographing method for the mobile terminal.
  • a mobile terminal includes a casing and a flexible screen disposed on the casing.
  • the casing includes a bendable member, and the casing and the flexible screen can pass through the flexible screen.
  • the bending part is bent, and a camera is provided on the side of the casing facing away from the flexible screen.
  • the camera can be exposed for front-side shooting or rear-side shooting.
  • the mobile terminal includes a casing and a flexible screen disposed on the casing.
  • the casing includes a bendable member, the casing, and the casing.
  • a flexible screen can be bent through the bendable member, and a camera is disposed on a side of the casing facing away from the flexible screen, and the photographing method includes:
  • the housing and flexible screen of the mobile terminal of the present application can be bent through the bendable member, and the camera is disposed on the back of the housing.
  • the camera can be exposed to Used for front or rear shooting. Therefore, the mobile terminal is not only convenient for users to perform front-side shooting or rear-side shooting, but also the camera does not occupy the area of the front side of the mobile terminal, which greatly increases the screen ratio.
  • FIG. 1 is a schematic diagram of a three-dimensional structure of an expanded state of a mobile terminal in a first embodiment of the present application.
  • FIG. 2 is a schematic view of the three-dimensional structure of FIG. 1 from another perspective.
  • FIG. 3 is a schematic side structural diagram of FIG. 1.
  • 4a to 4c are schematic diagrams of a self-timer using process of a mobile terminal of the present application.
  • FIG. 5 is a schematic diagram of a use state of rear-side shooting of the mobile terminal of the present application.
  • FIG. 6 is a schematic structural diagram of a mobile terminal in a second embodiment of the present application.
  • FIG. 7 is a schematic structural diagram of a mobile terminal in a third embodiment of the present application.
  • FIG. 8 is a schematic structural diagram of a mobile terminal in a fourth embodiment of the present application.
  • FIG. 9 is a schematic structural diagram of a mobile terminal in a fifth embodiment of the present application.
  • FIG. 10 is a flowchart of a photographing method of a mobile terminal according to the present application.
  • FIG. 1 is a schematic diagram of a three-dimensional structure of a mobile terminal in a deployed state according to a first embodiment of the present application; FIG. 1 side structure diagram.
  • the mobile terminal 100 in the first embodiment of the present application includes a casing 20 and a flexible screen 40 disposed on a front surface of the casing 20, and the casing 20 includes a first outer frame 22 and a second outer frame. 24 and a bendable member 26, the bendable member 26 is connected between the first outer frame 22 and the second outer frame 26, and the flexible screen 40 is disposed on the first outer frame 22 , The second outer frame 24 and the front of the bendable member 26.
  • the casing 20 and the flexible screen 40 can be bent by the bendable member 26, that is, the first outer frame 22 and the second outer frame 24 can be folded by the bendable member 26.
  • the flexible screen 40 can be bent along with the bending of the bendable member 26.
  • a camera 50 is disposed on a side of the casing 20 facing away from the flexible screen 40, that is, the camera 50 is disposed on the back of the casing 20. In this embodiment, the camera 50 is disposed on a side of the first outer frame 22 or the second outer frame 24 facing the flexible screen 40.
  • the camera 50 may be exposed for front-facing shooting or rear-facing shooting. That is, when the first outer frame 22 and the second outer frame 24 of the mobile terminal 100 are bent by the bendable member 26 and are offset from each other, the camera 50 can be exposed.
  • the front face of the casing 20 faces the surface of the flexible screen 40, and the back face of the casing 20 refers to the surface of the flexible screen 40.
  • the camera 50 is blocked; when the first outer frame 22 and the second outer frame When the frame 24 is bent asymmetrically, the camera 50 can be exposed.
  • the bending of the first outer frame 22 and the second outer frame 24 means that the first outer frame 22 and the second outer frame 24 are bent by the bendable member 26 to enable the first outer frame 22 and the second outer frame 24 to be bent.
  • the back of the frame 22 and the back of the second outer frame 24 are close to each other; the asymmetric bending means that the first outer frame 22 and the second outer frame 24 are bent by the bendable member 26
  • the first outer frame 22 and the second outer frame 24 are offset from each other; the symmetrical bending means that the first outer frame 22 and the second outer frame 24 are bent by the bendable member 26
  • the first outer frame 22 and the second outer frame 24 are in position, that is, the outer side of the first outer frame 22 is flush with the outer side of the second outer frame 24.
  • the bendable member 26 is a hinge
  • the camera 50 is a dual camera or a multiple camera
  • the flexible screen 40 is a touch display screen.
  • the bendable member 26 may be an elastic connecting piece or the like.
  • the mobile terminal 100 is a mobile phone. It can be understood that, in other embodiments, the mobile terminal 100 may be, but is not limited to, a PDA of a radio telephone, a pager, a web browser, a notepad, a calendar, and / or a Global Positioning System (GPS) receiver.
  • a PDA of a radio telephone
  • pager a pager
  • web browser a web browser
  • notepad a calendar
  • / or a Global Positioning System (GPS) receiver GPS
  • the housing 20 and the flexible screen 40 of the mobile terminal 100 of the present application can be bent through the bendable member 26.
  • the camera 50 is disposed on the back of the housing 20, and when the mobile terminal 100 is asymmetrically bent The camera 50 can be exposed for front or rear shooting. Therefore, the mobile terminal 100 not only facilitates the user to use the camera 50 for front or rear shooting, but also the camera 50 does not occupy the area of the layout of the front flexible screen 40 of the mobile terminal 100, which greatly improves the mobile Screen ratio of the terminal 100. Further, since the rear side has a larger spatial position, a camera with higher pixels and a larger photosensitive area can be set. Therefore, compared with the existing mobile camera with a front camera, the rear camera is moved to the front Use it for better selfies.
  • the camera 50 is disposed on the back of the first outer frame 22 or the second outer frame 24 adjacent to the outer side.
  • the camera 50 can be exposed through sliding displacement between the first outer frame 22 and the second outer frame 24; of course, the first outer frame 22 and the second outer frame 22 can also be exposed.
  • the asymmetric bending of the outer frame 24 directly exposes the camera 50.
  • the outer side of the first outer frame 22 refers to an end of the first outer frame 22 away from the bendable member 26, and the outer side of the second outer frame 24 refers to the second outer frame 24 away from the foldable One end of the bent piece 26.
  • the camera 50 is disposed on the side of the second outer frame 24 remote from the bendable member 26, that is, the back of the second outer frame 24 is adjacent to The camera 50 is disposed at the outer side.
  • the first outer frame 22 and the second outer frame 24 are symmetrically bent, the first outer frame 22 covers the camera 50; when the camera 50 is needed, the first outer frame 22 is driven relative to The second outer frame 24 slides and is displaced until the camera 50 is exposed, which facilitates shooting by the camera 50.
  • a lens accommodating groove 222 corresponding to the camera 50 is provided on the back of the first outer frame 22, and the lens accommodating groove 222 is used to accommodate the camera 50, that is, when the first outer frame 22 and the first When the two outer frames 24 are bent symmetrically, the camera 50 is housed in the lens receiving groove 222 to reduce the thickness of the mobile terminal 100 after being bent.
  • the camera 50 is provided on the back side of the first outer frame 22 away from the bendable member 26, that is, the back of the first outer frame 22 is provided adjacent to the outer side thereof.
  • the camera 50 When the first outer frame 22 and the second outer frame 24 are symmetrically bent, the second outer frame 24 covers the camera 50.
  • the second outer frame 24 is driven to slide relative to the first outer frame 22 to be displaced until the camera 50 is exposed, which is convenient for the camera 50 to shoot.
  • a lens accommodating groove 222 corresponding to the camera 50 is opened on the back of the second outer frame 24, and the lens accommodating groove 222 is used for accommodating the camera 50. That is, when the first outer frame 22 and the first When the two outer frames 24 are bent symmetrically, the camera 50 is housed in the lens receiving groove 222 to reduce the thickness of the mobile terminal 100 after being bent.
  • a main board 60, a battery, and other electronic components are disposed in the casing 20, and a processor 62 electrically connected to the flexible screen 40 and the camera 50 is disposed on the main board 60, and the processor 62 controls The flexible screen 40 and the camera 50 work.
  • the battery provides power to the flexible screen 40, the camera 50, and the motherboard 60.
  • the main board 60 is disposed in the second outer frame 24.
  • the main board 60 may be disposed in the first outer frame 22.
  • the flexible screen 40 includes a first display area 42 and a second display area 44.
  • the first display area 42 is located on the front of the first outer frame 22, and the second display area 44 is located on the second The front side of the outer frame 24.
  • the processor 62 can control the first display area 42 and the second display area 44 to be displayed or closed respectively, and can also control the first display area 42 and the second display area 44 to be displayed or closed simultaneously.
  • the displaying or closing of the first display area 42 and the second display area 44 respectively means that when the flexible screen 40 is in a bent state, the processor 62 can control the display of the first display area 42 , And the display of the second display area 44 is turned off; or the processor 62 can also control the display of the second display area 44 and turn off the display of the first display area 42.
  • the processor 62 may control the first display area 42 and the second display area 44 to be displayed or closed at the same time.
  • the first display area 42 and the second display area 44 are respectively located on opposite sides of the bendable member 26.
  • the first display area 42 And the second display regions 44 are respectively located on two opposite outer sides of the casing 20.
  • the second display area 44 faces the user, and the The first display area 42 faces away from the user, and the processor 62 can control the display of the second display area 44 and turn off the display of the first display area 42.
  • the camera 50 can be used as a rear camera
  • the second display area 44 can display scenes shot by the rear camera; when the first outer frame 22 and the second outer frame 24 are bent and the camera 50 faces the user, The first display area 42 faces the user and the second display area 44 faces away from the user.
