CN112653827A - Camera assembly and electronic equipment - Google Patents

Abstract

The application discloses camera subassembly and electronic equipment, camera subassembly includes: the camera module comprises a support, a camera module and a limiting piece, wherein the support comprises a containing cavity, the camera module and the limiting piece are both contained in the containing cavity, and the limiting piece is arranged on the inner wall of the camera module or the containing cavity. Like this, when the camera module was in first state, locating part and the inner wall in holding chamber or camera module butt to form limiting displacement to the camera module, reduce the camera module because portable for the support, and the appearance of the phenomenon of the noise that produces with other part bumps.

Description

Camera assembly and electronic equipment

Technical Field

The application belongs to the technical field of electronics, concretely relates to camera subassembly and electronic equipment.

Background

With the development of electronic technology, people have higher and higher requirements for taking pictures of electronic equipment, and therefore, cameras with a plurality of specific functions are arranged on the electronic equipment, and in the process of implementing the application, the applicant finds that at least the following problems exist in the prior art: because the needs of the shooting effect, camera module sets up and can removes for relative support, but when camera module on electronic equipment can remove for the support, rocks electronic equipment and can make the noise of camera module great.

Disclosure of Invention

The application aims at providing a camera assembly and electronic equipment, and the problem that the noise of the camera module is large is solved at least.

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 assembly, including: the camera module comprises a support, a camera module and a limiting piece, wherein the support comprises an accommodating cavity, the camera module and the limiting piece are accommodated in the accommodating cavity, and the limiting piece is arranged on the inner wall of the camera module or the accommodating cavity;

when the limiting piece is arranged on the camera module, the limiting piece is abutted against the inner wall of the accommodating cavity under the condition that the camera module is in a first state; under the condition that the camera module is in a second state, the limiting piece is separated from the inner wall of the accommodating cavity;

when the limiting piece is arranged on the inner wall of the accommodating cavity, the limiting piece is abutted against the camera module under the condition that the camera module is in a first state; and under the condition that the camera module is in a second state, the limiting piece is separated from the camera module.

In a second aspect, an embodiment of the present application provides an electronic device, including: a camera assembly is provided in an embodiment of the first aspect.

In the embodiment of the application, when the camera module is in the first state, the limiting piece is abutted against the inner wall of the accommodating cavity or the camera module, so that a limiting effect is formed on the camera module, and the phenomenon that the camera module is movable relative to the bracket and collides with other parts to generate noise is reduced; when the camera module is in the second state, the locating part separates from the inner wall of the accommodating cavity or the camera module, so that the shooting effect of the camera module cannot be influenced.

Additional aspects and advantages of the present application will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the present application.

Drawings

The above and/or additional aspects and advantages of the present application will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 is a schematic structural diagram of a camera head assembly according to an embodiment of the present disclosure;

fig. 2 is a schematic structural diagram of a camera assembly applied to an electronic device according to an embodiment of the present disclosure;

fig. 3 is a second schematic structural diagram of a camera head assembly according to an embodiment of the present disclosure;

fig. 4 is a third schematic structural diagram of a camera head assembly according to an embodiment of the present disclosure;

FIG. 5 is one of the cross-sectional views along B-B of FIG. 4 provided by embodiments of the present application;

fig. 6 is a second cross-sectional view taken along line B-B of fig. 4 in accordance with an exemplary embodiment of the present disclosure.

Detailed Description

Reference will now be made in detail to embodiments of the present application, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present application and are not to be construed as limiting 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 features of the terms first and second in the description and in the claims of the present application may explicitly or implicitly include one or more of such features. In the description of the present application, "a plurality" means two or more unless otherwise specified. 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.

In the description of the present application, it is to be understood that the terms "central," "longitudinal," "lateral," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "clockwise," "counterclockwise," "axial," "radial," "circumferential," and the like are used in the orientations and positional relationships indicated in the drawings for convenience in describing the present application and to simplify the description, and are not intended to indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and are therefore not to be considered limiting of the present application.

In the description of the present application, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present application can be understood in a specific case by those of ordinary skill in the art.

A camera assembly and an electronic device according to embodiments of the present application are described below in conjunction with fig. 1-6.

Referring to fig. 1, fig. 1 is a schematic structural diagram of a camera head assembly according to some embodiments of the present application, and as shown in fig. 1, the camera head assembly includes: the camera module comprises a support 10, a camera module 20 and a limiting piece 30, wherein the support 10 comprises an accommodating cavity 11, the camera module 20 and the limiting piece 30 are both accommodated in the accommodating cavity 11, and the limiting piece 30 is arranged on the inner wall of the camera module 20 or the accommodating cavity 11;

when the limiting member 30 is disposed on the camera module 20, the limiting member 30 abuts against the inner wall of the accommodating cavity 11 when the camera module 20 is in the first state; when the camera module 20 is in the second state, the limiting member 30 is separated from the inner wall of the accommodating cavity 11;

when the limiting member 30 is disposed on the inner wall of the accommodating cavity 11, the limiting member 30 abuts against the camera module 20 when the camera module 20 is in the first state; in the case that the camera module 20 is in the second state, the limiting member 30 is separated from the camera module 20.

The working principle of the embodiment of the application can be referred to as the following expression:

due to the requirement of shooting, when the camera module 20 shoots a shooting object far away from the camera module 20 (for example, a landscape far away from the camera module 20), the shooting effect is generally poor, and therefore, the camera module 20 needs to be arranged in a manner that the camera module 20 can move relative to the bracket 10 (the moving direction can be referred to as a direction shown in a in fig. 1 and 3), so that the position of the camera module 20 can be determined according to the distance between the shooting object and the camera module 20, and the shooting effect of the camera module 20 is better when the shooting object near the camera module 20 or the shooting object far away from the camera module 20 is shot.

