CN112995473B

CN112995473B - Electronic device

Info

Publication number: CN112995473B
Application number: CN202110176487.9A
Authority: CN
Inventors: 齐博
Original assignee: Vivo Mobile Communication Co Ltd
Current assignee: Vivo Mobile Communication Co Ltd
Priority date: 2021-02-07
Filing date: 2021-02-07
Publication date: 2022-11-04
Anticipated expiration: 2041-02-07
Also published as: CN112995473A

Abstract

The application discloses electronic equipment, including the camera, first circuit board, suspension actuating mechanism and wireless communication device, first circuit board includes the first region, suspension actuating mechanism locates between first circuit board and the camera, suspension actuating mechanism is used for driving the camera and suspends on the first region, and drive the camera and rotate for the first region, wireless communication device includes first wireless signal receiver, the second wireless signal receiver, first wireless signal transmitter and second wireless signal transmitter, first wireless signal transmitter and second wireless signal receiver all locate the camera, first wireless signal receiver and second wireless signal transmitter all locate the first region, first wireless signal transmitter and first wireless signal receiver wireless communication connection, the second wireless signal transmitter and the wireless signal receiver wireless communication connection of second, above-mentioned scheme can provide big anti-shake space.

Description

Electronic device

Technical Field

The application belongs to the technical field of communication, and particularly relates to an electronic device.

Background

As user demands increase, the performance of electronic devices continues to optimize. Electronic devices are typically configured with an image capture function. During shooting, a user holding the electronic device usually shakes, and the shooting definition is affected. From this, more and more electronic equipment improves the shooting effect through adopting anti-shake technique.

In the correlation technique, electronic equipment includes camera and flexible circuit board, and when the camera carried out anti-shake rotation, the flexible circuit board can produce the power of dragging to the camera to there is the less problem of anti-shake range when leading to the camera to carry out the anti-shake, and then the anti-shake performance that leads to electronic equipment is still not good.

Disclosure of Invention

The embodiment of the application aims to provide an electronic device, which can solve the problem that the anti-shake performance of the electronic device is poor due to the fact that the anti-shake amplitude of a camera is small.

In order to solve the technical problem, the present application is implemented as follows:

the application discloses electronic equipment, including camera, first circuit board, suspension actuating mechanism and wireless communication device, wherein:

the first circuit board comprises a first area which is arranged opposite to the camera, the suspension driving mechanism is arranged between the first circuit board and the camera, and the suspension driving mechanism is used for driving the camera to suspend on the first area and driving the camera to rotate relative to the first area;

the wireless communication device comprises a first wireless signal receiver, a second wireless signal receiver, a first wireless signal transmitter and a second wireless signal transmitter;

the first wireless signal transmitter is arranged on the camera, the first wireless signal receiver is arranged in the first area, and the first wireless signal transmitter is in wireless communication connection with the first wireless signal receiver;

the second wireless signal transmitter is arranged in the first area, the second wireless signal receiver is arranged in the camera, and the second wireless signal transmitter is in wireless communication connection with the second wireless signal receiver.

The technical scheme who this application adopted can reach following beneficial effect:

in the working process of the electronic equipment, when a user uses the camera shooting function of the electronic equipment, the first circuit board realizes the control of the camera to be started through the wireless communication connection between the second wireless signal transmitter and the second wireless signal receiver, meanwhile, the user can slightly deflect and move when the handheld electronic equipment faces a shot object, a sensor of the electronic equipment detects the slight deflection and movement, the suspension driving mechanism drives the camera to suspend and rotate relative to the first area to increase the compensation amount, the camera suspends and is far away from the first area, so that the situation that the camera receives more dragging force in the rotating process due to the fact that the camera is connected with the first circuit board is avoided, the camera is made to obtain a larger rotating space, the anti-shaking performance of the electronic equipment is improved, and the shooting requirement of the user is met.

Drawings

Fig. 1 is a schematic structural diagram of a partial structure of an electronic device disclosed in an embodiment of the present application in a first view;

fig. 2 is a schematic structural diagram of a partial structure of an electronic device disclosed in an embodiment of the present application in a second view;

fig. 3 is a schematic structural diagram of a partial structure of an electronic device disclosed in an embodiment of the present application at a third viewing angle.