  • the processor 62 can control the display of the first display area 42 and close the second display area 44. Display, at this time, the camera 50 can be used as a front camera, and the first display area 42 can display scenes shot by the front camera.
  • a position sensor 70 is disposed on the first outer frame 22 or the second outer frame 24.
  • the position sensor 70 is electrically connected to the processor 62.
  • the position sensor 70 sends a signal to the processor 62, the processor 62 receives the signal and controls the camera 50 to shoot, and controls the flexibility Screen 40 is displayed.
  • a position sensor 70 is disposed on the back of the second outer frame 24, and a trigger 72 corresponding to the position sensor 70 is disposed on the back of the first outer frame 22.
  • the position sensor 70 sends a signal to the processor 62, the processor 62 receives the signal and controls the camera 50 to shoot, and controls the first display area facing the user 42 or the second display area 44 displays a picture captured by the camera 50.
  • the position sensor 70 is located between the camera 50 and the bendable member 26 and is adjacent to the camera 50; the trigger 72 is adjacent to an outer side of the first outer frame 22.
  • the first outer frame 22 and the second outer frame 24 are bent and the trigger 72 contacts the position sensor 70, the first outer frame 22 and the second outer frame 24 are misaligned, The camera 50 is exposed to facilitate shooting by the camera 50.
  • the position sensor 70 is a Hall sensor
  • the trigger 72 is a first magnet, specifically, the first magnet is a magnet.
  • the position sensor 70 may also be an infrared sensor
  • the trigger 72 is an infrared light source, and so on.
  • the position sensor 70 may also be disposed on the back of the first outer frame 22, and the back of the second outer frame 24 is provided with a trigger 72 corresponding to the position sensor 70.
  • the first outer frame 22 and the second outer frame 24 are bent and the trigger 72 triggers the position sensor 70, the first outer frame 22 and the second outer frame 24 are misaligned.
  • the camera 50 is exposed, the position sensor 70 sends a signal to the processor 62, the processor 62 receives the signal and controls the camera 50 to take a picture, and controls the first display area 42 facing the user Or, the second display area 44 displays a picture captured by the camera 50.
  • a positioning mechanism 80 is provided between the first outer frame 22 and the second outer frame 24, and the positioning mechanism 80 is used for preventing the first outer frame 22 and the second outer frame 24 from being bent after being bent.
  • the first outer frame 22 is separated from the second outer frame 24.
  • the positioning mechanism 80 is disposed between the back surface of the first outer frame 22 and the back surface of the second outer frame 24.
  • the positioning mechanism 80 includes a magnetic suction bar 82 and a second magnet 84 corresponding to the magnetic suction bar 82.
  • the second magnet 84 is attracted to the magnetic suction bar 82 to prevent the first outer frame 22 and the second outer frame 22 from being bent.
  • the outer frame 24 is separated; when the first outer frame 22 slides out of position relative to the second outer frame 24, the second magnet 84 is slidably attracted to the magnetic suction bar 82.
  • the magnetic suction bar 82 is disposed on the back of the second outer frame 24 adjacent to the outer side of the second outer frame 24, and the magnetic suction bar 82 is along the first A relative sliding direction of an outer frame 22 and the second outer frame 24 extends, that is, the magnetic suction bar 82 extends along a length direction perpendicular to the bending line of the bendable member 26.
  • the second magnet 84 is disposed on a back surface of the first outer frame 22 adjacent to an outer side of the first outer frame 22.
  • a fixing groove 244 is provided on the back of the second outer frame 24 adjacent to the outer side of the second outer frame 24 along the relative sliding direction of the first outer frame 22 and the second outer frame 24.
  • the magnetic suction bar 82 accommodates In the fixing groove 244.
  • the depth of the fixing groove 244 is greater than or equal to the sum of the thicknesses of the magnetic suction bar 82 and the second magnet 84.
  • the second magnet 84 is protruded from the back of the first outer frame 22. After the first outer frame 22 and the second outer frame 24 are bent, the second magnet 84 is slidably received in the The fixing groove 244 is capable of being attracted to the magnetic suction bar 82. Since the second magnet 84 can be received in the fixing groove 224, the thickness of the mobile terminal 100 can be reduced after being bent.
  • the magnetic suction bar 82 is an iron bar
  • the second magnet 84 is a magnet
  • the magnetic suction bar 82 may be disposed on the back of the first outer frame 22 adjacent to the outer side of the first outer frame 22, and the second magnet 84 may also be disposed on the first The back surface of the two outer frames 24 is adjacent to the outer side of the second outer frame 24.
  • the magnetic suction bar 82 may be a magnet bar, and the second magnet 84 may be an iron piece.
  • the trigger 72 and the second magnet 84 may both be electromagnets, and the trigger 72 and the second magnet 84 may also be disposed on the first outer frame 22 or the second The inside of the outer frame 24.
  • FIG. 4a to FIG. 4c are schematic diagrams of a self-timer using process of the mobile terminal of the present application.
  • the camera 50 is housed in the lens housing groove 222, and the second magnet 84 is housed in the fixing groove 224 and is attracted to the magnetic suction bar 82; the user folds in half with one hand
  • the first display area 42 of the mobile terminal 100 faces the user, that is, the thumb of the user is in contact with the first display area 42 of the flexible screen 40, and other fingers are in contact with
  • the processor 62 can determine that the first display is based on that the touch area on the first display area 42 is smaller than the touch area on the second display area 44.
  • the area 42 faces the user, that is, it is determined that the camera 50 needs to take a selfie.
  • An external force is applied to the first display area 42 through the thumb, the first outer frame 22 is driven to slide in a direction close to the bending member 26 to be displaced from the second outer frame 24, and the second magnet 84 is moved along the
  • the fixing groove 224 slides in a direction close to the bending member 26 and remains in an adsorption state with the magnetic suction bar 82, and the triggering member 72 moves toward the position sensor 70 adjacent to the positioner 70 until the triggering member 72 faces directly.
  • the position sensor 70 is described, the position sensor 70 is triggered to send a signal to the processor 62.
  • the processor 62 receives a signal and controls the camera 50 to turn on, and turns on the first display area 42. Display and close the display of the second display area 44. At this time, the camera 50 is exposed and faces the user, and the first display area 42 is convenient for the user to view the scenes captured by the camera 50 to facilitate the user to take a selfie, and the operation is simple and convenient.
  • the thumb is applied to the first display area 42 to drive the first outer frame 22 to slide away from the bending member 26 to return to the symmetrical bending state.
  • the second magnet 84 is along the fixing groove. 224 slides upward and remains in an adsorption state with the magnetic suction bar 82, the trigger 72 moves away from the position sensor 70, so that the trigger 72 stops triggering the position sensor 70, that is, the The position sensor 70 no longer sends a signal to the processor 62, and the processor 62 stops controlling the camera 50 to be turned on.
  • the mobile terminal 100 when using the mobile terminal 100 for rear-side shooting, first bend the mobile terminal 100 symmetrically along the bendable member 26 so that the back surface of the first outer frame 22 and the The back of the second outer frame 24 is in contact with each other, the camera 50 is housed in the lens receiving groove 222, and the second magnet 84 is housed in the fixing groove 224 and is attracted to the magnetic suction bar 82;
  • the user holds the folded mobile terminal 100 with one hand, so that the second display area 44 of the mobile terminal 100 faces the user, that is, the thumb of the user and the second display area of the flexible screen 40 44 touches, other fingers are in contact with the first display area 42 of the flexible screen 40, and the processor 62 is able to determine that the touch area on the second display area 44 is smaller than the touch area on the first display area 42.
  • the second display area 44 is facing the user, that is, it is determined that the camera 50 needs to perform a rear shooting; an external force is applied to the first display area 42 by fingers other than the thumb to drive the first display area 42.
  • An outer frame 22 slides in a direction close to the bending member 26 and The second outer frame 24 is misaligned, the second magnet 84 slides along the fixing groove 224 toward the bending member 26 and remains in an adsorption state with the magnetic suction bar 82, and the trigger member 72 faces adjacent
  • the position sensor 70 moves until the trigger 72 faces the position sensor 70, the position sensor 70 is triggered to send a signal to the processor 62, and the processor 62 receives the signal and controls
  • the camera 50 is turned on, and the display of the second display area 44 is turned on and the display of the first display area 42 is turned off. At this time, the camera 50 is exposed and facing away from the user, and the second display area 44 is convenient for the user to view the scenes captured by the camera 50, thereby facilitating the user to perform back-side
  • the fingers other than the thumb apply force to the first display area 42 to drive the first outer frame 22 to slide away from the bending member 26 to return to the symmetrical bending state.
  • the second magnet 84 Sliding upward along the fixing groove 224 and maintaining an adsorption state with the magnetic suction bar 82, the trigger 72 moves away from the position sensor 70, so that the trigger 72 stops triggering the position sensor 70 That is, the position sensor 70 no longer sends a signal to the processor 62, and the processor 62 stops controlling the camera 50 to be turned on.
  • the mobile terminal 100 may also be directly asymmetrically bent along the bendable member 26, so that the positions of the first outer frame 22 and the second outer frame 24 are staggered, that is, The outside of the first outer frame 22 is located below the camera 50 so that the camera 50 is exposed.
  • the second magnet 84 is received in the fixing groove 224 and is attracted to the magnetic suction bar 82.
  • the trigger 72 is facing the position sensor 70, the trigger 72 triggers the position sensor 70 and sends a signal to the processor 62, the processor 62 receives the signal and controls the camera 50 is started, and the first display area 42 or the second display area 44 is controlled to be displayed.
  • FIG. 6 is a schematic structural diagram of a mobile terminal in a second embodiment of the present application.
  • the structure of the second embodiment of the mobile terminal of the present application is similar to that of the first embodiment, except that in the second embodiment, a pressure sensor is provided on the first outer frame 22 or the second outer frame 24 70a.
