CN112929527A - Camera module, electronic equipment and control method thereof - Google Patents

Abstract

The application discloses a camera module, electronic equipment and a control method of the electronic equipment, and relates to the technical field of camera shooting. This camera module includes: a suspension; the camera module is movably arranged on the suspension and comprises a shell, and at least part of the shell is positioned in the suspension; the limiting piece is movably arranged on the suspension and is adjacent to the shell; the driving mechanism is used for driving the limiting piece to move relative to the suspension frame so as to switch the camera module between a first state and a second state; in the first state, the limiting part is matched with the shell to limit the movement of the camera module; in the second state, the limiting part is separated from the shell to allow the camera module to move. The above embodiment can solve the problem that the abnormal sound easily occurs in the current camera module in the non-shooting mode.

Description

Camera module, electronic equipment and control method thereof

Technical Field

The application belongs to the technical field of camera shooting, and particularly relates to a camera module, electronic equipment and a control method of the camera module.

Background

Nowadays, shooting technology has been applied to various aspects of people's work, life, amusement, etc., and the shooting demand of consumers is higher and higher, and how to obtain high-quality video or photos has become an important issue of people's attention.

However, camera shake is still an inevitable pain point during actual shooting. Traditional camera anti-shake mainly divide into structure anti-shake and software anti-shake, and wherein little cloud platform structure represents the superiority in the structure anti-shake, has received liking of many consumers. However, when the micro cloud platform structure is in the non-shooting mode, if the whole device shakes, the micro cloud platform structure will generate abnormal sound.

Disclosure of Invention

The embodiment of the application aims to provide a camera module, electronic equipment and a control method thereof, and the problem that abnormal sound easily occurs to the camera module in a non-shooting mode at present can be solved.

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

in a first aspect, an embodiment of the present application provides a camera module, including:

a suspension;

the camera module is movably arranged on the suspension and comprises a shell, and the shell is at least partially positioned in the suspension;

the limiting piece is movably arranged on the suspension, and the limiting piece is adjacent to the shell;

the driving mechanism is used for driving the limiting piece to move relative to the suspension frame so as to switch the camera module between a first state and a second state;

in the first state, the limiting piece is matched with the shell to limit the movement of the camera module; in the second state, the limiting part is separated from the shell to allow the camera module to move.

In a second aspect, an embodiment of the present application further provides an electronic device, including the camera module described above.

In a third aspect, an embodiment of the present application further provides a control method for an electronic device, where the control method is applied to the electronic device, and the control method includes:

in a shooting mode, the driving mechanism drives the limiting piece to be switched to the second state;

in a non-shooting mode, the driving mechanism drives the limiting piece to be switched to the first state.

In the embodiment of the application, the limiting member is movably disposed on the suspension, and the driving mechanism drives the limiting member to move relative to the suspension, so as to be engaged with or separated from the housing of the camera module. In the first state, the limiting part is matched with the shell to limit the movement of the camera module and avoid abnormal sound of the camera module; in the second state, locating part and casing separation to allow the camera module activity, the camera module carries out the anti-shake under the effect of little cloud platform structure and shoots. Therefore, the camera module disclosed in the embodiment of the application can solve the problem that abnormal sound easily occurs in the current camera module in a non-shooting mode.

Drawings

Fig. 1 is a schematic view of a partial structure of a camera module disclosed in an embodiment of the present application;

FIG. 2 is a schematic view of FIG. 1 from another perspective;

FIG. 3 is a schematic view of FIG. 1 from yet another perspective;

FIG. 4 is a schematic view of a portion of the structure of FIG. 1;

fig. 5 is a structural sectional view of a camera module disclosed in an embodiment of the present application in a first state;

fig. 6 is a structural cross-sectional view of the camera module disclosed in the embodiment of the present application in a second state.

