CN110492225B - Electronic device and control method of electronic device - Google Patents

Abstract

The application provides electronic equipment and a control method of the electronic equipment, wherein the electronic equipment comprises a fixed seat, a first sliding seat and a driving mechanism, the fixed seat is provided with an accommodating cavity, the first sliding seat is connected with the accommodating cavity of the fixed seat in a sliding manner, the first sliding seat is provided with a first radiating body and a first sliding groove, and the first radiating body is used for radiating an antenna signal; the driving mechanism comprises a first sliding rod, a second sliding rod and a driving piece, one end of the first sliding rod and one end of the second sliding rod are rotatably connected with the fixed seat, the other end of the first sliding rod and the other end of the second sliding rod are slidably connected with a first sliding groove of the first sliding seat, and the first sliding rod and the second sliding rod are close to or far away from each other in the first sliding groove under the action of the driving piece, so that the first sliding seat extends out of the accommodating cavity or is accommodated in the accommodating cavity. The radiation efficiency of the antenna of the electronic equipment can be improved.

Description

Electronic device and control method of electronic device

Technical Field

The present application relates to the field of electronic technologies, and in particular, to an electronic device and a control method for the electronic device.

Background

Along with the increase of electronic equipment's screen occupation of ratio, functional device such as microphone, camera module, button are more and more close to electronic equipment's frame, and such structural design makes electronic equipment's antenna module's headroom district more and more littleer to lead to electronic equipment's antenna module's radiant efficiency to reduce, so that reduced user experience.

Disclosure of Invention

The application provides an electronic device and a control method of the electronic device, which improve antenna radiation efficiency.

The application provides an electronic device, which comprises a fixed seat, a first sliding seat and a driving mechanism, wherein the fixed seat is provided with an accommodating cavity, the first sliding seat is connected with the accommodating cavity of the fixed seat in a sliding manner, the first sliding seat is provided with a first radiating body and a first sliding groove, and the first radiating body is used for radiating an antenna signal; the driving mechanism comprises a first sliding rod, a second sliding rod and a driving piece, one end of the first sliding rod and one end of the second sliding rod are rotatably connected with the fixed seat, the other end of the first sliding rod and the other end of the second sliding rod are slidably connected with a first sliding groove of the first sliding seat, and the first sliding rod and the second sliding rod are close to or far away from each other in the first sliding groove under the action of the driving piece, so that the first sliding seat extends out of the accommodating cavity or is accommodated in the accommodating cavity.

The application also provides a control method of the electronic equipment, wherein the electronic equipment comprises a fixed seat, a first sliding seat and a driving mechanism, the fixed seat is provided with an accommodating cavity, the first sliding seat is connected with the accommodating cavity of the fixed seat in a sliding manner, the first sliding seat is provided with a first radiating body and a first sliding groove, and the first radiating body is used for radiating an antenna signal; the driving mechanism comprises a first sliding rod, a second sliding rod and a driving piece, one end of the first sliding rod and one end of the second sliding rod are rotatably connected with the fixed seat, the other end of the first sliding rod and the other end of the second sliding rod are slidably connected with a first sliding groove of the first sliding seat, and the first sliding rod and the second sliding rod are close to or far away from each other in the first sliding groove under the action of the driving piece, so that the first sliding seat extends out of the accommodating cavity or is accommodated in the accommodating cavity; the electronic device further comprises a controller, the method comprising:

the controller receives a sliding signal;

the controller drives the first sliding seat to extend out of or be accommodated in the accommodating cavity according to the sliding signal.

Through set up first irradiator on first sliding seat, actuating mechanism control first slide bar and second slide bar are close to each other in first spout, and the length extension on the slip direction of first slide bar and second slide bar is followed to first slide seat, and the fixing base is kept away from to first sliding seat, and then first sliding seat carries the first irradiator and stretches out the chamber that holds of fixing base to make the headroom region of first irradiator increase, improve the radiation efficiency of first irradiator.

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 only 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 top view of an electronic device in a retracted state according to an embodiment of the present disclosure.