  • the pressure sensor 70a is electrically connected to the processor 62.
  • the pressure sensor 70a When the first outer frame 22 and the second outer frame 24 are bent and the camera 50 is exposed, the pressure sensor 70a When triggered, the pressure sensor 70a sends a signal to the processor 62, and the processor 62 receives the signal sent by the pressure sensor 70a and controls the camera 50 to turn on, and controls the display of the flexible screen 40.
  • the pressure sensor 70 a may be disposed on the back of the first outer frame 22, or may be disposed on the back of the second outer frame 24. When the first outer frame 22 and the second outer frame 24 are bent and the camera 50 is exposed, the pressure sensor 70a is triggered.
  • a slide groove 246 is provided on the back of the first outer frame 22 or the second outer frame 24, and the slide groove 246 extends along the direction in which the first outer frame 22 and the second outer frame 24 slide relative to each other.
  • the sliding groove 246 extends along a length direction perpendicular to the fold line of the bendable member 26.
  • a side of the sliding slot 246 away from the bending member 26 is adjacent to or spaced a predetermined distance from a side of the camera 50 near the bending member 26.
  • the pressure sensor 70a is disposed in the receiving groove 246, and the second outer frame 24 or the first outer frame 22 is convexly provided with a protrusion 72a, that is, the first outer frame 22 is provided with the slide
  • the second outer frame 24 is convexly provided with a projection 72a; when the second outer frame 24 is provided with a sliding groove 246, the first outer frame 22 is convexly provided with a projection 72a.
  • a sliding groove 246 is formed on the back of the second outer frame 24, and the sliding groove 246 extends along a direction in which the first outer frame 22 and the second outer frame 24 slide relative to each other.
  • the pressure sensor 70 a is disposed in the sliding groove 246 and is adjacent to one end of the bendable member 26.
  • a protrusion 72 a is protruded from the back of the first outer frame 22, and the protrusion 72 a is adjacent to an outer side of the first outer frame 22.
  • the projection 72a is accommodated in the place
  • the projection 72a slides in the sliding groove 246 until the camera 50 is exposed
  • the projection 72a is pressed against the pressure sensor 70a to trigger the pressure sensor 70a. Since the projection 72a can be accommodated in the sliding groove 246, the thickness of the first outer frame 22 and the second outer frame 24 after bending is not increased, and the sliding groove 246 has a guide
  • the sliding function can limit the relative sliding direction of the first outer frame 22 and the second outer frame 24.
  • the method for using the second embodiment of the mobile terminal 100 is the same as the method for using the first embodiment, and is not described again here.
  • an optical sensor may be disposed between the first outer frame 22 and the second outer frame 24, and the light sensor is electrically connected to the processor 62.
  • the optical sensor sends a signal to the processor 62, and the processor 62 receives the signal and controls the camera 50 shooting, and control the flexible screen 40 display.
  • FIG. 7 is a schematic structural diagram of a mobile terminal in a third embodiment of the present application.
  • the structure of the third embodiment of the mobile terminal of the present application is similar to that of the first embodiment, except that the positioning mechanism in the third embodiment is different from the positioning mechanism in the first embodiment, and in the third embodiment
  • the positioning mechanism 80 a includes a guide groove 82 a provided on the back of the first outer frame 22 or the back of the second outer frame 24, and the back of the second outer frame 24 or the first outer frame 22.
  • Positioning hook 84a on the back is provided on the back of the first outer frame 22 or the back of the second outer frame 24, and the back of the second outer frame 24 or the first outer frame 22.
  • the positioning hook 84a is provided on the back of the second outer frame 24; when the back of the second outer frame 24 is opened When the guide groove 82 a is provided, the positioning hook 84 a is protruded from the back of the first outer frame 22. When the first outer frame 22 and the second outer frame 24 slide relative to each other, the positioning hook 84a slides into the guide groove 82a, and the positioning hook 84a does not leave the guide groove. 82a.
  • the second outer frame 24 is provided with a guide groove 82a on a back surface thereof, the guide groove 82a is adjacent to an outer side of the second outer frame 24, and the guide groove 82a is along the first outer frame. 22 extends in a direction sliding relative to the second outer frame 24, that is, the guide groove 82 a extends in a length direction perpendicular to a bending line of the bendable member 26.
  • the cross section of the guide groove 82a has an inverted “T” shape.
  • An end of the guide groove 82a away from the bendable member 26 is provided with an insertion hole 85 that communicates with the guide groove 82a.
  • the positioning hook 84 a is protruded from the back side of the first outer frame 22 away from the bendable member 26, and the positioning hook 84 a has a “T” shape in cross section.
  • Applying an external force to the first display area 42 through the thumb driving the first outer frame 22 to slide in a direction close to the bending member 26 to be displaced from the second outer frame 24, and the positioning hook 84a is along
  • the guide groove 82a slides in a direction close to the bending member 26 and hooks the two opposite side walls of the guide groove 82a to prevent the first outer frame 22 from being separated from the second outer frame 24
  • the processor 62 receives the signal and controls the camera 50 to turn on, and turns on the display of the first display area 42. And the display of the second display area 44 is turned off. At this time, the camera 50 is exposed and faces the user, and the first display area 42 is convenient for the user to view the scenes captured by the camera 50, thereby facilitating the user to take a selfie, the operation is simple, and the use is convenient.
  • the thumb is applied to the first display area 42 to slide the first outer frame 22 in a direction away from the bending member 26 to return to the symmetrical bending state.
  • the positioning hook 84a is along the guide groove 82a. Slide until it is received in the insertion hole 85, the trigger 72 moves away from the position sensor 70, so that the trigger 72 stops triggering the position sensor 70, that is, the position sensor 70 does not Send a signal to the processor 62, and the processor 62 stops controlling the camera 50 to be turned on.
  • the mobile terminal 100 When the mobile terminal 100 is used for rearward shooting, the mobile terminal 100 is first bent symmetrically along the bendable member 26 so that the back surface of the first outer frame 22 and the second outer frame 24 The back surface contacts, the camera 50 is received in the lens receiving groove 222, and the positioning hook 84a is inserted into the insertion hole 85; the user holds the folded mobile terminal 100 with one hand, so that the The second display area 44 of the mobile terminal 100 faces the user, that is, the thumb of the user is in contact with the second display area 44 of the flexible screen 40, and other fingers are in contact with the first display area 42 of the flexible screen 40 ; By rubbing the first display area 42 downward with fingers other than the thumb, the first outer frame 22 slides downward to be offset from the second outer frame 24, and the positioning hook 84a extends along The guide groove 82a slides down and hooks the two opposite side walls of the guide groove 82a to prevent the first outer frame 22 from being separated from the second outer frame 24; the trigger member 72 faces adjacent to the The position sensor 70 moves until the position when
  • Sensor 70 is triggered to send a signal to the processor 62, the processor 62 receives the signal and controls the camera 50 is turned on, and turns on the second display area 44 and close the first display area 42. At this time, the camera 50 is exposed and facing away from the user, and the second display area 44 is convenient for the user to view the scenes captured by the camera 50, thereby facilitating the user to perform the rear shooting, the operation is simple, and the use is convenient.
  • FIG. 8 is a schematic structural diagram of a mobile terminal in a fourth embodiment of the present application.
  • the structure of the fourth embodiment of the mobile terminal of the present application is similar to that of the third embodiment, except that in the fourth embodiment, the positioning hook 84a is rotatably connected to the first outer frame 22 or the second frame.
  • a storage groove 87 is provided on the back of the first outer frame 22 or the second outer frame 24 adjacent to the positioning hook 84a, and the storage groove 87 is used for receiving the positioning hook 84a.
  • the positioning hook 84a is rotated and stored in the storage groove 87 to reduce the volume of the mobile terminal.
  • the positioning hook 84a is rotated out of the receiving groove 87 to facilitate the insertion of the positioning hook 84a into the guide groove 82a.
  • FIG. 9 is a schematic structural diagram of a mobile terminal in a fifth embodiment of the present application.
  • the structure of the fifth embodiment of the mobile terminal of the present application is similar to that of the first embodiment, except that in the fifth embodiment, the mobile terminal omits the position sensor 70, but instead uses the flexible screen
  • a touch icon 46 is provided on the first display area 42 or the second display area 44 of 40, and the camera 50 can be turned on or off by clicking on the touch icon 46, and the processor 62 is controlled to face the user
  • the first display area 42 or the second display area 44 is displayed or closed to facilitate user operation.
  • the housing 20 is provided with a switch button electrically connected to the processor 62. Pressing the switch button can turn the camera 50 on or off.
  • the processor 62 controls The first display area 42 or the second display area 44 facing the user is displayed or closed for the convenience of the user.
  • FIG. 10 is a flowchart of a photographing method of a mobile terminal according to the present application.
  • the present application also provides a photographing method for a mobile terminal, which is applicable to the mobile terminal 100.
  • the mobile terminal 100 includes a casing 20 and a flexible screen 40 disposed on the casing 20.
  • the casing 20 includes a bendable Piece 26, the casing 20 and the flexible screen 40 can be bent by the bendable member 26, and a camera 50 is disposed on a side of the casing 20 facing away from the flexible screen 40, and the photographing method includes :
  • the camera 50 When the camera 50 is exposed, the camera 50 is controlled to take a front picture or a rear picture.
  • determining whether the camera 50 is exposed includes: the mobile terminal 100 bends symmetrically so that the camera 50 is covered, and the mobile terminal 100 slides staggered to the asymmetric bend, and judges the camera 50 Whether it is exposed. If it is determined that the camera 50 has been exposed, the mobile terminal 100 controls the camera 50 to perform a front camera or a rear camera; if it is determined that the camera 50 is not exposed, it continues to stagger and slide again to determine whether the camera 50 is exposed.
