CN110417957B - Functional module, electronic device and control method of electronic device - Google Patents

Abstract

The application discloses functional unit, electronic device and electronic device's control method, functional unit includes base and slip module, the base is equipped with the slide, the slide has first stretching out the port and relative first stretching out the second of port setting and stretching out the port, the slip module includes slider, first function piece, first antenna radiator, second function piece and second antenna radiator, slider sliding connection the slide to first stiff end and second stiff end have, first function piece with first antenna radiator is fixed in first stiff end can stretch out along with stating first stiff end first stretching out the port, the second function piece with second antenna radiator is fixed in the second stiff end can be followed the second stiff end stretches out the port. The sliding part of the functional component realizes multiple sliding modes and multiple functions, and improves user experience.

Description

Functional module, electronic device and control method of electronic device

Technical Field

The present disclosure relates to the field of electronic devices, and particularly, to a functional module, an electronic device, and a control method of the electronic device.

Background

At present, telescopic functional devices exist in mobile phones, and the functional devices can be cameras, receivers, flash lamps, photosensitive elements and the like. However, the sliding mode of the functional device is single, so that the use function of the functional device is simplified, and the user experience is reduced.

Disclosure of Invention

The application provides a functional assembly, an electronic device and a control method of the electronic device.

The application provides a functional unit, wherein, functional unit includes base and slip module, the base is equipped with the slide, the slide has first stretching out port and relative the first second that stretches out the port setting stretches out the port, the slip module includes slider, first functional part, first antenna radiator, second functional part and second antenna radiator, slider sliding connection the slide to have the first stiff end that can stretch out the first stretching out port and the second stiff end that can stretch out the port of second, the second stiff end is relative first stiff end sets up, first functional part with first antenna radiator is fixed in first stiff end can stretch out along with first stiff end, second functional part with second antenna radiator is fixed in the second stiff end, the second protrusion port may be protruded with the second fixing end.

The application further provides an electronic device, wherein, electronic device includes foretell functional unit, electronic device still includes fixed connection the display screen of base, the slip direction of slider is parallel the display screen, the display screen covers the slide, first antenna radiator with first function piece is followed the slider slides can with the display screen is overlapped mutually or is expanded mutually, second antenna radiator with the second function piece is followed the slider slides can with the display screen is expanded mutually or is overlapped mutually.

The application further provides a control method of an electronic device, wherein the electronic device includes a functional component, the functional component includes a base, a sliding module and a driving mechanism, the sliding module includes a sliding part, a first functional part, a first antenna radiator, a second functional part and a second antenna radiator, the sliding part is slidably connected to the base, the first functional part and the first antenna radiator are fixed to one end of the sliding part, the second functional part and the second antenna radiator are fixed to the other end of the sliding part, and the driving mechanism is fixed to the base to drive the sliding part to slide;

the control method of the electronic device comprises the following steps:

receiving a first extension signal, detecting whether the sliding displacement of the sliding part relative to the base meets a first threshold value, if so, controlling the driving mechanism to drive the sliding part to slide along a first direction according to the first extension signal so as to drive the first antenna radiator and the first functional part to extend relative to the base;

receiving a first contraction signal, detecting whether the sliding displacement of the sliding part relative to the base meets a second threshold value, if so, controlling the driving mechanism to drive the sliding part to slide along a second direction according to the first contraction signal so as to drive the first antenna radiator and the first functional part to contract relative to the base, wherein the second direction is opposite to the first direction;

receiving a second extension signal, detecting whether the sliding displacement of the sliding part relative to the base meets a first threshold value, if so, controlling the driving mechanism to drive the sliding part to slide along a second direction according to the first extension signal so as to drive the second antenna radiator and the second functional part to extend relative to the base;

and receiving a second contraction signal, detecting whether the sliding displacement of the sliding part relative to the base meets a third threshold value, and if so, controlling the driving mechanism to drive the sliding part to slide along a first direction according to the first contraction signal so as to drive the second antenna radiation body and the second functional part to contract relative to the base.