Description of the reference numerals:

100-a camera;

200-a first circuit board, 210-a first area;

300-suspension driving mechanism, 310-electromagnetic coil, 320-permanent magnet;

410-first wireless signal receiver, 420-second wireless signal receiver, 430-first wireless signal

Transmitter, 440-second wireless signal transmitter;

510-first structure part, 520-second structure part, 530-accommodation space;

600-elastic connection.

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 some, but not all, embodiments of the present application. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments in the present application without making any creative effort belong to the protection scope of the present application.

The terms first, second and the like in the description and in the claims of the present application are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It will be appreciated that the data so used may be interchanged under appropriate circumstances such that embodiments of the application may be practiced in sequences other than those illustrated or described herein, and that the terms "first," "second," and the like are generally used herein in a generic sense and do not limit the number of terms, e.g., the first term can be one or more than one. In addition, "and/or" in the specification and claims means at least one of connected objects, a character "/" generally means that a preceding and succeeding related objects are in an "or" relationship.

The electronic device provided by the embodiment of the present application is described in detail below with reference to the accompanying drawings through specific embodiments and application scenarios thereof.

Referring to fig. 1 to 3, an embodiment of the present application discloses an electronic apparatus, which includes a camera 100, a first circuit board 200, a suspension driving mechanism 300, and a wireless communication device.

The camera 100 serves as a camera function device of the electronic device, and can meet the shooting requirements of users using the electronic device.

Specifically, the first circuit board 200 includes a first region 210 disposed opposite to the camera 100, the suspension driving mechanism 300 is disposed between the first circuit board 200 and the camera 100, an installation space is formed between the first circuit board 200 and the camera 100, the suspension driving mechanism 300 is disposed in the installation space, and the suspension driving mechanism 300 is configured to drive the camera 100 to suspend on the first region 210, so that the camera 100 is far away from the first region 210, and drive the camera 100 to rotate relative to the first region 210, thereby increasing a rotation space of the camera 100, and avoiding collision of other components in the electronic device.

The wireless communication device serves as a signal transmission function device of an electronic device, and specifically, the wireless communication device includes a first wireless signal receiver 410, a second wireless signal receiver 420, a first wireless signal transmitter 430 and a second wireless signal transmitter 440, wherein the first wireless signal transmitter 430 is disposed on the camera 100, the first wireless signal receiver 410 is disposed in the first area 210, and the first wireless signal transmitter 430 is in wireless communication connection with the first wireless signal receiver 410, so that the camera 100 can transmit a shot image signal to the first area 210, and the first circuit board 200 transmits the image signal to an image processing module of the electronic device. The image signal is processed by the image processing module, so that a user can see the image signal through a display screen of the electronic equipment.

Similarly, the second wireless signal transmitter 440 is disposed in the first area 210, the second wireless signal receiver 420 is disposed in the camera 100, and the second wireless signal transmitter 440 is in wireless communication with the second wireless signal receiver 420, so that the first circuit board 200 can transmit a control signal to the camera 100 through cooperation of the second wireless signal transmitter 440 and the second wireless signal receiver 420, for example, the control signal may be a signal for controlling the camera 100 to turn on or off.

In addition, if the first circuit board 200 and the camera head 100 are connected through the flexible electrical connector to realize the communication connection, when the camera head 100 rotates relative to the first area 210, the dragging force of the flexible electrical connector is applied to the camera head 100, and thus the anti-shake angle of the camera head 100 is small. Certainly, the communication between the camera 100 and the first circuit board 200 is realized through the wireless communication device, and there is no pulling caused by wired connection, so that the camera 100 can rotate more freely relative to the first area 210, and the anti-shake rotation angle can be increased.

In the working process of the electronic device, when a user uses a camera shooting function of the electronic device, the first circuit board 200 controls the camera 100 through the wireless communication connection between the second wireless signal transmitter 440 and the second wireless signal receiver 420, meanwhile, when the user faces a shot object, the user can generate a small deflection movement, the sensor of the electronic device detects the small deflection movement, the suspension driving mechanism 300 drives the camera 100 to suspend and rotate relative to the first area 210 to increase the compensation amount, because the camera 100 suspends and is far away from the first area 210, and is in wireless communication connection with the first area 210, the situation that the camera 100 is subjected to more dragging force in the rotating process due to the fact that the camera 100 is physically connected with the first circuit board 200 is avoided, the camera 100 further obtains a larger rotating space, the anti-shake performance of the electronic device is improved, and the shooting requirements of the user are met.