  • the housing 20 further includes a first outer frame 22 and a second outer frame 24.
  • the bendable member 26 is connected between the first outer frame 22 and the second outer frame 24.
  • the flexible screen 40 is disposed on the first outer frame 22, the second outer frame 24, and the bendable member 26, and the camera 50 is disposed on the side of the first outer frame 22 facing away from the flexible screen 40, so
  • the first outer frame 22 or the second outer frame 24 is provided with a position sensor 70 for detecting whether the camera 50 is exposed.
  • the photographing method includes:
  • the position sensor 70 is triggered
  • the camera 50 is controlled to perform a front camera or a rear camera.
  • the housing 20 further includes a first outer frame 22 and a second outer frame 24, and the bendable member 26 is connected to the first outer frame 22 and the second outer frame 24.
  • the flexible screen 40 is disposed on the first outer frame 22, the second outer frame 24, and the bendable member 26, and the camera 50 is provided with the first outer frame 22 facing away from the flexible screen.
  • the first outer frame 22 or the second outer frame 24 is provided with a pressure sensor 70a for detecting whether the camera 50 is exposed; the photographing method includes:
  • the camera 50 is controlled to take a picture in front or rear.
  • the housing 20 further includes a first outer frame 22 and a second outer frame 24, and the bendable member 26 is connected to the first outer frame 22 and the second outer frame 24.
  • the flexible screen 40 is disposed on the first outer frame 22, the second outer frame 24, and the bendable member 26, and the camera 50 is provided with the first outer frame 22 facing away from the flexible screen.
  • the first outer frame 22 or the second outer frame 24 is provided with an optical sensor for detecting whether the camera 50 is exposed; the photographing method includes:
  • the optical sensor is triggered
  • the camera 50 is controlled to take a front or rear photo.
  • the flexible screen 40 includes a first display area 42 and a second display area 44.
  • the first display area 42 is located on the front of the first outer frame 22, and the second display area 44 is located on the second outer frame.
  • the front of 24; the photographing method includes:
  • the camera 50 is controlled to take a rear photo; or when the second display area 44 faces the user and the camera 50 is exposed At this time, the camera 50 is controlled to perform front-end photography.

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Abstract

本申请提供的一种移动终端,其包括壳体(20)及设置于壳体(20)上的柔性屏(40),壳体(20)包括可折弯件(26),壳体(20)及柔性屏(40)通过可折弯件(26)能折弯,壳体(20)背朝柔性屏(40)的侧面设置有摄像头(50),当移动终端非对称折弯时,摄像头(50)外露以用于前置拍摄或后置拍摄。移动终端不仅方便用户进行前置拍摄或后置拍摄,而且摄像头(50)不占用移动终端的正面的面积,大大提高了屏占比。本申请还提供一种移动终端的拍照方法。

Description

移动终端及其拍照方法 技术领域
本申请涉及电子装置领域,尤其涉及一种移动终端及所述移动终端的拍照方法。
背景技术
随着柔性屏的发展,现有技术中已经出现了折叠式显示屏的移动终端,如折叠式手机等,所述折叠式手机一般包括第一外框、第二外框、连接于所述第一外框与第二外框之间的可折弯件,以及设置于所述第一外框、第二外框及所述可折弯件上的折叠式显示屏。另外,为了追求更好的视觉体验,全面屏手机已经成为手机发展的新趋势,然而,现有的全面屏手机的正面上一般设置有前置镜头,所述前置镜头占用手机的正面的空间,从而限制了手机的屏占比的提高。
发明内容
本申请提供一种提高屏占比的移动终端,以及所述移动终端的拍照方法。
本申请所述的一种移动终端,其包括壳体及设置于所述壳体上的柔性屏,所述壳体包括可折弯件,所述壳体及所述柔性屏能通过所述可折弯件折弯,所述壳体背朝所述柔性屏的侧面设置有摄像头,所述移动终端在非对称折弯时,所述摄像头能外露以用于前置拍摄或后置拍摄。
本申请还提供一种拍照方法,适用于移动终端,所述移动终端包括壳体及设置于所述壳体上的柔性屏,所述壳体包括可折弯件,所述壳体及所述柔性屏通过所述可折弯件能折弯,所述壳体背朝所述柔性屏的侧面设置有摄像头,所述拍照方法包括:
当所述移动终端非对称折弯,判断所述摄像头是否外露;以及
当所述摄像头外露时,控制所述摄像头进行前置拍照或后置拍照。
本申请移动终端的壳体及柔性屏通过所述可折弯件能折弯,所述摄像头设置于所述壳体的背面,当所述移动终端非对称折弯时,所述摄像头能外露以用于前置拍摄或后置拍摄。因此,所述移动终端不仅方便用户进行前置拍摄或后置拍摄,而且所述摄像头不占用所述移动终端的正面的面积,大大提高了屏占比。
附图说明
为了更清楚地说明本发明实施例中的技术方案,下面将对实施例中所需要使用的附图作简单地介绍,显而易见地,下面描述中的附图仅仅是本发明的一些实施例,对于本领域普通技术人员来讲,在不付出创造性劳动的前提下,还可以根据这些附图获得其他的附图。
图1是本申请的第一实施例中的移动终端的展开状态的立体结构示意图。
图2是图1的另一视角的立体结构示意图。
图3是图1的侧面结构示意图。
图4a至图4c是本申请的移动终端的自拍使用过程示意图。
图5是本申请的移动终端的后置拍摄的使用状态示意图。
图6是本申请的第二实施例中的移动终端的结构示意图。
图7是本申请的第三实施例中的移动终端的结构示意图。
图8是本申请的第四实施例中的移动终端的结构示意图。
图9是本申请的第五实施例中的移动终端的结构示意图。
图10是本申请的移动终端的拍照方法的流程图。
具体实施方式
下面将结合本发明实施例中的附图,对本发明实施例中的技术方案进行清楚、完整地描述,显然,所描述的实施例仅是本发明一部分实施例,而不是全部的实施例。基于本发明中的实施例,本领域普通技术人员在没有做出创造性劳动前提下所获得的所有其他实施例,都属于本发明保护的范围。
本发明实施例的描述中,需要理解的是,术语“上”、“下”“左”“右”等指示的方位或位置关系为基于附图所示的方位或位置关系,仅是为了便于描述本发明和简化描述,而不是暗示或指示所指的装置或元件必须具有特定的方位、以特定的方位构造和操作,因此不能理解为对本发明的限制。
本发明实施例的描述中,需要理解的是,术语“厚度”等指示的方位或位置关系为基于附图所示的方位或位置关系,仅是为了便于描述本发明和简化描述,而不是暗示或指示所指的装置或元件必须具有特定的方位、以特定的方位构造和操作,因此不能理解为对本发明的限制。