The application provides a control method of function block, electronic device and electronic device, through the slider drives first antenna radiator with first function piece stretches out first port of stretching out, so that first antenna radiator with first function piece realizes a service function, the slider can also drive second antenna radiator with the second function piece stretches out the second port of stretching out, so that second antenna radiator with second function piece realizes another kind of service function, promptly function block's slider realizes multiple sliding mode to realize multiple functions, improve user experience.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

FIG. 1 is a schematic diagram of functional components provided by an embodiment of the present application;

FIG. 2 is a schematic diagram of another state of a functional component provided by an embodiment of the present application;

FIG. 3 is a schematic diagram of another state of a functional component provided by an embodiment of the present application;

FIG. 4 is a schematic cross-sectional view of a functional assembly provided by an embodiment of the present application;

FIG. 5 is another schematic cross-sectional view of a functional assembly provided by an embodiment of the present application;

FIG. 6 is another schematic cross-sectional view of a functional assembly provided by an embodiment of the present application;

FIG. 7 is another schematic cross-sectional view of a functional assembly provided by an embodiment of the present application;

FIG. 8 is another schematic cross-sectional view of a functional assembly provided by an embodiment of the present application;

FIG. 9 is another schematic cross-sectional view of a functional assembly provided by an embodiment of the present application;

FIG. 10 is another schematic cross-sectional view of a functional assembly provided by an embodiment of the present application;

FIG. 11 is another schematic cross-sectional view of a functional assembly provided by an embodiment of the present application;

FIG. 12 is a schematic diagram of an electronic device provided by an embodiment of the present application;

fig. 13 is a flowchart illustrating a control method of an electronic device according to an embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without inventive step, are within the scope of the present disclosure.

In the description of the embodiments of the present application, it should be understood that the terms "thickness" and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience in describing the present application and simplifying the description, and do not imply or indicate that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present application.

Referring to fig. 1, fig. 2 and fig. 3, the present application provides a functional assembly 100, where the functional assembly 100 includes a base 10 and a sliding module 20. The base 10 is provided with a chute 11, and the chute 11 has a first outlet port 111 and a second outlet port 112 disposed opposite to the first outlet port 111. The sliding module 20 includes a sliding member 30, a first functional element 40, a first antenna radiator 50, a second functional element 60, and a second antenna radiator 70. The sliding member 30 is slidably connected to the slide rail 11, and has a first fixed end 31 that can extend out of the first protruding port 111 and a second fixed end 112 that can extend out of the second protruding port 112. The second fixing end 112 is disposed opposite to the first fixing end 111. The first functional element 40 and the first antenna radiator 50 are fixed to the first fixing end 31, and may extend out of the first extending port 111 along with the first fixing end 31. The second functional element 60 and the second antenna radiator 70 are fixed to the second fixing end 112, and can extend out of the second extending port 112 along with the second fixing end 112.

It is understood that the slider 30 slides back and forth at the first and second outlet ports 111 and 112. When the sliding member 30 drives the first functional element 40 and the first antenna radiator 50 to extend out of the base 10, the second functional element 60 and the second antenna radiator 70 shrink with respect to the base 10 along with the sliding member 30. When the sliding member 30 drives the second functional part 60 and the second antenna radiator 70 to extend out of the base 10, the first functional part 40 and the first antenna radiator 50 shrink relative to the base 10 along with the sliding member 30. The functional component 100 may be a mobile phone, a tablet computer, or a mobile communication device.

The first antenna radiator 50 and the first functional element 40 are driven by the sliding member 30 to extend out of the first extending port 111, so that the first antenna radiator 50 and the first functional element 40 can realize a use function. The sliding element 30 may further drive the second antenna radiator 70 and the second functional element 60 to extend out of the second extending port 112, so that the second antenna radiator 70 and the second functional element 60 realize another use function, that is, the sliding element 30 of the functional assembly 100 realizes multiple sliding modes and multiple functions, thereby improving user experience.