Fig. 2 is a top view of the electronic device shown in fig. 1 in an extended state.

Fig. 3 is a sectional view taken along line a-a of fig. 2.

Fig. 4 is a partial structural schematic diagram of a driving mechanism in the electronic apparatus shown in fig. 1.

Fig. 5 is a partial structural schematic diagram of a driving mechanism in the electronic apparatus shown in fig. 2.

Fig. 6 is a top view of an electronic device in a retracted state according to another embodiment of the present application.

Fig. 7 is a top view of the electronic device provided in fig. 6 in an extended state.

Fig. 8 is a top view of an antenna loop in an electronic device according to an embodiment of the present application.

Fig. 9 is a flowchart of a control method of an electronic device according to an embodiment of the present application.

Detailed Description

The present application is described in detail below with reference to the attached drawings and the detailed description. In addition, the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

Unless expressly stated or limited otherwise, the terms "mounted," "connected," and "coupled" are intended to be inclusive and mean, for example, that they may be fixedly coupled, detachably coupled, or integrally coupled; may be a mechanical connection; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The terms described above are meant to be illustrative in the present invention and are understood to be specific to those of ordinary skill in the art.

Referring to fig. 1, fig. 1 is a block diagram of an electronic device 100 according to an embodiment of the present disclosure. The electronic device 100 may be any device with an antenna, such as: smart devices such as tablet computers, televisions, mobile phones, cameras, personal computers, notebook computers, vehicle-mounted devices, wearable devices, and the like. For convenience of description, the electronic device 100 is defined with reference to the first viewing angle, the width direction of the electronic device 100 is defined as the X direction, and the length direction of the electronic device 100 is defined as the Y direction.

Referring to fig. 1, an electronic device 100 includes a fixed base 1, a first sliding base 2 and a driving mechanism 3. The first sliding seat 2 is provided with a first radiator 21. The first radiator 21 may be made of a conductive material, and the first radiator 21 is configured to radiate an antenna signal. The antenna signal radiated by the first radiator 21 may be any one or more of WIFI, LTE, millimeter wave, GPS, GSM, and bluetooth to implement communication, internet access, and data transmission functions of the electronic device 100.

Referring to fig. 1 and 2, the fixing base 1 is provided with an accommodating cavity 1 a. The first sliding seat 2 is slidably connected with the accommodating cavity 1a of the fixed seat 1. The drive mechanism 3 comprises a first slide bar 32 and a second slide bar 33. The first end 32a of the first slide bar 32 and the first end 33a of the second slide bar 33 are rotatably connected to the fixed seat 1, and the first end 32a of the first slide bar 32 and the first end 33a of the second slide bar 33 are adjacent and arranged side by side. The first sliding seat 2 has a first sliding groove 21. The second end 32b of the first slide bar 32 and the second end 33b of the second slide bar 33 are slidably connected to the first slide slot 21 of the first slide block 2. The second end 32b of the first slide bar 32 and the second end 33b of the second slide bar 33 are remote from the fixed base 1. The second end 32b of the first slide bar 32 and the second end 33b of the second slide bar 33 approach or separate from each other in the first sliding slot 21 under the action of the driving element 31, so that the first sliding seat 2 extends out of the accommodating cavity 1a or is accommodated in the accommodating cavity 1 a.

By arranging the first radiator 21 on the first sliding seat 2, the driving mechanism 3 controls the first sliding rod 32 and the second sliding rod 33 to approach each other in the first sliding groove 21, the first sliding rod 32 and the second sliding rod 33 extend along the length of the first sliding seat 2 in the sliding direction, the first sliding seat 2 is far away from the fixed seat 1, and then the first sliding seat 2 carries the first radiator 21 to extend out of the accommodating cavity 1a of the fixed seat 1, so that the clearance area of the first radiator 21 is increased, and the radiation efficiency of the first radiator 21 is improved; the driving mechanism 3 controls the first sliding rod 32 and the second sliding rod 33 to move away from each other in the first sliding slot 21, the length of the first sliding rod 32 and the length of the second sliding rod 33 along the Y direction are reduced, the first sliding seat 2 is close to the fixed seat 1, and the first radiator 21 retracts into the fixed seat 1 along with the first sliding seat 2, so that the portability of the electronic device 100 is improved.