请一并参阅图1至图3,图1是本申请的第一实施例中的移动终端的展开状态的立体结构示意图;图2是图1的另一视角的立体结构示意图;图3是图1的侧面结构示意图。本申请的第一实施例中的移动终端100包括一壳体20及设置于所述壳体20的正面一柔性屏40,所述壳体20包括一第一外框22、一第二外框24及一可折弯件26,所述可折弯件26连接于所述第一外框22与所述第二外框26之间,所述柔性屏40设置于所述第一外框22、第二外框24及所述可折弯件26的正面上。所述壳体20及所述柔性屏40能通过所述可折弯件26折弯,即,所述第一外框22与所述第二外框24通过所述可折弯件26能折弯,所述柔性屏40能随所述可折弯件26的折弯而弯曲。所述壳体20背朝所述柔性屏40的侧面设置有一摄像头50,即,所述壳体20的背面设置有所述摄像头50。本实施例中,所述摄像头50设置所述第一外框22或第二外框24背朝所述柔性屏40的侧面上。当所述移动终端100在非对称折弯时,所述摄像头50可以外露以用于前置拍摄或后置拍摄。即,所述移动终端100的第一外框22与所述第二外框24通过所述可折弯件26折弯且相互错位时,能使所述摄像头50外露。
所述壳体20的正面指面朝所述柔性屏40的面,所述壳体20的背面指背朝所述柔性屏40的面。
当所述第一外框22与所述第二外框24通过所述可折弯件26对称折弯时,所述摄像头50被遮挡;当所述第一外框22与所述第二外框24非对称折弯时,所述摄像头50能够外露。
所述第一外框22与所述第二外框24折弯是指所述第一外框22与所述第二外框24通过所述可折弯件26折弯,能使第一外框22的背面与所述第二外框24的背面相互靠拢;所述非对称折弯指所述第一外框22与所述第二外框24通过所述可折弯件26折弯后,所述第一外框22与所述第二外框24相互错位;所述对称折弯指所述第一外框22与所述第二外框24通过所述可折弯件26折弯后,所述第一外框22与所述第二外框24不错位,即,所述第一外框22的 外侧面与所述第二外框24的外侧面齐平。
本实施例中,所述可折弯件26是铰链,所述摄像头50为双摄像头或多摄像头,所述柔性屏40是触控显示屏。
在其他实施例中,所述可折弯件26可以是弹性连接片等。
本实施例中,所述移动终端100为手机。可以理解,在其它实施例中,移动终端100可以是但不限于无线电电话、寻呼机、Web浏览器、记事簿、日历以及/或全球定位系统(GPS)接收器的PDA。
本申请移动终端100的壳体20及柔性屏40通过所述可折弯件26能折弯,所述摄像头50设置于所述壳体20的背面,当所述移动终端100非对称折弯时,所述摄像头50能外露以用于前置拍摄或后置拍摄。因此,所述移动终端100不仅方便用户使用摄像头50进行前置拍摄或后置拍摄,而且所述摄像头50不占用所述移动终端100的正面柔性屏40的布局的面积,大大提高了所述移动终端100的屏占比。进一步地,由于后侧的空间位置较大,因而可以设置像素更高、感光面积更大的摄像头,因而相比于现有的前置摄像头的移动终端,通过将后侧的摄像头移至前侧使用,可以获得品质更佳的自拍效果。
所述摄像头50设置于所述第一外框22或第二外框24的背面邻近外侧处,当所述第一外框22与所述第二外框24通过所述可折弯件26对称折弯后,并通过所述第一外框22与所述第二外框24之间的滑动错位,能使所述摄像头50外露;当然,也可以通过所述第一外框22与第二外框24的非对称折弯直接使所述摄像头50外露。所述第一外框22的外侧指所述第一外框22远离所述可折弯件26的一端,所述第二外框24的外侧指所述第二外框24远离所述可折弯件26的一端。
如图2所示,本实施例中,所述第二外框24的背面远离所述可折弯件26的一侧设置有所述摄像头50,即,所述第二外框24的背面邻近外侧处设置有所述摄像头50。所述第一外框22与所述第二外框24对称折弯时,所述第一外框22遮挡所述摄像头50;当需要使用所述摄像头50时,驱动第一外框22相对于所述第二外框24滑动而错位,直至所述摄像头50外露,则方便所述摄像头50进行拍摄。所述第一外框22的背面开设有对应所述摄像头50的镜头收容槽222,所述镜头收容槽222用于收容所述摄像头50,即,当所述第一外框22与所述第二外框24对称折弯时,所述摄像头50收容于所述镜头收容槽222内,以减少所述移动终端100折弯后的厚度。
在其他实施例中,所述第一外框22的背面远离所述可折弯件26的一侧设置有所述摄像头50,即,所述第一外框22的背面邻近其外侧处设置有所述摄像头50。所述第一外框22与所述第二外框24对称折弯时,所述第二外框24遮挡所述摄像头50。当需要使用所述摄像头50时,驱动所述第二外框24相对于所述第一外框22滑动而错位,直至所述摄像头50外露,则方便所述摄像头50进行拍摄。所述第二外框24的背面开设有对应所述摄像头50的镜头收容槽222,所述镜头收容槽222用于收容所述摄像头50,即,当所述第一外框22与所述第二外框24对称折弯时,所述摄像头50收容于所述镜头收容槽222内,以减少所述移动终端100折弯后的厚度。
所述壳体20内设置有一主板60、电池等电子元器件,所述主板60上设置有电性连接于所述柔性屏40及所述摄像头50的一处理器62,所述处理器62控制所述柔性屏40及所述摄像头50工作。所述电池给所述柔性屏40、摄像头50及主板60提供电量。
本实施例中,所述主板60设置于所述第二外框24内。
在其他实施例中,所述主板60也可以设置于所述第一外框22内。
所述柔性屏40包括一第一显示区域42及一第二显示区域44,所述第一显示区域42位于所述第一外框22的正面,所述第二显示区域44位于所述第二外框24的正面。所述处理器62能控制所述第一显示区域42及第二显示区域44分别显示或关闭,也能控制所述第一显示区域42与第二显示区域44同时显示或关闭。所述第一显示区域42与所述第二显示区域44分别显示或关闭是指:当所述柔性屏40在折弯状态下,所述处理器62能控制所述第一显示区域42的显示,而关闭所述第二显示区域44的显示;或者,所述处理器62也能控制所述第二显示区域44显示,而关闭所述第一显示区域42的显示。当所述柔性屏40在展平状态下,所述处理器62可控制所述第一显示区域42与第二显示区域44同时显示或关闭。
所述第一显示区域42及第二显示区域44分别位于可折弯件26相对的两侧,当所述柔性屏40沿所述可折弯件26折弯时,所述第一显示区域42及所述第二显示区域44分别位于所述壳体20的相对的两外侧。
本实施例中,当所述第一外框22与所述第二外框24折弯后且所述摄像头50背朝使用者时,所述第二显示区域44面朝使用者,而所述第一显示区域42背朝使用者,所述处理器62能控制所述第二显示区域44显示,关闭所述第一显示区域42的显示,此时,所述摄像头50可以当作后置摄像头使用,所述第二显示区域44可以显示所述后置摄像头拍摄的景物;当所述第一外框22与所述第二外框24折弯后且所述摄像头50面朝使用者时,所述第一显示区域42面朝使用者,而所述第二显示区域44背朝使用者,所述处理器62能控制所述第一显示区域42显示,关闭所述第二显示区域44的显示,此时,所述摄像头50可以当作前置摄像头使用,所述第一显示区域42可以显示所述前置摄像头拍摄的景物。
所述第一外框22或第二外框24上设置有一位置感应器70,所述位置感应器70电性连接于所述处理器62,当所述第一外框22与所述第二外框24折弯而触发所述位置感应器70时,所述位置感应器70发送信号给所述处理器62,所述处理器62接收信号并控制所述摄像头50拍摄,并控制所述柔性屏40显示。
如图2所示,本实施例中,位置感应器70设置于所述第二外框24的背面,所述第一外框22的背面设置有对应所述位置感应器70的触发件72,当所述第一外框22与所述第二外框24折弯后并使所述触发件72触发所述位置感应器70时,所述第一外框22与所述第二外框24错位,所述摄像头50外露,所述位置感应器70发送信号给所述处理器62,所述处理器62接收信号并控制所述摄像头50进行拍摄,并控制面朝使用者的第一显示区域42或第二显示区域44显示所述摄像头50所拍摄到的画面。所述位置感应器70位于所述摄像头50与所述可折弯件26之间,并邻近所述摄像头50处;所述触发件72邻近所述 第一外框22的外侧处。当所述第一外框22与所述第二外框24折弯且所述触发件72接触所述位置感应器70时,所述第一外框22与所述第二外框24错位,所述摄像头50外露,以方便所述摄像头50拍摄。
本实施例中,所述位置感应器70是霍尔传感器,所述触发件72是第一磁体,具体的,所述第一磁体为磁铁。当然,在其他实施例中,位置感应器70还可以是红外传感器,触发件72为红外光源等等。
在其他实施例中,所述位置感应器70也可以设置于所述第一外框22的背面,所述第二外框24的背面设置有对应所述位置感应器70的触发件72,当所述第一外框22与所述第二外框24折弯后并使所述触发件72触发所述位置感应器70时,所述第一外框22与所述第二外框24错位,所述摄像头50外露,所述位置感应器70发送信号给所述处理器62,所述处理器62接收信号并控制所述摄像头50进行拍摄,并控制面朝使用者的第一显示区域42或第二显示区域44显示所述摄像头50所拍摄到的画面。
所述第一外框22与所述第二外框24之间设置有一定位机构80,所述定位机构80用于所述第一外框22与所述第二外框24折弯后防止所述第一外框22与所述第二外框24分离。
所述定位机构80设置于所述第一外框22的背面与所述第二外框24的背面之间。所述定位机构80包括一磁性吸条82及对应所述磁性吸条82的一第二磁体84。当所述第一外框22与所述第二外框24折弯时,所述第二磁体84吸附于所述磁性吸条82上,以防止所述第一外框22与所述第二外框24分离;当所述第一外框22相对于所述第二外框24滑动错位时,所述第二磁体84滑动地吸附于所述磁性吸条82。
如图2所示,本实施例中,所述磁性吸条82设置于所述第二外框24的背面邻近所述第二外框24的外侧处,所述磁性吸条82沿所述第一外框22与所述第二外框24的相对滑动的方向延伸,即,所述磁性吸条82沿垂直于所述可折弯件26的折弯线的长度方向延伸。所述第二磁体84设置于所述第一外框22的背面邻近所述第一外框22的外侧处。具体的,所述第二外框24的背面邻近其外侧处沿所述第一外框22与所述第二外框24的相对滑动的方向开设有一固定槽244,所述磁性吸条82收容于所述固定槽244内。固定槽244的深度大于或等于磁性吸条82与第二磁体84的厚度之和。所述第二磁体84凸设于所述第一外框22的背面,当所述第一外框22与所述第二外框24折弯后,所述第二磁体84能滑动地收容于所述固定槽244内,并能吸附于所述磁性吸条82。由于第二磁体84能收容于所述固定槽224内,因此,所述移动终端100折弯后能减少其厚度。