Description of reference numerals:

100-suspension, 110-chute;

200-camera module, 210-housing, 220-camera;

300-a stopper, 310-a first plate segment, 320-a second plate segment, 330-a third plate segment, 340-a mounting post;

400-a drive mechanism, 410-a first magnetic member, 420-a second magnetic member;

500-a micro cloud platform structure, 510-a micro cloud platform bracket, 520-a first coil, 530-a second coil, 540-a first magnet;

600-an elastic return member;

700-support member.

Detailed Description

The technical solutions in the embodiments of the present application will be described clearly and completely 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, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within 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 is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the application are capable of operation in sequences other than those illustrated or described herein. 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 following describes the camera module provided in the embodiments of the present application in detail through specific embodiments and application scenarios thereof with reference to the accompanying drawings.

Referring to fig. 1 to 6, an embodiment of the present application discloses a camera module, which includes a suspension 100, a camera module 200, a limiting member 300, a driving mechanism 400, and a micro-cloud stage structure 500.

The suspension 100 is a base member of the camera module, and can provide a mounting base for other constituent members of the camera module.

The camera module 200 can be movably disposed on the suspension 100, and optionally, the camera module 200 can be rotatably connected to the suspension 100, so that the camera module 200 can move relative to the suspension 100 to adjust the position of the camera module 200. The camera module 200 includes a housing 210 and a camera 220, the housing 210 is mainly used for mounting and protecting other components of the camera module 200 from being damaged, and the camera 220 is disposed on the housing 210. Housing 210 is at least partially located within suspension 100, that is, at least a portion of camera module 200 is located within suspension 100.

The limiting member 300 is movably disposed on the suspension 100, that is, the limiting member 300 can move relative to the suspension 100, and the limiting member 300 is adjacent to the housing 210. Optionally, the limiting member 300 is located in the suspension 100, and when the camera module is in the non-shooting mode, the limiting member 300 can limit the housing 210, so as to avoid abnormal sound of the camera module.

The driving mechanism 400 is used to drive the limiting member 300 to move relative to the suspension 100, that is, under the action of the driving mechanism 400, the limiting member 300 can move relative to the suspension 100 to switch the camera module 200 between the first state and the second state. Specifically, in the first state, that is, under the condition that the camera module is in the non-shooting mode, the driving mechanism 400 drives the limiting member 300 to move until the limiting member 300 is engaged with the housing 210, so as to limit the movement of the camera module 200, thereby preventing the camera module from generating abnormal sound in the non-shooting mode. In the second state, that is, when the camera module is in the shooting mode, the driving mechanism 400 drives the limiting member 300 to move in the reverse direction, so that the limiting member 300 is separated from the housing 210, and the camera module 200 is allowed to move.

It should be noted that the camera module disclosed in the embodiment of the present application further includes a micro cloud platform structure 500, after the limiting element 300 is separated from the housing 210, the camera module 200 performs anti-shake shooting under the effect of the micro cloud platform structure 500, the micro cloud platform structure 500 may include a micro cloud platform support 510, a first coil 520, a second coil 530, a first magnet 540, and a second magnet, the camera module 200 further includes a motor, two ends of one diagonal line of the micro cloud platform support 510 may be connected to the motor through structures such as balls, two ends of the other diagonal line of the micro cloud platform support 510 may be connected to the suspension 100 through structures such as balls, the micro cloud platform support 510 and the motor, and the micro cloud platform support 510 and the suspension 100 may also adopt other connection manners, which is not specifically limited in the embodiment of the present application. The housing 210 may be a motor housing, the first coil 520 and the second coil 530 may be disposed on the suspension 100, the first magnet 540 and the second magnet may be disposed on the motor housing, the first coil 520 and the first magnet 540 act, and the second coil 530 and the second magnet act, so as to drive the micro-pan/tilt head bracket 510 to move in different directions.