In an embodiment, referring to fig. 1 and fig. 2, the driving mechanism 3 further includes two rolling portions 34. One of the rolling portions 34 is connected between the first slide bar 32 and the first slide groove 21 of the first slide block 2 in a rolling manner, and the other rolling portion 34 is connected between the second slide bar 33 and the first slide groove 21 of the first slide block 2 in a rolling manner. The rolling part 34 may be a ball, a roller, or the like. Specifically, the two rolling portions 34 are provided at the second end 32b of the first slider 32 and the second end 33b of the second slider 33, respectively. The first slide bar 32 and the second slide bar 33 move the two rolling portions 34 along the first slide groove 21. The two rolling portions 34 abut against the bottom wall of the first sliding chute 21 under the action of the first sliding rod 32 and the second sliding rod 33, and the two rolling portions 34 roll on the bottom wall of the first sliding chute 21 along with the movement of the first sliding rod 32 and the second sliding rod 33, so that the friction force between the first sliding rod 32 and the first sliding chute 21 and the friction force between the second sliding rod 33 and the first sliding chute 21 are reduced, the first sliding rod 32 and the second sliding rod 33 are prevented from being jammed during rotation, and the first sliding seat 2 cannot be pushed to smoothly move out of the accommodating cavity 1a of the fixed seat 1.

Through set up roll portion 34 on first slide bar 32 and second slide bar 33, roll portion 34 along with the motion of first slide bar 32 and second slide bar 33 is in first spout 21, avoid first slide bar 32 and second slide bar 33 dead in the removal in-process card to increase the motion smoothness nature of first slide bar 32 and second slide bar 33 in first spout 21, and then increase the gliding smoothness nature of first sliding seat 2 in the holding chamber 1a of fixing base 1, improve electronic equipment 100's reliability.

In an embodiment, referring to fig. 1 and fig. 2, the first sliding slot 21 is an arc-shaped slot, and the arc-shaped slot enables the first sliding seat 2 to be smoothly pushed out during the rotation of the first sliding bar 32 and the second sliding bar 33, so as to increase the smoothness of the sliding of the first sliding seat 2. The first sliding chute 21 has a first end 21a and a second end 21b opposite to each other, and an intermediate position 21c between the first end 21a and the second end 21 b. In the sliding direction of the first sliding seat 2, the first end 21a and the second end 21b have the same distance with the fixed seat 1, that is, the first end 21a of the first sliding groove 21 and the second end 21b of the first sliding groove 21 are symmetrically distributed on both sides of the middle position 21c of the first sliding groove 21. The intermediate position 21c is close to the fixed seat 1 relative to the first end 21a and the second end 21b, such that when the first slide bar 32 and the second slide bar 33 approach each other to the intermediate position 21c, the lengths of the first slide bar 32 and the second slide bar 33 along the Y direction increase, and when the first slide bar 32 and the second slide bar 33 are away from each other to the first end 21a and the second end 21b, the lengths of the first slide bar 32 and the second slide bar 33 along the Y direction decrease. Referring to fig. 1, when the first slide bar 32 and the second slide bar 33 respectively abut against the first end 21a and the second end 21b, the first slide block 2 is accommodated in the accommodating cavity 1 a. Referring to fig. 2, when the first slide bar 32 and the second slide bar 33 both abut against the middle position 21c (in fig. 1, the first slide bar 32 and the second slide bar 33 are overlapped), the first slide block 2 extends out of the accommodating cavity 1 a.