In this embodiment, the electronic device may include a first structure portion 510 and a second structure portion 520, an accommodating space 530 is provided between the first structure portion 510 and the second structure portion 520, elastic connection portions 600 are provided between the camera 100 and the first structure portion 510 and between the camera 100 and the second structure portion 520, so that the camera 100 and the elastic connection portions 600 are both disposed in the accommodating space 530, the camera 100 may be connected to and electrically connected to the elastic connection portions 600, the elastic connection portions 600 may be disposed between one side of the camera 100 and the first structure portion 510, and meanwhile, the elastic connection portions 600 may also be disposed between the other side of the camera 100 and the second structure portion 520, so that the camera 100 is far away from the first region 210 by a traction force of the elastic connection portions 600, and thus the camera 100 is prevented from falling and colliding with the first region 210 when the suspension driving mechanism 300 stops driving the suspension of the camera 100. Meanwhile, the connection of the elastic connection part 600 can better ensure the suspension of the camera 100, and can also improve the stability of the assembly of the camera 100.

In an alternative scheme, the first structure portion 510 may be a main board, the second structure portion 520 may be a housing of the electronic device, the main board is electrically connected to the first circuit board 200, an accommodating space 530 is formed between the main board and the housing, the camera 100 and the elastic connection portion 600 are disposed in the accommodating space 530, the elastic connection portion 600 may be disposed between one side of the camera 100 and the main board, and meanwhile, the elastic connection portion 600 may also be disposed between the other side of the camera 100 and the housing. Of course, the elastic connection portions 600 may be disposed between one side of the camera 100 and the main board and between the other side of the camera 100 and the housing by means of bonding, welding, or the like.

In another alternative, the electronic device includes a main board, the main board includes a first sub-board and a second sub-board, the first sub-board may be a first structure portion 510, and the second sub-board may be a second structure portion 520, where the main board is electrically connected to the first circuit board 200, an accommodating space 530 is formed between the first sub-board and the second sub-board, the camera 100 and the elastic connection portion 600 are disposed in the accommodating space 530, the elastic connection portion 600 may be disposed between one side of the camera 100 and the first sub-board, and meanwhile, the elastic connection portion 600 may also be disposed between the other side of the camera 100 and the second sub-board, and of course, the elastic connection portion 600 may be disposed between one side of the camera 100 and the first sub-board and between the other side of the camera 100 and the second sub-board by means of adhesion, welding, or the like.

In the embodiment of the present application, the elastic connection portions 600 are disposed between two first corners of the camera head 100 adjacent to the first structure portion 510 and the first structure portion 510, so that the two elastic connection portions 600 can provide traction force for the two first corners of the camera head 100 in a balanced manner, and meanwhile, the elastic connection portions 600 are disposed between two second corners of the camera head 100 adjacent to the second structure portion 520 and the second structure portion 520, so that the two elastic connection portions 600 can provide traction force for the second corners of the camera head 100 in a balanced manner. The structure not only can enable the camera 100 to be far away from the first area 210, but also enables the four elastic connecting parts 600 to always keep the camera 100 parallel to the first area 210, so as to ensure stable wireless communication connection of the wireless communication device, and because the elastic connecting parts 600 have an initial state and a deformation state, the influence of rotation of the camera 100 relative to the first area 210 is small when the elastic connecting parts 600 are in the deformation state.

In addition, the elastic connection portion 600 may be a power-on memory alloy, a spring connector, a rubber band, etc., and the specific type of the elastic connection portion 600 is not limited in the present application.

In the embodiment of the present application, the first wireless signal receivers 410 and the first wireless signal transmitters 430 are multiple and correspond to each other one by one, and since the content of the signal converted from the image captured by the camera head 100 is more, the transmission of the signal can be realized more quickly and in a larger amount by providing multiple first wireless signal receivers 410 and first wireless signal transmitters 430.

Meanwhile, the camera 100 rotates relative to the first area 210, so that the influence on the communication connection effect due to the influence on the wireless communication connection between the first wireless signal receiver 410 and the first wireless signal transmitter 430 caused by a large rotation angle is avoided, the coverage of the communication connection can be increased by the plurality of first wireless signal receivers 410 and the first wireless signal transmitter 430, and then the stable signal transmission can be realized, and further the stable signal transmission can be realized by the plurality of first wireless signal receivers 410 and the first wireless signal transmitter 430.