本实施例中,所述磁性吸条82是铁条,所述第二磁体84为磁铁。
在其他实施例中,所述磁性吸条82也可以设置于所述第一外框22的背面邻近所述第一外框22的外侧处,所述第二磁体84也可以设置于所述第二外框24的背面邻近所述第二外框24的外侧处。
在其他实施例中,所述磁性吸条82可以是磁铁条,所述第二磁体84可以是铁片。
在其他实施例中,所述触发件72及所述第二磁体84均可以是电磁铁,所述触发件72 及所述第二磁体84也可以设置于所述第一外框22或第二外框24的内部。
请一并参阅图4a至图4c,图4a至图4c是本申请的移动终端的自拍使用过程示意图。当使用所述移动终端100进行自拍时,先将所述移动终端100沿所述可折弯件26对称折弯,使所述第一外框22的背面与所述第二外框24的背面相接触,所述摄像头50收容于所述镜头收容槽222内,以及所述第二磁体84收容于所述固定槽224内并与所述磁性吸条82相吸附;使用者单手握持对折后的所述移动终端100,使所述移动终端100的第一显示区域42面朝使用者,即,使用者的大拇指与所述柔性屏40的第一显示区域42接触,其他手指与所述柔性屏40的第二显示区域44接触,所述处理器62能根据第一显示区域42上的触控面积小于所述第二显示区域44上的触控面积而判断出所述第一显示区域42面朝使用者,即,判断所述摄像头50需要进行自拍。通过大拇指对所述第一显示区域42施加外力,驱动所述第一外框22往靠近弯折件26的方向滑动而与所述第二外框24错位,所述第二磁体84沿所述固定槽224往靠近弯折件26的方向滑动且保持与所述磁性吸条82呈吸附状态,所述触发件72朝邻近所述位置感应器70移动,直至所述触发件72正对所述位置感应器70时,所述位置感应器70被触发而发送信号给所述处理器62,所述处理器62接收信号并控制所述摄像头50开启,且开启所述第一显示区域42的显示并关闭所述第二显示区域44的显示。此时,所述摄像头50外露且面朝使用者,所述第一显示区域42能方便使用者查看所述摄像头50拍摄的景物,以方便使用者进行自拍,操作简单,使用方便。
通过大拇指给所述第一显示区域42施力,驱动所述第一外框22往远离弯折件26的方向滑动而复位至对称折弯状态,所述第二磁体84沿所述固定槽224向上滑动且保持与所述磁性吸条82呈吸附状态,所述触发件72朝远离所述位置感应器70移动,使所述触发件72停止触发所述位置感应器70,即,所述位置感应器70不再发送信号给所述处理器62,所述处理器62停止控制所述摄像头50开启。
请参阅图5,当使用所述移动终端100进行后置拍摄时,先将所述移动终端100沿所述可折弯件26对称折弯,使所述第一外框22的背面与所述第二外框24的背面相接触,所述摄像头50收容于所述镜头收容槽222内,以及所述第二磁体84收容于所述固定槽224内并与所述磁性吸条82相吸附;使用者单手握持对折后的所述移动终端100,使所述移动终端100的第二显示区域44面朝使用者,即,使用者的大拇指与所述柔性屏40的第二显示区域44接触,其他手指与所述柔性屏40的第一显示区域42接触,所述处理器62能根据第二显示区域44上的触控面积小于所述第一显示区域42上的触控面积而判断出所述第二显示区域44面朝使用者,即,判断所述摄像头50需要进行后置拍摄;通过除大拇指外的其他手指对所述第一显示区域42施加外力,驱动所述第一外框22往靠近弯折件26的方向滑动而与所述第二外框24错位,所述第二磁体84沿所述固定槽224往靠近弯折件26的方向滑动且保持与所述磁性吸条82呈吸附状态,所述触发件72朝邻近所述位置感应器70移动,直至所述触发件72正对所述位置感应器70时,所述位置感应器70被触发而发送信号给所述处理器62,所述处理器62接收信号并控制所述摄像头50开启,且开启所述第二显示区域44的显示并关闭所述第一显示区域42的显示。此时,所述摄像头50外露且背朝 使用者,所述第二显示区域44方便使用者查看所述摄像头50拍摄的景物,从而方便使用者进行后置拍摄,操作简单,使用方便。
通过除大拇指外的其他手指给所述第一显示区域42施力,驱动所述第一外框22往远离弯折件26的方向滑动而复位至对称折弯状态,所述第二磁体84沿所述固定槽224向上滑动且保持与所述磁性吸条82呈吸附状态,所述触发件72朝远离所述位置感应器70移动,使所述触发件72停止触发所述位置感应器70,即,所述位置感应器70不再发送信号给所述处理器62,所述处理器62停止控制所述摄像头50开启。
在其他的操作方式中,也可以直接将所述移动终端100沿所述可折弯件26非对称折弯,使所述第一外框22与所述第二外框24的位置错开,即,所述第一外框22的外侧位于所述摄像头50的下方,以使所述摄像头50外露,所述第二磁体84收容于所述固定槽224内并与所述磁性吸条82相吸附,且所述触发件72正对所述位置感应器70,所述触发件72触发所述位置感应器70而发送信号给所述处理器62,所述处理器62接收信号并控制所述摄像头50启动,并控制所述第一显示区域42或第二显示区域44显示即可。
请参阅图6,图6是本申请第二实施例中的移动终端的结构示意图。本申请移动终端的第二实施例的结构与第一实施例的结构相似,不同之处在于:第二实施例中,所述第一外框22或第二外框24上设置有一压力感应器70a,所述压力感应器70a电性连接于所述处理器62,当所述第一外框22与所述第二外框24折弯且所述摄像头50外露时,所述压力感应器70a被触发,所述压力感应器70a发送信号给所述处理器62,所述处理器62接收所述压力感应器70a发送的信号并控制所述摄像头50开启,并控制所述柔性屏40显示。
所述压力感应器70a可以设置于所述第一外框22的背面,也可以设置于所述第二外框24的背面。当所述第一外框22与所述第二外框24折弯后且所述摄像头50外露时,所述压力感应器70a被触发。
所述第一外框22或第二外框24的背面开设有一滑槽246,所述滑槽246沿所述第一外框22与第二外框24的相对滑动的方向延伸,即,所述滑槽246沿垂直于所述可折弯件26的折线的长度方向延伸。所述滑槽246远离所述弯折件26的一侧与所述摄像头50靠近所述弯折件26的一侧相邻接或间隔预设距离。所述压力感应器70a设置于所述收容槽246内,所述第二外框24或第一外框22凸设有凸块72a,即,所述第一外框22上开设有所述滑槽246时,所述第二外框24上就凸设有凸块72a;当所述第二外框24上开设有滑槽246时,所述第一外框22上就凸设有凸块72a。所述第一外框22与所述第二外框24折弯后,当所述凸块72a插入所述收容槽246内并抵压所述压力感应器70a时,所述摄像头50外露,所述压力感应器70a被触发而发送信号给所述处理器62,所述处理器62接收信号并控制所述摄像头50开启,并控制面朝使用者的第一显示区域42或第二显示区域44显示。
本实施例中,所述第二外框24的背面开设有滑槽246,所述滑槽246沿所述第一外框22与第二外框24的相对滑动的方向延伸。所述压力感应器70a设置于所述滑槽246内并邻近所述可折弯件26的一端。所述第一外框22的背面凸设有凸块72a,所述凸块72a邻近所述第一外框22的外侧处。当所述第一外框22与所述第二外框24对称折弯后,并推动所述 第二外框24使其与所述第一外框22错位,所述凸块72a收容于所述滑槽246内并在所述滑槽246内滑动直至所述摄像头50外露时,所述凸块72a抵压至所述压力感应器70a,以触发所述压力感应器70a。由于所述凸块72a能收容于所述滑槽246内,因此,所述第一外框22与所述第二外框24折弯后的厚度不会增加,且所述滑槽246具有导滑的功能,能限定所述第一外框22与所述第二外框24的相对滑动方向。
所述移动终端100的第二实施例的使用方法与第一实施例的使用方法相同,在此不再描述。
在其他实施例中,所述第一外框22与第二外框24之间也可以设置有光学传感器,所述光感应器电性连接于所述处理器62。当所述第一外框22与所述第二外框24折弯触发所述光学传感器时,所述光学传感器发送信号给所述处理器62,所述处理器62接收信号并控制所述摄像头50拍摄,并控制所述柔性屏40显示。
请参阅图7,图7是本申请第三实施例中的移动终端的结构示意图。本申请移动终端的第三实施例的结构与第一实施例的结构相似,不同之处在于:第三实施例中的定位机构与第一实施例中的定位机构不同,在第三实施例中,所述定位机构80a包括开设于所述第一外框22的背面或第二外框24的背面的一导槽82a,以及设置于所述第二外框24的背面或第一外框22的背面的定位钩84a。即,当所述第一外框22的背面开设有所述导槽82a时,所述第二外框24的背面凸设有所述定位钩84a;当所述第二外框24的背面开设有所述导槽82a时,所述第一外框22的背面凸设有所述定位钩84a。当所述第一外框22与所述第二外框24相对滑动错位时,所述定位钩84a滑动地配合于所述导滑槽82a内,且所述定位钩84a不脱离所述导槽82a。
本实施例中,所述第二外框24的背面开设有所述导槽82a,所述导槽82a邻近所述第二外框24的外侧,所述导槽82a沿所述第一外框22与所述第二外框24相对滑动的方向延伸,即,所述导槽82a沿垂直于所述可折弯件26的折弯线的长度方向延伸。所述导槽82a的横截面呈倒“T”形,所述导槽82a远离所述可折弯件26的一端开设有一插入孔85,所述插入孔85连通所述导槽82a。所述第一外框22的背面远离所述可折弯件26的一侧凸设有所述定位钩84a,所述定位钩84a的横截面呈“T”形。