In an embodiment, referring to fig. 3, a thickness direction of the electronic device 100 is defined as a Z direction. The first slide slot 21 includes a first slot hole 211 and a second slot hole 212. The second slot 212 connects the first slot 211 with the external environment. The external environment is a space outside the electronic device 100. The first slot hole 211 is matched with the rolling part 34, so that the rolling part 34 can just move along the first slot hole 211 and can not shake in the first slot hole 211, thereby reducing the shake of the first sliding seat 2 and improving the sliding stability of the first sliding seat 2. The second end 32b of the first slide bar 32 and the second end 33b of the second slide bar 33 are received in the second slot 212. The dimension L2 of the second slot 212 in the Z direction is smaller than the dimension L1 of the first slot 211 in the Z direction, so that the rolling part 34 is engaged with the first slot 211.

By arranging the first slot hole 211 and the second slot hole 212, the rolling part 34 rolls in the first slot hole 211 under the action of the first slide bar 32 and the second slide bar 33, and the first slot hole 211 can limit the rolling part 34 to prevent the rolling part 34 from shaking in the first slot hole 211. The aperture of the second slot 212 is smaller than that of the first slot 211 to restrict the rolling part 34 within the first slot 211.

In an embodiment, referring to fig. 4 and 5, the two rolling parts 34 are a first magnet 34a and a second magnet 34b, respectively. The two rolling portions 34 are respectively provided on the first slide bar 32 and the second slide bar 33. The first magnet 34a and the second magnet 34b are magnetically attracted or repelled from each other so that the second end 32b of the first slide bar 32 and the second end 33b of the second slide bar 33 approach or move away from each other.

Specifically, referring to fig. 4 and 5 in combination with fig. 1 and 2, the first sliding seat 2 is disposed in the accommodating cavity 1a of the fixing seat 1. The second end 32b of the first slide bar 32 and the second end 33b of the second slide bar 33 are respectively provided at the first end 21a and the second end 21b of the first slide slot 21. The first magnet 34a and the second magnet 34b are controlled to have different magnetism, and the first magnet 34a and the second magnet 34b bring the second end 32b of the first slide bar 32 and the second end 33b of the second slide bar 33 close to each other until the second end 32b of the first slide bar 32 and the second end 33b of the second slide bar 33 move to the middle position 21c of the first slide slot 21. In the process, the distance between the first slide bar 32 and the second slide bar 33 along the Y direction increases, so that the first sliding seat 2 is far away from the fixed seat 1 and extends out of the accommodating cavity 1a of the fixed seat 1. Accordingly, the first magnet 34a and the second magnet 34b are controlled to have the same magnetism, the first magnet 34a and the second magnet 34b move the second end 32b of the first slide bar 32 and the second end 33b of the second slide bar 33 away from each other, and the second end 32b of the first slide bar 32 and the second end 33b of the second slide bar 33 move from the middle position 21c of the first slide slot 21 to the first end 21a and the second end 21b of the first slide slot 21. In the process, the distance between the first slide bar 32 and the second slide bar 33 along the Y direction decreases, so that the first sliding seat 2 approaches the fixed seat 1 and retracts into the accommodating cavity 1a of the fixed seat 1.

It is understood that the first magnet 211 may be a permanent magnet, the second magnet 212 may be an electromagnet, and the electronic device 100 includes a controller, wherein the second magnet 212 is electrically connected to the controller, and the controller is configured to control the magnetism of the second magnet 212, so that the second magnet 212 and the first magnet 211 are magnetically attracted or repelled.

Further, referring to fig. 4 and 5, the first end 21a, the second end 21b and the middle position 21c of the first sliding chute 21 are provided with a magnetic member 4. The magnetic attraction piece 4 is magnetically attracted with the first magnet 34a and the second magnet 34 b. The magnetic attraction piece 4 can be made of metal. By arranging the magnetic attracting elements 4 at the first end 21a, the second end 21b and the middle position 21c of the first sliding chute 21, when the first magnet 34a and the second magnet 34b move to the first end 21a and the second end 21b of the first sliding chute 21, the first magnet 34a and the second magnet 34b can be magnetically attracted to the magnetic attracting elements 4 at the first end 21a and the second end 21b of the first sliding chute 21, so that the first magnet 34a and the second magnet 34b are positioned at the first end 21a and the second end 21b of the first sliding chute 21, and the first sliding seat 2 is accommodated and positioned in the accommodating cavity 1 a. Correspondingly, when the first magnet 34a and the second magnet 34b move to the middle position 21c of the first sliding chute 21, the first magnet 34a and the second magnet 34b can be magnetically attracted with the magnetic attraction piece 4 at the middle position 21c of the first sliding chute 21, so that the first magnet 34a and the second magnet 34b are positioned at the middle position 21c of the first sliding chute 21, and then the first sliding seat 2 extends out of the accommodating cavity 1a and is positioned at the current position, thereby improving the stability of the electronic device 100 in use.