Optionally, the second wireless signal transmitter 440 and the second wireless signal receiver 420 may be both one, and since the signal transmission between the first circuit board 200 and the camera 100 is an instruction for controlling the camera 100 to work, the communication traffic is small, and the signal content is simple, so that the signal transmission can be completed relatively quickly by a single second wireless signal transmitter 440 and a single second wireless signal receiver 420, and there is no need to configure more devices, and the purpose of saving cost can be achieved.

In addition, a communication distance is preset between the first wireless signal receiver 410 and the first wireless signal transmitter 430, and when the distance between the first wireless signal receiver 410 and the first wireless signal transmitter 430 is not greater than the communication distance, the first wireless signal receiver 410 and the first wireless signal transmitter 430 can perform stable wireless communication connection, and similarly, the second wireless signal receiver 420 and the second wireless signal transmitter 440 can also perform stable wireless communication connection.

Of course, the first wireless signal receiver 410 and the second wireless signal receiver 420 may be an optical signal receiver, an ultrasonic signal receiver, an infrared signal receiver, etc., and likewise, the first wireless signal transmitter 430 and the second wireless signal transmitter 440 may also be an optical signal transmitter, an ultrasonic signal transmitter, an infrared signal transmitter, etc., and the present application is not limited to a specific kind of wireless communication device.

In the embodiment of the present application, the number of the suspension driving mechanisms 300 is at least two, and the suspension driving mechanisms 300 are spaced apart from each other, so that at least two suspension driving mechanisms 300 can provide more driving force for the camera head 100. The suspension drive mechanism 300 may be of various types, for example, the suspension drive mechanism 300 may be an air-jet suspension drive mechanism.

In an alternative, the suspension driving mechanism 300 may include an electromagnetic coil 310 and a permanent magnet 320, the electromagnetic coil 310 has a magnetic force in an energized state, wherein the electromagnetic coil 310 may change a magnetic pole direction by changing a direction of a current passing through the electromagnetic coil 310, the electromagnetic coil 310 may change a magnitude of the magnetic force by changing a magnitude of the current, so that the electromagnetic coil 310 may be close to or away from the permanent magnet 320, the electromagnetic coil 310 is disposed in the first region 210, the electromagnetic coil 310 may be electrically connected to the first region 210, and the permanent magnet 320 is disposed on the camera head 100, when the electromagnetic coil 310 is in the first energized state, the camera head 100 may be suspended on the first region 210 by magnetic repulsion between the permanent magnet 320 and the electromagnetic coil 310, and since at least two suspension driving mechanisms 300 are disposed at an interval between the camera head 100 and the first circuit board 200, adjusting magnitudes of currents passing through the electromagnetic coils 310 in the at least two suspension driving mechanisms 300 to be different, it may be achieved that the at least two suspension driving mechanisms 300 drive the camera head 100 to rotate relative to the first circuit board 200, thereby improving anti-shake performance of the electronic device.

Of course, the positions of the permanent magnet 320 and the electromagnetic coil 310 may be interchanged as described above. Since the electromagnetic coil 310 needs to be powered and the first area 210 is a part of the first circuit board 200, the arrangement of the electromagnetic coil 310 in the first area 210 facilitates the powering and can prevent the power from being received by the camera 100.

In this embodiment, when a user fixes an electronic device to perform shooting by using a fixing bracket, or when the user stops using a camera function of the electronic device, the camera 100 is not shaken greatly, and in order to avoid the camera 100 from shaking in the electronic device under the influence of gravity and colliding with other components, in an optional manner, when the electromagnetic coils 310 of the at least two suspension driving mechanisms 300 are in the second powered state, the permanent magnet 320 magnetically attracts the electromagnetic coils 310, the camera 100 is fixed on the first area 210 by the at least two suspension driving mechanisms 300, a current passing through the electromagnetic coils 310 can be adjusted in size, so that the camera 100 slowly approaches the first area 210, and further, damage due to collision between the electromagnetic coils 310 and the permanent magnet 320 caused by too fast speed of the camera 100 approaching the first area 210 is avoided, and at the same time, the camera 100 does not directly contact with the first area 210, the first area 210 fixes the camera 100 by a magnetic force magnetically attracting between the at least two electromagnetic coils 310 and the permanent magnet 320, so that the camera 100 does not collide with other components in the electronic device.