In the embodiment of the present application, the limiting element 300 is movably disposed on the suspension 100, and the driving mechanism 400 drives the limiting element 300 to move relative to the suspension 100, so as to be engaged with the housing 210 of the camera module 200 or separated from the housing 210 of the camera module 200. In the first state, the limiting member 300 is engaged with the housing 210 to limit the movement of the camera module 200, thereby preventing the camera module from generating abnormal sound; in the second state, the position-limiting member 300 is separated from the housing 210 to allow the camera module 200 to move, and the camera module 200 performs anti-shake photographing under the action of the micro-cloud platform structure. Therefore, the camera module disclosed in the embodiment of the application can solve the problem that abnormal sound easily occurs in the current camera module in a non-shooting mode.

The driving mechanism 400 in the above embodiment may be a motor, a cylinder, a hydraulic cylinder, a shape memory alloy member, a piezoelectric member, or the like, wherein: the motor has the characteristics of small volume, high efficiency and convenient control; the air cylinder and the hydraulic cylinder have the characteristics of large output force and stable and reliable performance; the shape memory alloy part and the piezoelectric part can change in shape, and the piezoelectric element has the characteristics of simplicity in installation and environmental friendliness. In other embodiments, the driving mechanism 400 includes a first magnetic element 410 and a second magnetic element 420, the first magnetic element 410 is disposed on the suspension 100, the second magnetic element 420 is disposed on the limiting element 300, and at least one of the first magnetic element 410 and the second magnetic element 420 is an electromagnetic coil, that is, the first magnetic element 410 may be an electromagnetic coil, the second magnetic element 420 may be an electromagnetic coil, or both the first magnetic element 410 and the second magnetic element 420 may be electromagnetic coils. When the electromagnetic coil is energized, the stopper 300 moves relative to the suspension 100. Optionally, in the first state, the electromagnetic coil is energized to generate a magnetic force between the first magnetic element 410 and the second magnetic element 420, so as to drive the limiting element 300 to move relative to the suspension 100 until the limiting element 300 is engaged with the housing 210, so as to limit the movement of the camera module 200. In the second state, the electromagnetic coil is energized with a reverse current, so that an opposite magnetic force is generated between the first magnetic element 410 and the second magnetic element 420, thereby driving the limiting element 300 to move in a reverse direction relative to the suspension 100, and separating the limiting element 300 from the housing 210, so as to allow the camera module 200 to move. The embodiment of the application adopts the non-contact driving mode, has the characteristics of small friction and quick response, can reduce the abrasion to the limiting part 300, prolongs the service life of the camera module, and can flexibly drive the limiting part 300 to move.

In an optional embodiment, the camera module further includes an elastic resetting member 600, the elastic resetting member 600 is located between the suspension 100 and the limiting member 300, optionally, one end of the elastic resetting member 600 is connected to the suspension 100, the other end of the elastic resetting member 600 is connected to the limiting member 300, and the elastic resetting member 600 always drives the limiting member 300 to be away from the suspension 100, that is, the elastic resetting member 600 always applies a driving force to the limiting member 300 to make the limiting member 300 be away from the suspension 100. Specifically, in the first state, that is, in the case that the camera module is in the non-shooting mode, the electromagnetic coil is energized, and a magnetic force is generated between the first magnetic member 410 and the second magnetic member 420, so that the limiting member 300 is driven to move relative to the suspension 100, until the limiting member 300 is engaged with the housing 210, so as to limit the movement of the camera module 200, and the elastic restoring member 600 is elastically deformed. In the second state, that is, when the camera module is in the shooting mode, the electromagnetic coil is powered off, and the elastic resetting member 600 recovers deformation to drive the limiting member 300 to move in the opposite direction relative to the suspension 100, so that the limiting member 300 is separated from the housing 210, and the camera module 200 is allowed to move. Alternatively, in the second state, that is, in the case that the camera module is in the shooting mode, the electromagnetic coil is energized, and a magnetic force is generated between the first magnetic member 410 and the second magnetic member 420, so that the limiting member 300 is driven to be separated from the housing 210, so as to allow the camera module 200 to move, and the elastic restoring member 600 is elastically deformed and compressed. In the first state, that is, under the condition that the camera module is in the non-shooting mode, the electromagnetic coil is powered off, the elastic resetting member 600 recovers deformation to drive the limiting member 300 to move in the opposite direction relative to the suspension 100, until the limiting member 300 is matched with the housing 210, so as to limit the movement of the camera module 200. Therefore, the power consumption of the camera module can be saved by adopting the elastic reset piece 600 in the embodiment of the application, so that the purpose of energy conservation is realized.