In other embodiments, the driving member 31 may also be a motor. The driver 31 connects the first end 32a of the first slide bar 32 and the first end 33a of the second slide bar 33 to drive the first slide bar 32 and the second slide bar 33 to rotate about the first end 32a of the first slide bar 32 and the first end 33a of the second slide bar 33.

In an embodiment, referring to fig. 6 and 7, the fixing base 1 further has an accommodating space 1b opposite to the accommodating cavity 1 a. The electronic device 100 further comprises a second sliding seat 5. The second sliding seat 5 is disposed in the accommodating space 1 b. The second sliding seat 5 is provided with a second radiator 51 and a second sliding chute 52. The second radiator 51 is used for radiating an antenna signal. The first end 32a of the first slide bar 32 and the first end 33a of the second slide bar 33 are hinged. The third end 32c of the first slide bar 32 and the third end 33c of the second slide bar 33 are slidably connected to the second slide slot 52 of the second slide block 5. The third end 32c and the second end 32b of the first slide bar 32 are respectively opposite ends of the first slide bar 32. Further, the first end 32a of the first slide bar 32 may be a midpoint between the third end 32c and the second end 32b of the first slide bar 32. The third end 32c and the second end 32b of the first slide bar 32 are opposite ends of a second slide bar 33, respectively. Further, the first end 33a of the second slide bar 33 may be a midpoint between the third end 32c and the second end 32b of the second slide bar 33. When the third end 32c of the first slide bar 32 and the third end 32c of the second slide bar 33 are close to or away from each other in the second runner 52, the second sliding seat 5 is far from or close to the first sliding seat 2.

Specifically, a first end 32a of the first slide bar 32 and a first end 33a of the second slide bar 33 are hinged, and opposite ends of the first slide bar 32 and the second slide bar 33 are respectively connected with the first slide seat 2 and the second slide seat 5 in a sliding manner.

The driving element 31 drives the second end 32b of the first slide rod 32 and the second end 33b of the second slide rod 33 to approach or separate from each other, so as to drive the first slide rod 32 and the second slide rod 33 to rotate, thereby driving the first slide block 2 and the second slide block 5 to simultaneously extend or retract into the fixed block 1, and further driving the first radiator 21 and the second radiator 51 to simultaneously extend or retract into the fixed block 1. When a good antenna signal is required, the driving member 31 drives the first radiator 21 and the second radiator 51 to extend out of the fixing base 1, so as to improve the antenna radiation efficiency of the electronic device 100. The driving member 31 drives the first radiator 21 and the second radiator 51 to retract into the fixing base 1, thereby improving the portability of the electronic device 100.

Referring to fig. 8, the fixing base 1 is provided with a radio frequency module 6. The first sliding seat 2 is provided with a first auxiliary circuit board 22. The first auxiliary circuit board 22 is provided with a first frequency offset tuning circuit 23, a first feeding point 24 and a first grounding structure 25. The radio frequency module 6 is electrically connected to the first radiator 21 through the first frequency offset tuning circuit 23 and the first feeding point 24. The first ground structure 25 is electrically connected to the first radiator 21. The rf module 6 provides an excitation signal source, the excitation signal source is fed into the first radiator 21 through a feeding point, and the first frequency offset tuning circuit 23 is configured to tune the impedance of the first radiator 21 according to the excitation signal source, so as to improve the radiation efficiency of the first radiator 21.