当使用第三实施例的移动终端自拍时,先将所述移动终端100沿所述可折弯件26对称折弯,使所述第一外框22的背面与所述第二外框24的背面相接触,所述摄像头50收容于所述镜头收容槽222内,以及所述定位钩84a插入所述插入孔85内;使用者单手握持对折后的所述移动终端100,使所述移动终端100的第一显示区域42面朝使用者,即,使用者的大拇指与所述柔性屏40的第一显示区域42接触,其他手指与所述柔性屏40的第二显示区域44接触;通过大拇指对所述第一显示区域42施加外力,驱动所述第一外框22往靠近弯折件26的方向滑动而与所述第二外框24错位,所述定位钩84a沿所述导槽82a往靠近弯折件26的方向滑动且滑动地钩住所述导槽82a相对的两侧壁,以防止所述第一外框22与所述第二外框24分离;所述触发件72朝邻近所述位置感应器70移动,直至所述触发件72正对所述位置感应器70时,所述位置感应器70被触发而发送信号给所述处理器62,所 述处理器62接收信号并控制所述摄像头50开启,且开启所述第一显示区域42的显示并关闭所述第二显示区域44的显示。此时,所述摄像头50外露且面朝使用者,所述第一显示区域42方便使用者查看所述摄像头50拍摄的景物,从而方便使用者进行自拍,操作简单,使用方便。
通过大拇指给所述第一显示区域42施力,使所述第一外框22往远离弯折件26的方向滑动而复位至对称折弯状态,所述定位钩84a沿所述导槽82a滑动至收容于所述插入孔85内,所述触发件72朝远离所述位置感应器70移动,使所述触发件72停止触发所述位置感应器70,即,所述位置感应器70不再发送信号给所述处理器62,所述处理器62停止控制所述摄像头50开启。
当使用所述移动终端100后置拍摄时,先将所述移动终端100沿所述可折弯件26对称折弯,使所述第一外框22的背面与所述第二外框24的背面相接触,所述摄像头50收容于所述镜头收容槽222内,以及所述定位钩84a插入所述插入孔85内;使用者单手握持对折后的所述移动终端100,使所述移动终端100的第二显示区域44面朝使用者,即,使用者的大拇指与所述柔性屏40的第二显示区域44接触,其他手指与所述柔性屏40的第一显示区域42接触;通过除大拇指外的其他手指向下搓动所述第一显示区域42,使所述第一外框22向下滑动而与所述第二外框24错位,所述定位钩84a沿所述导槽82a向下滑动且滑动地钩住所述导槽82a相对的两侧壁,以防止所述第一外框22与所述第二外框24分离;所述触发件72朝邻近所述位置感应器70移动,直至所述触发件72正对所述位置感应器70时,所述位置感应器70被触发而发送信号给所述处理器62,所述处理器62接收信号并控制所述摄像头50开启,且开启所述第二显示区域44并关闭所述第一显示区域42。此时,所述摄像头50外露且背朝使用者,所述第二显示区域44方便使用者查看所述摄像头50拍摄的景物,从而方便使用者进行后置拍摄,操作简单,使用方便。
请参阅图8,图8是本申请第四实施例中的移动终端的结构示意图。本申请移动终端的第四实施例的结构与第三实施例的结构相似,不同之处在于:在第四实施例中,定位钩84a可转动地连接于所述第一外框22或第二外框24,所述第一外框22或第二外框24的背面于邻近所述定位钩84a处开设有一收纳槽87,所述收纳槽87用于收纳所述定位钩84a。当所述移动终端100在展平的状态下,所述定位钩84a转动收纳于所述收纳槽87内,以减少所述移动终端的体积;当所述移动终端需要折弯时,先将所述定位钩84a从所述收纳槽87内转出,以方便所述定位钩84a插入所述导槽82a内。
请参阅图9,图9是本申请第五实施例中的移动终端的结构示意图。本申请移动终端的第五实施例的结构与第一实施例的结构相似,不同之处在于:在第五实施例中,所述移动终端省略了位置感应器70,而是在所述柔性屏40的第一显示区域42或第二显示区域44上设置有触控图标46,通过点击所述触控图标46能开启或关闭所述摄像头50,同时,所述处理器62控制面朝使用者的第一显示区域42或第二显示区域44显示或关闭,以方便使用者操作。
在其他实施例中,在所述壳体20上设置有电性连接于所述处理器62的开关按键,按 压所述开关按键可以开启或关闭所述摄像头50,同时,所述处理器62控制面朝使用者的第一显示区域42或第二显示区域44显示或关闭,以方便使用者操作。
请参阅图10,图10是本申请的移动终端的拍照方法的流程图。本申请还提供一种移动终端的拍照方法,适用于移动终端100,所述移动终端100包括壳体20及设置于所述壳体20上的柔性屏40,所述壳体20包括可折弯件26,所述壳体20及所述柔性屏40通过所述可折弯件26能折弯,所述壳体20背朝所述柔性屏40的侧面设置有摄像头50,所述拍照方法包括:
当所述移动终端100非对称折弯,判断所述摄像头50是否外露;以及
当所述摄像头50外露时,控制所述摄像头50进行前置拍照或后置拍照。
当所述移动终端100非对称折弯,判断所述摄像头50是否外露,包括:移动终端100先对称折弯使得摄像头50被覆盖,移动终端100再错开滑动至非对称折弯,并判断摄像头50是否外露。如果判断出摄像头50已经外露,则所述移动终端100控制摄像头50进行前置拍照或后置拍照;如果判断出摄像头50没有外露,则续继错开滑动并再次判断所述摄像头50是否外露。
所述壳体20还包括第一外框22及第二外框24,所述可折弯件26连接于所述第一外框22与所述第二外框24之间,所述柔性屏40设置于所述第一外框22、第二外框24及所述可折弯件26上,所述摄像头50设置所述第一外框22背朝所述柔性屏40的侧面上,所述第一外框22或所述第二外框24上设置有用于检测所述摄像头50是否外露的位置感应器70,所述拍照方法包括:
当所述摄像头50外露时,所述位置感应器70被触发;
当所述位置感应器70被触发时,控制所述摄像头50进行前置拍照或后置拍照。
在其他实施例中,所述壳体20还包括第一外框22及第二外框24,所述可折弯件26连接于所述第一外框22与所述第二外框24之间,所述柔性屏40设置于所述第一外框22、第二外框24及所述可折弯件26上,所述摄像头50设置所述第一外框22背朝所述柔性屏40的侧面上,所述第一外框22或所述第二外框24上设置有用于检测所述摄像头50是否外露的压力感应器70a;所述拍照方法包括:
当所述摄像头50外露时,所述压力感应器70a被触;
当所述压力传感器70a被触发时,控制所述摄像头50进行前置后或后置拍照。
在其他实施例中,所述壳体20还包括第一外框22及第二外框24,所述可折弯件26连接于所述第一外框22与所述第二外框24之间,所述柔性屏40设置于所述第一外框22、第二外框24及所述可折弯件26上,所述摄像头50设置所述第一外框22背朝所述柔性屏40的侧面上,所述第一外框22或所述第二外框24上设置有用于检测所述摄像头50是否外露的光学传感器;所述拍照方法包括:
当所述摄像头50外露时,所述光学传感器被触发;
当所述光学传感器被触发时,控制所述摄像头50进行前置或后置拍照。
所述柔性屏40包括第一显示区域42及第二显示区域44,所述第一显示区域42位于所 述第一外框22的正面,所述第二显示区域44位于所述第二外框24的正面;所述拍照方法包括:
根据所述第一显示区域42和第二显示区域44被触控面积判断所述第一显示区域42或第二显示区域44面朝使用者;
当所述第一显示区域42面朝使用者,且所述摄像头50外露时,控制所述摄像头50进行后置拍照;或当所述二显示区域44面朝使用者,且所述摄像头50外露时,控制所述摄像头50进行前置拍照。
当所述摄像头50进行后置拍照时,控制开启所述第一显示区域42的显示并关闭所述第二显示区域44的显示;或当所述摄像头50进行前置拍照时,控制开启所述第二显示区域44的显示并关闭所述第一显示区域42的显示。
当所述第一显示区域42被触控的面积大于第二显示区域44被触控的面积时,判断所述第二显示区域44面朝使用者。
以上所述是本申请的优选实施方式,应当指出,对于本技术领域的普通技术人员来说,在不脱离本发明原理的前提下,还可以做出若干改进和润饰,这些改进和润饰也视为本发明的保护范围。

Claims (36)

  1. 一种移动终端,包括壳体及设置于所述壳体上的柔性屏,所述壳体包括可折弯件,所述壳体及所述柔性屏通过所述可折弯件能折弯,其特征在于,所述壳体背朝所述柔性屏的侧面设置有摄像头,当所述移动终端非对称折弯时,所述摄像头外露以用于前置拍摄或后置拍摄。
  2. 如权利要求1所述的移动终端,其特征在于,所述壳体还包括第一外框及第二外框,所述可折弯件连接于所述第一外框与所述第二外框之间,所述柔性屏设置于所述第一外框、第二外框及所述可折弯件上,所述摄像头设置所述第一外框或第二外框背朝所述柔性屏的侧面上。
  3. 如权利要求2所述的移动终端,其特征在于,所述摄像头邻近所述第一外框或第二外框的外侧处,当所述第一外框与所述第二外框通过所述可折弯件折弯并错位时,能使所述摄像头外露。
  4. 如权利要求2所述的移动终端,其特征在于,所述移动终端对称弯折之后,第一外框上的摄像头被第二外框所覆盖,第一外框与第二外框再错开滑动至非对称折弯时,第一外框上的摄像头外露。
  5. 如权利要求2或3所述的移动终端,其特征在于,所述第二外框或所述第一外框的背面开设有对应所述摄像头的镜头收容槽,所述镜头收容槽用于收容所述摄像头。
  6. 如权利要求2或3所述的移动终端,其特征在于,所述壳体内设置有主板,所述主板上设置有电性连接于所述柔性屏及所述摄像头的处理器,所述处理器控制所述柔性屏及所述摄像头。
  7. 如权利要求6所述的移动终端,其特征在于,所述柔性屏包括第一显示区域及第二显示区域,所述第一显示区域位于所述第一外框的正面,所述第二显示区域位于所述第二外框的正面,所述处理器能控制所述第一显示区域及第二显示区域分别显示或关闭。
  8. 如权利要求7所述的移动终端,其特征在于,所述第一外框与所述第二外框折弯后,使所述第一显区域或第二显示区域面朝使用者,所述处理器控制所述第一显示区域或所述第二显示区域显示或关闭。
  9. 如权利要求8所述的移动终端,其特征在于,所述第一显示区域或第二显示区域用于显示所述摄像头拍摄的景物。
  10. 如权利要求7所述的移动终端,其特征在于,所述第一外框或第二外框上设置有位置感应器,所述位置感应器电性连接于所述处理器,当所述第一外框与所述第二外框折弯触发所述位置感应器时,所述位置感应器发送信号给所述处理器,所述处理器接收信号并控制所述摄像头开启,并控制所述柔性屏显示。
  11. 如权利要求10所述的移动终端,其特征在于,所述位置感应器为设置于所述第一外框或第二外框的背面的霍尔传感器,所述第二外框或第一外框的背面设置有第一磁体,当所述第一外框与所述第二外框折弯使所述第一磁体触发所述霍尔传感器而发送信号给所述处理器。