Optionally, a mounting post 340 is disposed on one side of the limiting member 300 facing the suspension 100, the elastic resetting member 600 is a spring, the elastic resetting member 600 is sleeved on the mounting post 340, and when the elastic resetting member 600 is elastically deformed or restores to be elastically deformed, the mounting post 340 provides a guide for the elastic resetting member 600 to stretch, so that the elastic resetting member 600 stretches according to a predetermined direction, and the limiting member 300 is prevented from being inclined in the moving process; meanwhile, the mounting post 340 may limit the compression amount of the elastic restoring member 600, thereby limiting the moving distance of the limiting member 300.

Further optionally, the number of the elastic resetting pieces 600 and the number of the limiting columns 340 are at least two, and the limiting columns 340 are arranged in one-to-one correspondence with the elastic limiting pieces 600. In this application embodiment, set up a plurality of elasticity and reset piece 600 so that reinforcing elasticity resets 600 and restores the drive power to locating part 300 when deformation to accelerate the efficiency that locating part 300 and casing 210 cooperate or separate, promote the user and use experience.

In an alternative embodiment, the first magnetic member 410 is disposed on one side surface of the suspension 100, and optionally, the first magnetic member 410 may be disposed on an outer surface of the suspension 100 or an inner surface of the suspension 100, if the first magnetic member 410 is disposed on the inner surface of the suspension 100, it occupies an inner space of the suspension 100, and it is inconvenient to disassemble and repair the first magnetic member 410 when it is damaged. Therefore, optionally, the first magnetic member 410 may be disposed on an outer surface of the suspension 100 to relieve occupation of an inner space of the suspension 100, so that arrangement of structural members in the suspension 100 is more compact, and thus volume of the camera module is reduced; secondly, after the first magnetic member 410 is damaged, it is convenient to disassemble and repair. The second magnetic member 420 and the limiting member 300 can be an integrated structure, so that the operation is simple when the camera module is installed, and time and labor are saved; secondly, the space in the suspension 100 can be saved, and the space utilization rate of the suspension 100 can be improved. Of course, in other alternative embodiments, the second magnetic element 420 and the limiting element 300 may also be a split structure, and the second magnetic element 420 is disposed on the surface of the limiting element 300, so that it is convenient to disassemble and repair after any one of the second magnetic element 420 and the limiting element 300 is damaged.