Referring to fig. 4 and 5, in the present embodiment, the base 10 includes a bottom plate 12 and a frame 13 fixed to a periphery of the bottom plate 12. The bezel 13 includes a first long side plate 131, a second long side plate 132 disposed opposite to the first long side plate 131, a first short side plate 133, and a second short side plate 134 disposed opposite to the first short side plate 133. The first short side plate 133 and the second short side plate 134 are connected between the first long side plate 131 and the second long side plate 132. The slide 11 is a sliding groove provided on the bottom plate 12 and is disposed near the first short side plate 133. The chute 11 extends through the first long side plate 131 and the second long side plate 132. The first outlet port 111 and the second outlet port 112 are respectively provided on the first long side plate 131 and the second long side plate 132. The chute 11 is located between the first long side plate 131 and the second long side plate 132. An accommodating space 14 is formed inside the frame 13. When the sliding member 30 is completely retracted into the base 10, the first functional element 40, the first antenna radiator 50, the second functional element 60 and the second antenna radiator 70 are accommodated in the accommodating space 14. The frame 13 and the bottom plate 12 protect the first functional element 40, the first antenna radiator 50, the second functional element 60, and the second antenna radiator 70. Of course, in other embodiments, the chute 11 may also extend through the first short side plate 133 and the second short side plate 134, that is, the first output port 111 and the second output port 112 are respectively disposed on the second short side plate 133 and the second short side plate 134.

In this embodiment, the slider 30 includes a bottom portion 33 and a top portion 34 disposed opposite the bottom portion 33. The bottom 33 is slidably connected to the chute 11. The slider 30 has a rectangular block shape. The length direction of the slider 30 is parallel to the first short side plate 133. The distance between the end face of the first fixed end 31 of the sliding member 30 and the end face of the second fixed end 32 is substantially equal to the distance between the outer side face of the first long side plate 131 and the outer side face of the second long side plate 132. The sliding member 30 is completely retracted with respect to the base 10, the first fixing end 31 covers the first extending port 111, and the second fixing end 32 covers the second extending port 112. The first functional element 40, the first antenna radiator 50, the second functional element 60 and the second antenna radiator 70 are fixed to the top portion 34 of the slider 30. The first functional element 40 is an image pickup device. The second functional element 60 is a receiver. The first feature 40 is photographed in an orientation that is substantially perpendicular to the base plate 12. The second function 60 emits sound in the same direction as the first function 40. Of course, in other embodiments, the first functional element 40 may also be an infrared distance sensor and the second functional element 60 may also be a microphone.

Further, referring to fig. 5 and fig. 7, the first fixing end 31 is provided with a first accommodating cavity 311, and the first antenna radiator 50 and the first functional element 40 are fixed in the first accommodating cavity 311.

In the present embodiment, the first receiving cavity 311 has an opening facing substantially perpendicular to the bottom plate 12. The first functional element 40 obtains external shooting light through the opening of the first accommodating cavity 311. The first antenna radiator 50 is attached to the inner side wall of the first accommodating cavity 311, and the first antenna radiator 50 is isolated from the first functional element 40. The first receiving cavity 311 includes a first inner wall 312 parallel to and adjacent to the first short side plate 133, a second inner wall 313 parallel to and adjacent to an end surface of the first fixed end 31, and a third inner wall 314 opposite to the first inner wall 312. The first antenna radiator 50 is sequentially attached to the first inner wall 312, the second inner wall 313 and the third inner wall 314. The branch lengths of the first antenna radiator 50 attached to the first inner wall 312, the second inner wall 313, and the third inner wall 314 are different from each other. The first functional element 40 and the first antenna radiator 50 are blocked from each other by a first ferrite material 41. The first ferrite material 41 shields the electromagnetic signal of the first antenna radiator 50, and prevents the electromagnetic signal of the first antenna radiator 50 from interfering with the first functional member 40. The sliding module 20 further includes a transparent cover plate 21 for covering the opening of the first receiving cavity 311. The side of the light-transmitting cover plate 21 facing the first functional member 40 is coated with an ink layer 22. The ink layer 22 is provided with a hollowed-out area 23 facing the first functional element 40. The ink layer 22 is used to partially cover the first functional element 40 and to cover the area except the area facing the first functional element 40. The hollow area 23 is used for transmitting the shooting light to the first functional element 40. The light-transmitting cover plate 21 protects the first functional element 40 and protects the first antenna radiator 50.