The second sliding seat 5 is provided with a second auxiliary circuit board 52. The second auxiliary circuit board 52 is provided with a second frequency offset tuning circuit 53, a second feeding point 54 and a second grounding structure 55. The radio frequency module 6 is electrically connected to the second radiator 51 through the second frequency offset tuning circuit 53 and the second feeding point 54. The second ground structure 55 is electrically connected to the second radiator 51. The rf module 6 provides an excitation signal source, the excitation signal source is fed into the second radiator 51 through the feeding point, and the second frequency offset tuning circuit 53 is configured to tune the impedance of the second radiator 51 according to the excitation signal source, so as to improve the radiation efficiency of the second radiator 51.

In one embodiment, the first radiator 21 and the second radiator 51 are respectively disposed on the outer surfaces of the first sliding seat 2 and the second sliding seat 5. When the first sliding seat 2 is accommodated in the accommodating cavity 1a, the first radiator 21 covers the opening of the accommodating cavity 1 a. When the second sliding seat 5 is accommodated in the accommodating space 1b, the second radiator 51 covers the opening of the accommodating space 1 b. Due to the structural design, the first sliding seat 2 and the second sliding seat 5 are accommodated in the fixed seat 1 and then form a complete shell surface with the fixed seat 1.

In other embodiments, the first sliding seat 2 includes a plurality of metal segments disposed at intervals, and at least one metal segment of the first sliding seat 2 is the first radiator 21. The second sliding seat 5 includes a plurality of metal segments arranged at intervals, and at least one metal segment of the second sliding seat 5 is the second radiator 51. It will be appreciated that a non-signal shielding material, such as plastic, rubber, etc., may be disposed between the plurality of spaced apart metal segments.

Optionally, different metal segments are used to radiate different or the same antenna signals.

In this embodiment, referring to fig. 1 and fig. 2, the fixing base 1 includes a housing 11 and a display 12 covering the housing 11. Functional devices 7 are arranged in the first sliding seat 2 and the second sliding seat 5. The functional device 7 extends out or is accommodated in the fixed seat 1 along with the sliding of the first sliding seat 2 and the second sliding seat 5. When the functional device 7 is accommodated in the fixing seat 1, the display area 12a of the display screen 12 at least partially covers the functional device 7. When the functional device 7 extends out of the fixed seat 1, the functional device 7 extends out of the display screen. In this way, signal transmission sections for signal transmission of the functional device 7 can be provided on the first slide bearing 2 and the second slide bearing 5. When needing to use functional device 7, fixing base 1 is stretched out to first sliding seat 2 and second sliding seat 5, and functional device 7 carries out signal transmission through the signal portion of penetrating on first sliding seat 2 and the second sliding seat 5, and need not to locate the display screen with the signal portion of penetrating to can increase the size of display area 12a on the display screen, improve the screen and account for than.

The functional device 7 can be at least one of a camera module, a flash lamp module, a sensor module, a receiver module, a face recognition module, an iris recognition module, a microphone module and a fingerprint recognition module.

Specifically, the first sliding seat 2 may be provided with a camera module, a flash module, a face recognition module, a receiver module, and the like. The first sliding seat 2 can be provided with a signal penetration part for signal transmission of functional devices 7 such as a camera module, a flash lamp module, a face recognition module, a receiver module and the like. The second sliding seat 5 can be provided with a microphone module, a fingerprint identification module and the like. The second sliding seat 5 can be provided with a signal penetration part for signal transmission of functional devices 7 such as a microphone module and a fingerprint identification module.

Through set up functional device 7 on first sliding seat 2 and second sliding seat 5, keep away from at first sliding seat 2 and second sliding seat 5 fixing base 1's in-process, functional device 7 keeps away from fixing base 1 gradually, when setting up display screen 12 on fixing base 1, functional device 7 can stretch out display screen 12, and functional device 7 carries out the signal interaction through the signal portion of penetrating on first sliding seat 2 and the second sliding seat 5 to need not to set up the signal portion of penetrating that is used for functional device 7 to carry out signal transmission on display screen 12, thereby the area of the non-display area 12a of display screen 12 that reduces, and then the screen of increase display screen 12 accounts for the ratio.