In an alternative embodiment, the limiting member 300 is slidably connected to the suspension 100, in the first state, the driving mechanism 400 drives the limiting member 300 to move relative to the suspension 100, and the suspension 100 provides a supporting force for the limiting member 300, so that the limiting member 300 stably moves to be matched with the housing 210 to limit the movement of the camera module 200, thereby preventing the camera module from generating abnormal sound in the non-shooting mode. In the second state, the driving mechanism 400 drives the limiting member 300 to move reversely relative to the suspension 100, so that the limiting member 300 is separated from the housing 210, and the camera module 200 is allowed to move. Compared with the scheme that the limiting member 300 is installed through the driving mechanism 400 and is not in contact with the suspension 100, the embodiment of the application can drive the limiting member 300 to move relative to the suspension 100 more flexibly and stably by adopting a sliding connection manner. The limiting part 300 in the implementation of the present application may be a limiting rod, and the limiting rod may be inserted into the housing 210, so as to be matched with the housing 210, but the contact area between the limiting rod and the housing 210 is small, and the limiting effect is poor. Therefore, optionally, the limiting member 300 includes a first plate section 310, a second plate section 320 and a third plate section 330 connected in sequence, the first plate section 310 is connected to the suspension 100 in a sliding manner, the third plate section 330 is opposite to the first plate section 310, and in the first state, the first plate section 310 and the third plate section 330 cooperate with the housing 210 to limit the movement of the camera module 200. Specifically, in the first state, the driving mechanism 400 drives the limiting member 300 to move relative to the suspension 100, so that the limiting member 300 moves until the first plate section 310 and the third plate section 330 are matched with the housing 210, at this time, the housing 210 may be located between the first plate section 310 and the third plate section 330, and the first plate section 310 and the third plate section 330 generate a clamping force on the housing 210, thereby limiting the housing 210. In this embodiment, the first plate section 310 and the third plate section 330 of the limiting member 300 can be simultaneously matched with the housing 210, so that the housing 210 is further limited in different directions, and the camera module is not prone to abnormal sound in a non-shooting mode. Meanwhile, the structure strength of the limiting member 300 is high, and the matching area between the limiting member and the housing 210 is large, so that the limiting effect is further improved.

Still further alternatively, the suspension 100 is provided with a sliding slot 110, and the third plate section 330 is slidably engaged with the sliding slot 110. In the first state, the driving mechanism 400 drives the limiting member 300 to move relative to the suspension 100, the third plate section 330 of the limiting member 300 is slidably engaged with the sliding slot 110, and the sliding slot 110 provides a guide for the movement of the limiting member 300, so that the limiting member 300 smoothly moves to be engaged with the housing 210. Of course, in other alternative embodiments, the suspension 100 may be provided with a protrusion, the third plate section 330 is provided with a sliding slot, the protrusion on the suspension 100 is slidably engaged with the sliding slot of the third plate section 330, and likewise, the protrusion on the suspension 100 provides a guide for the movement of the limiting member 300, so that the limiting member 300 can move smoothly to engage with the housing 210. In contrast, the former embodiment can make the third plate section 330 directly fit with the sliding groove without separately providing a protrusion, so that the structure of the camera module can be simplified, and the volume of the camera module can be reduced.

Optionally, a support member 700 is disposed on the suspension 100, the support member 700 is located between the suspension 100 and the third plate section 330, and the support member 120 can be fixedly connected to the suspension 100, so as to avoid disposing a sliding groove on the suspension 100, thereby increasing the structural strength of the suspension 100; secondly, the wear of the third plate section 330 to the suspension 100 can also be reduced, thereby extending the service life of the suspension 100.

The second magnetic member 420 may be disposed on the first plate section 310 of the limiting member 300, the second plate section 320 of the limiting member 300, and the third plate section 330 of the limiting member 300, because the first plate section 310 and the third plate section 330 are disposed opposite to each other, and when the limiting member 300 is engaged with the housing 210, the housing 210 is located between the first plate section 310 and the third plate section 330, when the second magnetic member 420 is disposed on the first plate section 310 or the third plate section 330, the distribution of the driving force applied to the limiting member 300 is unbalanced in the first state, and when the driving mechanism 400 drives the limiting member 300, the limiting member 300 is easily tilted. Therefore, in an alternative embodiment, the second magnetic element 420 is disposed on the second plate 320, and in the first state, the driving force distribution applied to the limiting element 300 is balanced, so that the limiting element 300 stably moves to be matched with the housing 210. It should be noted that the second magnetic element 420 may be disposed on a side of the second plate segment 320 departing from the casing 210, or may be disposed on a side of the second plate segment 320 opposite to the casing 210, and of course, the second magnetic element 420 and the limiting element 300 may also be disposed in an integrated structure, which is not limited in this application.

The embodiment of the application also discloses electronic equipment which comprises the camera module in any embodiment.