Further, the second fixing end 32 is provided with a second receiving cavity 321 separated from the first receiving cavity 311, and the second antenna radiator 70 and the second functional element 60 are fixed in the second receiving cavity 321.

In the present embodiment, the second receiving cavity 321 has an opening facing substantially perpendicular to the bottom plate 12. The second functional member 60 transmits sound to the outside through the opening of the second receiving cavity 321. The second antenna radiator 70 is attached to the inner sidewall of the second receiving cavity 321, and the second antenna radiator 70 is isolated from the second functional element 50. The second receiving cavity 321 includes a fourth inner wall 322 parallel to and adjacent to the first short side plate 133, a fifth inner wall 323 parallel to and adjacent to an end surface of the second fixed end 32, and a sixth inner wall 324 opposite to the fourth inner wall 322. The second antenna radiator 70 is sequentially attached to the fourth inner wall 322, the fifth inner wall 323, and the sixth inner wall 324. The branch lengths of the second antenna radiator 70 attached to the fourth inner wall 322, the fifth inner wall 323, and the sixth inner wall 324 are different from each other. The second functional element 60 and the second antenna radiator 70 are isolated from each other by the second ferrite material 42. The second ferrite material 42 shields the electromagnetic signal of the second antenna radiator 70, preventing the electromagnetic signal of the second antenna radiator 70 from interfering with the second function 60. The sliding module 20 further includes a cover plate 24 covering the opening of the second receiving cavity 321. The package cover 24 is provided with a sound transmission hole 25 facing the second functional element 60. The sound transmission hole 25 is used for transmitting the sound of the second functional element 60 to the outside of the second receiving cavity 321. The package cover 21 protects the second functional element 60 and protects the second antenna radiator 70.

Further, referring to fig. 7 and 8, the sliding module 20 further includes a first printed circuit board 26, a second printed circuit board 27, a first flexible circuit board 28, and a second flexible circuit board 29. The first printed circuit board 26 is fixed in the first receiving cavity 311, and electrically connects the first antenna radiator 50 and the first functional element 40. The second pcb 27 is fixed in the second receiving cavity 321, and electrically connects the second antenna radiator 70 and the second functional element 60. The first flexible circuit board 28 electrically connects the first printed circuit board 26 and the second printed circuit board 27. The second flexible circuit board 29 electrically connects the second printed circuit board 27 and the base 10.

In this embodiment, the first printed circuit board 26 is fixed at the bottom of the first receiving cavity 311, and the first printed circuit board 26 is provided with an elastic sheet electrically connected to the first antenna radiator 50. The first printed circuit board 26 supports the first functional element 40. The second printed circuit board 27 is provided with a spring sheet, which is electrically connected to the second antenna radiator 70. The second printed circuit board 27 supports the second function 60. The first flexible circuit board 28 is bent from the bottom of the first receiving cavity 311 to the bottom of the second receiving cavity 321. The second flexible circuit board 29 is bent from the bottom of the second receiving cavity 321 to extend to the outside of the second receiving cavity 321. The second flexible circuit board 29 includes a bending portion 291 perpendicular to the bottom plate 12. The side wall of the second receiving cavity 321 is provided with a wire groove 325 penetrating through the sliding member 31. The wire groove 325 extends perpendicularly to the bottom plate 12. The bent portion 291 passes through the wire groove 325. The bent portion 281 transmits an electrical signal to the first printed circuit board 26 and the second printed circuit board 27.