When electronic equipment 100 unblock, the fixing base 1 is stretched out to first sliding seat 2 of actuating mechanism 3 control and second sliding seat 5, and face identification module and fingerprint identification module stretch out display screen 12 to the user carries out face identification or fingerprint identification, in order to unblock electronic equipment 100.

When the communication, internet surfing, bluetooth and positioning functions of the electronic device 100 are used, the driving mechanism 3 controls the first sliding seat 2 and the second sliding seat 5 to extend out of the fixed seat 1, and the first radiator 21 and the second radiator 51 on the first sliding seat 2 and the second sliding seat 5 are far away from the display screen 12, so that the clearance area of the antenna is increased, and the radiation efficiency of the antenna is increased.

When the electronic device 100 is used for voice chat, video chat, voice input, and image transmission, the first sliding seat 2 is provided with the first radiator 21, the camera module, and the receiver module, and the second sliding seat 5 is provided with the second radiator 51 and the transmitter module. The driving mechanism 3 controls the first sliding seat 2 and the second sliding seat 5 to slide out together, so that the shooting function and the voice transmission function of the electronic device 100 can be used at the same time, the data transmission capability of the electronic device 100 is increased, and the user experience is improved.

Referring to fig. 9, the present application further provides a control method S10 of the electronic device 100, which is applied to the electronic device 100 according to any of the above embodiments. The control method S10 of the electronic apparatus 100 includes the following steps.

S101: the controller receives a slip signal.

S103: the controller drives the first sliding seat and/or the second sliding seat to extend out of or retract into the fixed seat according to the sliding signal.

When the controller receives the extension signal, the controller drives the first sliding seat 2 and the second sliding seat 5 to move according to the extension signal, so that the first sliding seat 2 and/or the second sliding seat 5 gradually extend out of the fixed seat 1.

When the controller receives the retraction signal, the controller drives the first sliding seat 2 and the second sliding seat 5 to move according to the retraction signal, so that the first sliding seat 2 and/or the second sliding seat 5 gradually approach the fixed seat 1.

Finally, it should be noted that the above embodiments are only for illustrating the technical solutions of the present application and not for limiting, and although the present application is described in detail with reference to the above preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions may be made to the technical solutions of the present application without departing from the spirit and scope of the technical solutions of the present application.

Claims (10)

1. An electronic device is characterized by comprising a fixed seat, a first sliding seat and a driving mechanism, wherein the fixed seat is provided with an accommodating cavity, the first sliding seat is connected with the accommodating cavity of the fixed seat in a sliding manner, the first sliding seat is provided with a first radiating body and a first sliding groove, and the first radiating body is used for radiating an antenna signal; the driving mechanism comprises a first sliding rod, a second sliding rod and a driving piece, one end of the first sliding rod and one end of the second sliding rod are rotatably connected with the fixed seat, the other end of the first sliding rod and the other end of the second sliding rod are slidably connected with a first sliding groove of the first sliding seat, and the first sliding rod and the second sliding rod are close to or far away from each other in the first sliding groove under the action of the driving piece, so that the first sliding seat extends out of the accommodating cavity or is accommodated in the accommodating cavity.

2. The electronic device according to claim 1, wherein the driving mechanism further comprises two rolling portions, one of the rolling portions is rollingly connected between the first slide bar and the first slide groove of the first slide block, and the other of the rolling portions is rollingly connected between the second slide bar and the first slide groove of the first slide block, and the two rolling portions roll along with the first slide bar and the second slide bar in the first slide groove when the first slide bar and the second slide bar move in the first slide groove.