In this embodiment of the application, the number of the permanent magnets 320 may be four, the four permanent magnets 320 may be respectively disposed at four corners of the bottom of the camera 100, the number of the electromagnetic coils 310 may be four, the four electromagnetic coils 310 may be respectively disposed at positions on the first region 210 corresponding to the four permanent magnets 320 one to one, the electronic device may realize the distance or approach of the camera 100 with respect to the first region 210 by controlling the magnitude and direction of the current of the four electromagnetic coils 310, and meanwhile, the camera 100 may also realize the rotation with respect to the first region 210 around multiple directions, thereby further improving the flexibility of the anti-shake of the electronic device.

In the embodiment of the present application, since the electromagnetic coil 310 in the levitation drive mechanism 300 may interfere with the signal transmission of the wireless communication device in the energized state, but the magnitude of the interference is proportional to the distance between the two, in an alternative scheme, at least two levitation drive mechanisms 300 are disposed near the edge of the first region 210, and the first wireless signal receiver 410 and the second wireless signal transmitter 440 are disposed near the center of the first region 210, so that the distance between the two levitation drive mechanisms 300 and the wireless communication device is relatively long, and the electromagnetic coil 310 has relatively small interference with the signal transmission of the wireless communication device in the energized state.

The electronic device disclosed in the embodiment of the present application may be a mobile phone, a tablet computer, an electronic book reader, a wearable device (e.g., smart glasses, a smart watch), a game machine, a medical apparatus, and the like, and the specific kind of the electronic device is not limited in the embodiment of the present application.

While the present embodiments have been described with reference to the accompanying drawings, it is to be understood that the invention is not limited to the precise embodiments described above, which are meant to be illustrative and not restrictive, and that various changes may be made therein by those skilled in the art without departing from the spirit and scope of the invention as defined by the appended claims.

Claims

1. The electronic equipment is characterized by comprising a camera, a first circuit board, a suspension driving mechanism and a wireless communication device, wherein:

the first circuit board comprises a first area arranged opposite to the camera, the suspension driving mechanism is arranged between the first circuit board and the camera and is used for driving the camera to suspend on the first area and driving the camera to rotate relative to the first area;

the first wireless signal transmitter is arranged in the camera, the first wireless signal receiver is arranged in the first area, and the first wireless signal transmitter is in wireless communication connection with the first wireless signal receiver;

2. The electronic device according to claim 1, wherein the electronic device comprises a first structure portion and a second structure portion, an accommodating space is provided between the first structure portion and the second structure portion, and elastic connection portions are provided between the camera and the first structure portion and between the camera and the second structure portion.

3. The electronic device according to claim 2, wherein the first structure portion is a main board, and the second structure portion is a housing of the electronic device; the main board is electrically connected with the first circuit board.

4. The electronic device of claim 2, wherein the electronic device comprises a main board comprising a first sub-board and a second sub-board, the first sub-board being the first structural portion and the second sub-board being the second structural portion; wherein: the main board is electrically connected with the first circuit board.

5. The electronic device according to claim 2, wherein the elastic connection portions are provided between two first corner portions of the camera adjacent to the first structure portion and the first structure portion, and the elastic connection portions are provided between two second corner portions of the camera adjacent to the second structure portion and the second structure portion.

6. The electronic device of claim 1, wherein the first wireless signal receiver and the first wireless signal transmitter are both multiple and in one-to-one correspondence; the second wireless signal transmitter and the second wireless signal receiver are both one.

7. The electronic device of claim 1, wherein the suspension driving mechanism comprises at least two spaced apart suspension driving mechanisms, the suspension driving mechanism comprises an electromagnetic coil and a permanent magnet, the electromagnetic coil is disposed in the first region, the permanent magnet is disposed on the camera, and when the electromagnetic coil is in the first power-on state, the camera is suspended in the first region by repulsion between the permanent magnet and the electromagnetic coil.

8. The electronic device of claim 7, wherein with the electromagnetic coils of the at least two hover drive mechanisms in a second powered state, the permanent magnet is magnetically attracted to the electromagnetic coils, and the camera head is secured to the first area by the at least two hover drive mechanisms.

9. The electronic device according to claim 7 or 8, wherein the number of the permanent magnets is four, the four permanent magnets are respectively disposed at four corners of the bottom of the camera, the number of the electromagnetic coils is four, and the four electromagnetic coils are respectively disposed at positions on the first region, which are one-to-one opposite to the four permanent magnets.

10. The electronic device of claim 7, wherein at least two of the levitating drive mechanisms are disposed proximate an edge of the first region, and wherein the first wireless signal receiver and the second wireless signal transmitter are disposed proximate a center of the first region.