Further, referring to fig. 9, the base 10 is provided with a first positioning portion 15 near the first protruding port 111, and a second positioning portion 16 near the second protruding port 112. The sliding member 30 is provided with a slide positioning portion 35 between the first fixed end 31 and the second fixed end 32. When the slide positioning portion 35 is engaged with the first positioning portion 15, the first fixing end 31 protrudes from the first protruding port 111 and is fixed relative to the base 10. When the slide positioning portion 35 is engaged with the second positioning portion 16, the second fixing end 32 protrudes from the second protruding port 112 and is fixed relative to the base 10.

In the present embodiment, the first positioning portion 15 is a first positioning groove opened on an inner wall of the first protruding port 111. The second positioning portion 16 is a second positioning groove formed in an inner wall of the second protruding port 112. The slide positioning portion 35 is an elastic boss protruding from the outer side wall of the slider 30. The slider 30 includes a partition 331 that partitions the first receiving cavity 311 and the second receiving cavity 321. The partition portion 331 has a slide groove 332 formed in a side wall facing the second short side plate 134. The runner 332 extends in a direction generally parallel to the base plate 12. An elastic member 333 and a latch 334 slidably connected to the slide groove 332 are elastically connected to the slide groove 332. The slide positioning portion 35 is provided at an end of the latch 334 remote from the elastic member 333. When the slide positioning portion 35 is engaged with the first positioning portion 15, the elastic member 333 applies an elastic urging force to the slide positioning portion 35. When the slide positioning portion 35 is engaged with the second positioning portion 16, the elastic member 333 applies an elastic abutting force to the slide positioning portion 35. When the slide positioning portion 35 is retracted into the sliding groove 332, the sliding member 30 can slide relative to the base 10.

Further, referring to fig. 10, the functional assembly 100 further includes a driving mechanism 80, and the driving mechanism 80 includes a screw 81, a nut 82, and a driving device 83. The screw 81 is parallel to the slide 11, and the screw 81 is rotatably connected with the base 10. The nut 82 is screwed with the screw 81 and fixedly connected with the sliding part 30. The driving device 83 is fixed on the base 10 and drives the screw 81 to rotate.

In this embodiment, both ends of the screw 81 are rotatably connected to the base plate 12 through bearings. The nut 82 is fixedly connected to the side wall of the slider 30 facing the second short side plate 134 and opposite to the partition 331. The driving device 83 is mounted on the bottom plate 12 and drives one end of the screw 81 to rotate. The driving device 83 is a motor. The driving device 83 drives the screw rod 81 to rotate, and the screw rod 81 drives the nut 82 to slide relative to the bottom plate 12. The nut 82 drives the sliding part 81 to slide. When the nut 82 slides to an end of the screw 81 close to the first protruding port 111, the first fixed end 31 of the sliding member 30 protrudes out of the base 10 through the first protruding port 111. When the nut 82 slides to the end of the screw 81 close to the second protruding port 112, the second fixed end 32 of the sliding member 30 protrudes out of the base 10 through the second protruding port 112. Of course, in other embodiments, the driving mechanism 80 may also include a telescopic rod, and the telescopic rod drives the sliding member 30 to slide relative to the base 10.

Further, referring to fig. 11, the sliding module 20 further includes a third functional component 34. The third functional component 34 is fixed between the first fixing end 31 and the second fixing end 32, and the third functional component 34 is at least one of an iris recognition module, a face recognition module, a fingerprint recognition module, a flash lamp, a photosensitive sensor, a receiver and a transmitter. The third functional element 34 may extend out of the first extension port 111 with the first functional element 40 and may also extend out of the second extension port 112 with the second functional element 60. The third functional element 34 can be used to transceive signals with the first functional element 40 and can also be used to transceive signals with the second functional element 60, so that the functional assembly 100 can perform multiple functions.