3. The electronic device according to claim 2, wherein the first sliding slot is an arc-shaped slot, the first sliding slot has a first end and a second end that are opposite to each other and an intermediate position that is disposed between the first end and the second end, in a sliding direction of the first sliding seat, distances between the first end and the second end and the fixed seat are the same, the intermediate position is close to the fixed seat relative to the first end and the second end, and when the first sliding rod and the second sliding rod respectively abut against the first end and the second end, the first sliding seat is accommodated in the accommodating cavity; when the first sliding rod and the second sliding rod are both abutted against the middle position, the first sliding seat extends out of the accommodating cavity.

4. The electronic device according to claim 3, wherein the first sliding slot includes a first slot and a second slot, the second slot communicates the first slot with the external environment, the first slot is adapted to the rolling portion so as to allow the rolling portion to roll along the first slot, the first sliding bar and the second sliding bar are accommodated in the second slot, and a size of the second slot is smaller than a size of the first slot so as to allow the rolling portion to be engaged with the first slot.

5. The electronic device of claim 4, wherein the two rolling parts are a first magnet and a second magnet, the two rolling parts are respectively disposed on the first sliding bar and the second sliding bar, and the first magnet and the second magnet attract or repel each other to enable the first sliding bar and the second sliding bar to approach or move away from each other.

6. The electronic device of claim 5, wherein the first end, the second end and the middle position of the first sliding slot are provided with magnetic attracting elements, and the magnetic attracting elements are magnetically attracted with the first magnet and the second magnet.

7. The electronic device according to any one of claims 1 to 6, wherein the fixing base further has a receiving space disposed opposite to the receiving cavity, the electronic device further includes a second sliding seat disposed in the receiving space, the second sliding seat is provided with a second radiator and a second sliding slot, the second radiator is used for radiating an antenna signal, one end of the first sliding rod and the end of the second sliding rod away from the first sliding seat are slidably connected to the second sliding slot of the second sliding seat, and when the first sliding rod and the second sliding rod approach or depart from each other in the second sliding slot, the second sliding seat is away from or close to the first sliding seat.

8. The electronic device according to claim 7, wherein a radio frequency module is disposed on the fixed base, a first auxiliary circuit board is disposed on the first sliding base, a first frequency offset tuning circuit, a first feeding point and a first grounding structure are disposed on the first auxiliary circuit board, the radio frequency module is electrically connected to the first radiator through the first frequency offset tuning circuit and the first feeding point, the first grounding structure is electrically connected to the first radiator, a second auxiliary circuit board is disposed on the second sliding base, a second frequency offset tuning circuit, a second feeding point and a second grounding structure are disposed on the second auxiliary circuit board, the radio frequency module is electrically connected to the second radiator through the second frequency offset tuning circuit and the second feeding point, and the second grounding structure is electrically connected to the second radiator.

9. The electronic device of claim 7, wherein the fixing base includes a housing and a display screen covering the housing, the first sliding base and the second sliding base each have a functional device therein, the functional device extends out or is accommodated in the fixing base along with the sliding of the first sliding base and the second sliding base, and when the functional device is accommodated in the fixing base, the display area of the display screen at least partially covers the functional device.

10. The control method of the electronic equipment is characterized in that the electronic equipment comprises a fixed seat, a first sliding seat and a driving mechanism, wherein the fixed seat is provided with an accommodating cavity, the first sliding seat is connected with the accommodating cavity of the fixed seat in a sliding manner, the first sliding seat is provided with a first radiating body and a first sliding groove, and the first radiating body is used for radiating an antenna signal; the driving mechanism comprises a first sliding rod, a second sliding rod and a driving piece, one end of the first sliding rod and one end of the second sliding rod are rotatably connected with the fixed seat, the other end of the first sliding rod and the other end of the second sliding rod are slidably connected with a first sliding groove of the first sliding seat, and the first sliding rod and the second sliding rod are close to or far away from each other in the first sliding groove under the action of the driving piece, so that the first sliding seat extends out of the accommodating cavity or is accommodated in the accommodating cavity; the electronic device further comprises a controller, the method comprising:

the controller receives a sliding signal;

the controller controls the driving mechanism to drive the first sliding seat to extend out of or be accommodated in the accommodating cavity according to the sliding signal.

Images