Based on the electronic device disclosed by the embodiment of the invention, the embodiment of the application also discloses a control method of the electronic device, the disclosed control method is applied to the electronic device, and the disclosed control method comprises the following steps:

s100, in the shooting mode, the driving mechanism 400 drives the limiting member 300 to switch to the second state.

The second state is that the limiting member 300 is engaged with the housing 210.

S200, in the non-shooting mode, the driving mechanism 400 drives the limiting member 300 to switch to the first state.

The first state here means that the drive mechanism 400 is separated from the housing 210.

In the control method, the limiting element 300 is movably disposed on the suspension 100, and the driving mechanism 400 drives the limiting element 300 to move relative to the suspension 100, so as to be engaged with the housing 210 of the camera module 200 or separated from the housing 210 of the camera module 200. In the first state, the limiting member 300 is engaged with the housing 210 to limit the movement of the camera module 200, thereby preventing the camera module from generating abnormal sound; in the second state, the position-limiting member 300 is separated from the housing 210 to allow the camera module 200 to move, and the camera module 200 performs anti-shake photographing under the action of the micro-cloud platform structure. Therefore, the electronic equipment disclosed by the embodiment of the application can solve the problem that abnormal sound easily occurs to the camera module of the existing electronic equipment in a non-shooting mode.

The electronic device disclosed in the embodiment of the present application may be an electronic device such as a smart phone, a tablet computer, an electronic book reader, a wearable device (e.g., a smart watch), and an electronic game machine, and the kind of the electronic device is not particularly 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 (10)

1. The utility model provides a camera module which characterized in that includes:

a suspension;

the camera module is movably arranged on the suspension and comprises a shell, and the shell is at least partially positioned in the suspension;

the limiting piece is movably arranged on the suspension, and the limiting piece is adjacent to the shell;

the driving mechanism is used for driving the limiting piece to move relative to the suspension frame so as to switch the camera module between a first state and a second state;

in the first state, the limiting piece is matched with the shell to limit the movement of the camera module; in the second state, the limiting part is separated from the shell to allow the camera module to move.

2. The camera module according to claim 1, wherein the driving mechanism includes a first magnetic member and a second magnetic member, the first magnetic member is disposed on the suspension, the second magnetic member is disposed on the limiting member, and at least one of the first magnetic member and the second magnetic member is an electromagnetic coil;

when the electromagnetic coil is energized, the stopper moves relative to the suspension.

3. The camera module of claim 2, further comprising an elastic restoring member, wherein the elastic restoring member is located between the suspension and the limiting member, and the elastic restoring member normally drives the limiting member away from the suspension.

4. The camera module according to claim 3, wherein a mounting post is disposed on a side of the limiting member facing the suspension, the elastic restoring member is a spring, and the elastic restoring member is sleeved on the mounting post.

5. The camera module according to claim 2, wherein the first magnetic member is disposed on a side surface of the suspension; the second magnetic part and the limiting part are of an integrated structure; or, the second magnetic part and the limiting part are of a split structure, and the second magnetic part is arranged on the surface of the limiting part facing the suspension.

6. The camera module according to claim 1, wherein the limiting member is slidably connected to the suspension, the limiting member includes a first plate segment, a second plate segment and a third plate segment connected in sequence, the first plate segment is slidably connected to the suspension, and the third plate segment is opposite to the first plate segment;

in the first state, the first plate section and the third plate section are matched with the shell to limit the movement of the camera module.

7. The camera module of claim 6, wherein the suspension is provided with a sliding slot, and the third plate section is slidably engaged with the sliding slot.

8. The camera module of claim 7, wherein the second magnetic member is disposed on the second plate segment.

9. An electronic device, comprising the camera module according to any one of claims 1 to 8.

10. A control method of an electronic device, applied to the electronic device according to claim 9, the method comprising:

in a shooting mode, the driving mechanism drives the limiting piece to be switched to the second state;

in a non-shooting mode, the driving mechanism drives the limiting piece to be switched to the first state.

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