Referring to fig. 12, the present application further provides an electronic device 200, wherein the electronic device 200 includes the functional component 100. The electronic device 200 further comprises a display screen 90 fixedly connected to the base 10. The sliding direction of the sliding member 30 is parallel to the display screen 90, and the display screen 90 covers the slideway 11. The first antenna radiator 50 and the first functional element 40 can be stacked or spread with the display screen 90 by sliding with the sliding member 30. The second antenna radiator 70 and the second functional element 60 can be unfolded or stacked with the display screen 90 by sliding along the sliding member 30.

In this embodiment, the display screen 90 is covered with the base 10. The base 10 is a back shell of the electronic device 200. The housing space 14 holds therein an electronic device, which may be a battery, a motherboard, a central controller, or the like. The display screen 90 covers the accommodating space 14. It will be appreciated that the first functional element 40 slides with the slide member 30 to a position overlying the display screen 90, and the second functional element 60 slides with the slide member 30 to a position overlying the display screen 90. The first functional part 40 and the second functional part 60 are covered by the display screen 90, so that the electronic device 100 is convenient for a user to carry, the display area and the screen occupation ratio of the display screen 90 are improved, and the user experience is improved. The first functional part 40 and the first antenna radiator 50 follow the sliding part 30 slides to the position relative to the display screen 90 is unfolded, the first functional part 40 is exposed from one side of the display screen 90, the first antenna radiator 50 realizes receiving and transmitting signals, and a user can conveniently carry out voice call under the self-photographing condition. The second functional element 50 and the second antenna radiator 50 slide along with the sliding element 30 to a position where they are extended relative to the display screen 90, the second functional element 60 can send out a call sound, and the second antenna radiator 70 can receive a voice call signal, so as to implement a call connection function. The electronic device 200 may be a mobile phone, a tablet computer, a notebook computer, etc.

In this embodiment, the display screen 90 is a full-screen. The display screen 90 has a rectangular plate shape. The display screen 90 has a first short side 91 and a second short side 92 arranged opposite to the first short side 91, and two oppositely arranged long sides 93 connected between the first short side 91 and the second short side 92. The first short side 91 is fixedly connected to the first short side plate 133. The display screen 90 is provided with an extremely narrow non-display area 94 near the first short edge 91 and near the second short edge 92, the non-display area 94 forms a narrow edge of the display screen 90, and the non-display area 94 is only used for providing a driving cable for the display screen 90, so that the display screen 90 obtains display information. The display screen 90 also has a display area 95 connected to the non-display area 94. The slider 30 drives the first functional element 40, the first antenna radiator 50, the second functional element 60 and the second antenna radiator 70 to slide into a position which is overlapped relative to the display screen 90, and the display area 95 partially or completely covers the first functional element 40, the first antenna radiator 50, the second functional element 60 and the second antenna radiator 70, so as to increase the occupation ratio of the display area 95 on the display screen 90. That is, the Display area 95 of the Display screen 90 covers the slide rail 11, and the Display screen 90 may be a Liquid Crystal Display (LCD) or an Organic Light-Emitting Display (OLED).

Referring to fig. 13, the present application further provides a method for controlling an electronic device, where the method for controlling the electronic device includes:

101: receiving a first extending signal, and detecting whether the sliding displacement of the sliding part 30 relative to the base 10 meets a first threshold, if so, controlling the driving mechanism 80 to drive the sliding part 30 to slide along a first direction according to the first extending signal, so as to drive the first antenna radiator 50 and the first functional part 40 to extend relative to the base 10.

102: receiving a first contraction signal, and detecting whether the sliding displacement of the sliding member 30 relative to the base 10 meets a second threshold, if so, controlling the driving mechanism 80 to drive the sliding member 30 to slide along a second direction according to the first contraction signal so as to drive the first antenna radiator 50 and the first functional member 40 to contract relative to the base 10, wherein the second direction is opposite to the first direction.