  12. 如权利要求11所述的移动终端,其特征在于,所述摄像头设置于所述第一外框上,所述第一外框与所述第二外框对称折弯后,驱动所述第二外框滑动使其与所述第一外框错位,直至所述摄像头外露,所述第一磁体触发所述位置感应器。
  13. 如权利要求11所述的移动终端,其特征在于,所述摄像头设置于所述第二外框上,所述第一外框与所述第二外框对称折弯后,驱动所述第一外框滑动使其与所述第二外框错位,直至所述摄像头外露,所述第一磁体触发所述位置感应器。
  14. 如权利要求11所述的移动终端,其特征在于,所述第一磁体为磁铁。
  15. 如权利要求7所述的移动终端,其特征在于,所述第一外框或第二外框上设置有压力感应器,所述压力感应器电性连接于所述处理器,当所述第一外框与所述第二外框折弯而触发所述压力感应器时,所述压力感应器发送信号给所述处理器,所述处理器接收信号并控制所述摄像头启动,并控制所述柔性屏显示。
  16. 如权利要求15所述的移动终端,其特征在于,所述第一外框或第二外框的背面开设有滑槽,所述压力感应器设置于所述滑槽内,所述第二外框或第一外框凸设有凸块,所述第一外框与所述第二外框折弯后,当所述凸块插入所述滑槽内并抵压所述压力感应器时,所述压力感应器被触发。
  17. 如权利要求16所述的移动终端,其特征在于,所述滑槽沿垂直于所述第一外框与第二外框相对滑动的方向延伸,所述压力感应器邻近所述可折弯件的一端,所述第一外框与所述第二外框对称折弯后,驱动所述第二外框使其与所述第一外框错位,所述凸块在所述滑槽内滑动,直至所述摄像头外露时,所述凸块抵压至所述压力感应器。
  18. 如权利要求7所述的移动终端,其特征在于,所述第一显示区域或第二显示区域上设置有触控图标,点击所述触控图标开启所述摄像头。
  19. 如权利要求2或3所述的移动终端,其特征在于,所述第一外框与所述第二外框之间设置有定位机构,所述定位机构用于在所述第一外框与所述第二外框折弯后防止所述第一外框与所述第二外框分离。
  20. 如权利要求19所述的移动终端,其特征在于,所述定位机构包括设置于所述第一外框或第二外框上的磁性吸条及对应所述磁性吸条设置于所述第二外框或第一外框上的第二磁体,所述第一外框与所述第二外框折弯后,所述第二磁体吸附于所述磁性吸条上。
  21. 如权利要求20所述的移动终端,其特征在于,所述第一外框与所述第二外框折弯后相对滑动错位,所述第二磁体滑动地吸附于所述磁性吸条。
  22. 如权利要求20所述的移动终端,其特征在于,所述磁性吸条沿所述第一外框与所述第二外框的相对滑动方向延伸。
  23. 如权利要求20所述的移动终端,其特征在于,所述第一外框或第二外框的背面沿所述第一外框与所述第二外框的相对滑动的方向开设有固定槽,所述磁性吸条收容于所述固定槽内,所述第二磁体能滑动地收容于所述固定槽内。
  24. 如权利要求20所述的移动终端,其特征在于,所述磁性吸条为铁条,所述第二磁体为磁铁。
  25. 如权利要求19所述的移动终端,其特征在于,所述定位机构包括开设于所述第一外框或第二外框的导槽,以及设置于所述第二外框或第一壳体的定位钩,所述第一外框与所述第二外框滑动错位时,所述定位钩滑动地配合于所述导槽内。
  26. 如权利要求25所述的移动终端,其特征在于,所述定位钩可转动地连接于所述第一外框或第二外框的背面。
  27. 如权利要求25所述的移动终端,其特征在于,所述第一外框或第二外框的背面邻近所述定位钩处开设有收纳槽,所述定位钩能收纳于所述收纳槽内。
  28. 如权利要求1所述的移动终端,其特征在于,所述摄像头为双摄像头或多摄像头。
  29. 一种拍照方法,适用于移动终端,所述移动终端包括壳体及设置于所述壳体上的柔性屏,所述壳体包括可折弯件,所述壳体及所述柔性屏通过所述可折弯件能折弯,所述壳体背朝所述柔性屏的侧面设置有摄像头,其特征在于,所述拍照方法包括:
    当所述移动终端非对称折弯,判断所述摄像头是否外露;以及
    当所述摄像头外露时,控制所述摄像头进行前置拍照或后置拍照。
  30. 如权利要求29所述的拍照方法,其特征在于,当所述移动终端非对称折弯,判断所述摄像头是否外露,包括:移动终端先对称折弯使得摄像头被覆盖,移动终端再错开滑 动至非对称折弯,并判断摄像头是否外露。
  31. 如权利要求29所述的拍照方法,其特征在于,所述壳体还包括第一外框及第二外框,所述可折弯件连接于所述第一外框与所述第二外框之间,所述柔性屏设置于所述第一外框、第二外框及所述可折弯件上,所述摄像头设置所述第一外框背朝所述柔性屏的侧面上,所述第一外框或所述第二外框上设置有用于检测所述摄像头是否外露的位置感应器,所述拍照方法包括:
    当所述摄像头外露时,所述位置感应器被触发;
    当所述位置感应器被触发时,控制所述摄像头进行前置拍照或后置拍照。
  32. 如权利要求29所述的拍照方法,其特征在于,所述壳体还包括第一外框及第二外框,所述可折弯件连接于所述第一外框与所述第二外框之间,所述柔性屏设置于所述第一外框、第二外框及所述可折弯件上,所述摄像头设置所述第一外框背朝所述柔性屏的侧面上,所述第一外框或所述第二外框上设置有用于检测所述摄像头是否外露的压力感应器;所述拍照方法包括:
    当所述摄像头外露时,所述压力感应器被触;
    当所述压力传感器被触发时,控制所述摄像头进行前置后或后置拍照。
  33. 如权利要求29所述的拍照方法,其特征在于,所述壳体还包括第一外框及第二外框,所述可折弯件连接于所述第一外框与所述第二外框之间,所述柔性屏设置于所述第一外框、第二外框及所述可折弯件上,所述摄像头设置所述第一外框背朝所述柔性屏的侧面上,所述第一外框或所述第二外框上设置有用于检测所述摄像头是否外露的光学传感器;所述拍照方法包括:
    当所述摄像头外露时,所述光学传感器被触发;
    当所述光学传感器被触发时,控制所述摄像头进行前置或后置拍照。
  34. 如权利要求31至33任意一项所述的拍照方法,其特征在于,所述柔性屏包括第一显示区域及第二显示区域,所述第一显示区域位于所述第一外框的正面,所述第二显示区域位于所述第二外框的正面;所述拍照方法包括:
    根据所述第一显示区域和第二显示区域被触控面积判断所述第一显示区域或第二显示区域面朝使用者;
    当所述第一显示区域面朝使用者,且所述摄像头外露时,控制所述摄像头进行后置拍照;或当所述二显示区域面朝使用者,且所述摄像头外露时,控制所述摄像头进行前置拍照。
  35. 如权利要求34所述的拍照方法,其特征在于,当所述摄像头进行后置拍照时,控制开启所述第一显示区域的显示并关闭所述第二显示区域的显示;或当所述摄像头进行前置拍照时,控制开启所述第二显示区域的显示并关闭所述第一显示区域的显示。
  36. 如权利要求34所述的拍照方法,其特征在于,当所述第一显示区域被触控的面积大于第二显示区域被触控的面积时,判断所述第二显示区域面朝使用者。
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Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US20150141074A1 (en) * 2013-11-19 2015-05-21 Samsung Display Co., Ltd. Foldable calling device
CN104980544A (zh) * 2015-07-13 2015-10-14 广东欧珀移动通信有限公司 一种两端可折弯的柔性屏移动终端
CN204795174U (zh) * 2015-07-13 2015-11-18 广东欧珀移动通信有限公司 一种两端可折弯的柔性屏移动终端
CN105100312A (zh) * 2015-07-13 2015-11-25 广东欧珀移动通信有限公司 一种可隐藏摄像头的柔性屏移动终端
US20170094168A1 (en) * 2015-09-30 2017-03-30 Samsung Electronics Co., Ltd Device and method for processing image in electronic device

Family Cites Families (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
KR20170028193A (ko) * 2015-09-03 2017-03-13 삼성전자주식회사 히든 디스플레이를 갖는 전자 장치 및 정보 표시 방법
CN107180597B (zh) * 2017-05-23 2019-09-27 京东方科技集团股份有限公司 显示装置及其控制电路
CN108200229A (zh) * 2017-11-30 2018-06-22 努比亚技术有限公司 柔性屏终端的拍摄方法、终端和计算机可读存储介质

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US20150141074A1 (en) * 2013-11-19 2015-05-21 Samsung Display Co., Ltd. Foldable calling device
CN104980544A (zh) * 2015-07-13 2015-10-14 广东欧珀移动通信有限公司 一种两端可折弯的柔性屏移动终端
CN204795174U (zh) * 2015-07-13 2015-11-18 广东欧珀移动通信有限公司 一种两端可折弯的柔性屏移动终端
CN105100312A (zh) * 2015-07-13 2015-11-25 广东欧珀移动通信有限公司 一种可隐藏摄像头的柔性屏移动终端
US20170094168A1 (en) * 2015-09-30 2017-03-30 Samsung Electronics Co., Ltd Device and method for processing image in electronic device

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