103: receiving a second extension signal, and detecting whether the sliding displacement of the slider 30 relative to the base 10 meets a first threshold, if so, controlling the driving mechanism 80 to drive the slider 30 to slide along a second direction according to the first extension signal, so as to drive the second antenna radiator 70 and the second functional part 60 to extend relative to the base 10.

104: receiving a second contraction signal, and detecting whether the sliding displacement of the slider 30 relative to the base 10 meets a third threshold, if so, controlling the driving mechanism 80 to drive the slider 30 to slide along a first direction according to the first contraction signal, so as to drive the second antenna radiator 70 and the second functional element 60 to contract relative to the base 10.

It can be understood that the electronic device 200 receives the first extending signal, the first contracting signal, the second extending signal and the second contracting signal through a touch display screen, a receiver, a photosensitive element, a flash lamp and the like, and controls the driving device 83 of the driving mechanism 80 to operate through a central controller, so that the lead screw 81 rotates relative to the base. The first threshold is a sliding displacement amount of the sliding member 30 sliding to be fully contracted relative to the base 10. The second threshold is a sliding displacement amount of the first fixed end 31 of the sliding member 30 sliding to extend relative to the base 10. The third threshold is a sliding displacement amount of the second fixed end 32 of the sliding member 30 sliding to extend relative to the base 10. Through the slider drives first antenna radiator with first function piece stretches out first port of stretching out, so that first antenna radiator with first function piece realizes a service function, the slider can also drive second antenna radiator with second function piece stretches out the second port of stretching out, so that second antenna radiator with second function piece realizes another kind of service function, promptly function assembly's slider realizes multiple sliding mode to realize multiple functions, improve user experience.

The foregoing is an implementation of the embodiments of the present application, and it should be noted that, for those skilled in the art, several modifications and decorations can be made without departing from the principle of the embodiments of the present application, and these modifications and decorations are also regarded as the protection scope of the present application.

Claims (15)

1. A functional unit, its characterized in that, functional unit includes base and slip module, the base is equipped with the slide, the slide has first stretching out port and relative the first second that stretches out the port setting stretches out the port, the slip module includes slider, first functional part, first antenna radiator, second functional part and second antenna radiator, slider sliding connection the slide to have the first stiff end that can stretch out the first port and the second stiff end that can stretch out the second port, the second stiff end is relative first stiff end sets up, first functional part with first antenna radiator is fixed in first stiff end can stretch out the first port along with first stiff end, second functional part with second antenna radiator is fixed in the second stiff end, the second protrusion port may be protruded with the second fixing end.

2. The functional assembly according to claim 1, wherein the first fixing end is provided with a first receiving cavity, and the first antenna radiator and the first functional member are fixed in the first receiving cavity.

3. The functional assembly of claim 2, wherein the first antenna radiator is attached to an inner sidewall of the first cavity, and the first antenna radiator is isolated from the first functional element.

4. The functional assembly according to claim 2, wherein the second fixing end has a second receiving cavity separated from the first receiving cavity, and the second antenna radiator and the second functional element are fixed in the second receiving cavity.

5. The functional assembly according to claim 4, wherein the second antenna radiator is attached to an inner sidewall of the second receiving cavity, and the second antenna radiator is isolated from the second functional device.

6. The functional assembly according to claim 5, wherein the sliding module further includes a first printed circuit board, a second printed circuit board, a first flexible circuit board and a second flexible circuit board, the first printed circuit board is fixed in the first receiving cavity and electrically connects the first antenna radiator and the first functional member, the second printed circuit board is fixed in the second receiving cavity and electrically connects the second antenna radiator and the second functional member, the first flexible circuit board is electrically connected to the first printed circuit board and the second printed circuit board, and the second flexible circuit board is electrically connected to the second printed circuit board and the base.

7. The functional assembly according to any one of claims 1 to 6, wherein the base is provided with a first positioning portion at the first protruding port and a second positioning portion at the second protruding port, and the sliding member is provided with a sliding positioning portion between the first fixing end and the second fixing end, and when the sliding positioning portion is engaged with the first positioning portion, the first fixing end protrudes from the first protruding port and is fixed with respect to the base; when the sliding positioning part is matched with the second positioning part, the second fixing end extends out of the second extending port and is fixed relative to the base.

8. The functional assembly according to claim 7, wherein the first positioning portion is a first positioning groove provided in an inner wall of the first protruding port, the second positioning portion is a second positioning groove provided in an inner wall of the second protruding port, and the slide positioning portion is an elastic projection projecting from an outer side wall of the slide member.

9. The functional assembly according to any one of claims 1 to 6, further comprising a driving mechanism, wherein the driving mechanism comprises a screw rod, a nut and a driving device, the screw rod is parallel to the slideway, the screw rod is rotatably connected with the base, the nut is screwed with the screw rod and is fixedly connected with the sliding part, and the driving device is fixed on the base and drives the screw rod to rotate.

10. The functional assembly according to any one of claims 1 to 6, wherein the first functional device is an image pickup device and the second functional device is a receiver.

11. The functional assembly according to any one of claims 1 to 6, wherein the sliding module further comprises a third functional element, the third functional element is fixed between the first fixing end and the second fixing end, and the third functional element is at least one of an iris recognition module, a face recognition module, a fingerprint recognition module, a flashlight, a photosensor, a receiver and a transmitter.

12. An electronic device, comprising the functional assembly of any one of claims 1 to 11, wherein the electronic device further comprises a display screen fixedly connected to the base, a sliding direction of the sliding member is parallel to the display screen, the display screen covers the sliding channel, the first antenna radiator and the first functional member can be stacked or unfolded with the display screen along with the sliding of the sliding member, and the second antenna radiator and the second functional member can be stacked or unfolded with the display screen along with the sliding of the sliding member.

13. The electronic device of claim 12, wherein the display screen has a display area, wherein the first antenna radiator and the first functional element slide to a state of being stacked with the display screen, wherein the display area partially covers or completely covers the first antenna radiator and the first functional element, wherein the second antenna radiator and the second functional element slide to a state of being stacked with the display screen, and wherein the display area partially covers or completely covers the second antenna radiator and the second functional element.

14. The electronic device of claim 13, wherein the display screen has a non-display area connected to the display area, the non-display area forming a narrow edge.

15. A control method of an electronic device is characterized in that the electronic device comprises a functional component, the functional component comprises a base, a sliding module and a driving mechanism, the sliding module comprises a sliding part, a first functional part, a first antenna radiating body, a second functional part and a second antenna radiating body, the sliding part is connected with the base in a sliding mode, the first functional part and the first antenna radiating body are fixed to one end of the sliding part, the second functional part and the second antenna radiating body are fixed to the other end of the sliding part, and the driving mechanism is fixed to the base and drives the sliding part to slide;

the control method of the electronic device comprises the following steps:

receiving a first extension signal, detecting whether the sliding displacement of the sliding part relative to the base meets a first threshold value, if so, controlling the driving mechanism to drive the sliding part to slide along a first direction according to the first extension signal so as to drive the first antenna radiator and the first functional part to extend relative to the base;

receiving a first contraction signal, detecting whether the sliding displacement of the sliding part relative to the base meets a second threshold value, if so, controlling the driving mechanism to drive the sliding part to slide along a second direction according to the first contraction signal so as to drive the first antenna radiator and the first functional part to contract relative to the base, wherein the second direction is opposite to the first direction;

receiving a second extension signal, detecting whether the sliding displacement of the sliding part relative to the base meets a first threshold value, if so, controlling the driving mechanism to drive the sliding part to slide along a second direction according to the first extension signal so as to drive the second antenna radiator and the second functional part to extend relative to the base;

and receiving a second contraction signal, detecting whether the sliding displacement of the sliding part relative to the base meets a third threshold value, and if so, controlling the driving mechanism to drive the sliding part to slide along a first direction according to the first contraction signal so as to drive the second antenna radiation body and the second functional part to contract relative to the base.

Images