In the embodiment of the present application, when the camera module 20 is in the second state, the limiting member 30 is separated from the inner wall of the accommodating cavity 11 or the camera module 20, so that the shooting effect of the camera module 20 is not affected; when the camera module 20 is in the first state, the limiting member 30 abuts against the inner wall of the accommodating cavity 11 or the camera module 20, so that a limiting effect is formed on the camera module 20, and the phenomenon that the camera module 20 is movable relative to the bracket 10 and collides with other components to generate noise is reduced.

When the camera assembly in the embodiment of the present application is applied to an electronic device, when the camera module 20 in the camera assembly 100 is located on a display screen of the electronic device, the camera module 20 may be referred to as a front camera; referring to fig. 2, when the camera module 20 is located on the cover 200 of the electronic device, the camera module 20 may be referred to as a rear camera.

In addition, can be provided with the magnetic induction spare on the inner wall of holding chamber 11, when camera module 20 is in the second state, camera module 20 circular telegram, corresponding magnetic induction spare can produce magnetic field force when passing through electric current, like this, can promote camera module 20 and move for support 10 under the effect of magnetic field force to the completion is to the shooting of different shooting objects. And when camera module 20 is in the first state, at this moment, camera module 20 cuts off the power supply, then corresponding magnetic induction spare also cuts off the power supply, and magnetic field force disappears this moment, and then camera module 20 can move relatively support 10 (the direction of motion can refer to the direction shown in A in fig. 1 and 3) equally to can collide with the part of camera subassembly, produce the noise. When the camera module 20 is in the first state, the limiting member 30 abuts against the camera module 20 or the inner wall of the accommodating cavity 11, and the camera module 20 does not move relative to the bracket 10, so that noise is reduced.

It should be noted that, referring to fig. 1 and fig. 3, the magnetic induction element includes a coil 111 and a magnet 112, and a sensor 113 may be further disposed on the inner wall of the accommodating cavity 11 or on the camera module 20, for example: the sensor 113 may be a hall sensor. In addition, the magnetic force may include lorentz force and ampere force, and the specific type is not limited herein.

Wherein, camera module 20 is in the second state and indicates: the camera module 20 is in the power-on state, and can acquire an image of a shooting object or a preview image, that is, the second state can be understood as that the camera module 20 is in the working state; the camera module 20 in the first state may refer to: the camera module 20 is in the power-off state, and it is not necessary to collect an image of a shooting object or a preview image, that is, the first state can be understood that the camera module 20 is in the non-operating state.

As an alternative embodiment, referring to fig. 1, 3-6, the camera module further includes a light reflecting structure 40, where the light reflecting structure 40 is located on one side of the camera module 20, and the light reflecting structure 40 is opposite to the light inlet of the camera module 20.

The specific structure of the light reflecting structure 40 is not limited herein, for example: the light reflecting structure 40 may be a prism or a mirror plate. Like this, reflection of light structure 40 can be with the light reflection among the external environment in the light inlet of camera module 20 to the propagation path of light has been prolonged, that is to say this moment camera module 20 is long focus, and then makes camera module 20 better to the shooting effect of the shooting object far away from. Correspondingly, when the camera module 20 shoots a shooting object with a longer distance, the focal length of the camera module 20 can be a short focal length.

In this embodiment, the light reflecting structure 40 and the camera module 20 may form the periscopic camera module 20, so that the shooting effect of the shooting object at a longer distance is better.

In addition, the camera module 20 may also be connected to the control chip, so that the image acquired by the camera module 20 may be sent to the control chip.

It should be noted that, optionally, referring to fig. 1, fig. 3 and fig. 4, a limiting structure 12 may be further disposed on an inner wall of the accommodating cavity 11, and the limiting structure 12 is located between the camera module 20 and the light reflecting structure 40. Like this, when camera module 20 is in second state or first state, camera module 20 can with limit structure 12 butt when removing to reflective structure 40 to reduce camera module 20 and reflective structure 40 and bump, thereby cause the appearance of the phenomenon of damage to camera module 20 or reflective structure 40.

In addition, limit structure 12 may be further provided with a buffer member, so that the phenomenon that camera module 20 or limit structure 12 is damaged when camera module 20 contacts with limit structure 12 can be reduced, and the buffer member may be a rubber member or a spring member.

In addition, optionally, referring to fig. 1, 3 and 4, a first guide 21 may be disposed on the camera module 20, a second guide 13 may be disposed on an inner wall of the accommodating chamber 11, and the camera module 20 and the inner wall of the accommodating chamber 11 are slidably connected through the first guide 21 and the second guide 13.

When the limiting member 30 is disposed on the camera module 20, the first guide member 21 and the limiting member 30 may be located on different surfaces, and similarly, when the limiting member 30 is disposed on the inner wall of the accommodating cavity 11, the second guide member 13 and the limiting member 30 may also be located on different inner walls.

Here, one of the first guide 21 and the second guide 13 may be a guide rail, and the other may be a slider or a roller. The sliding member may be a sleeve, and the rolling member may be a roller, which is not limited herein.

In this way, the first guide 21 and the second guide 13 cooperate with each other to guide the moving direction of the camera module 20, thereby reducing the occurrence of the phenomenon that the camera module 20 deviates from the predetermined direction during movement.

As an optional implementation manner, referring to fig. 5 and 6, when the limiting member 30 is disposed on the camera module 20, a metal elastic sheet 22 is further disposed on the camera module 20, a first end of the metal elastic sheet 22 is electrically connected to the limiting member 30, and a feeding point 14 is disposed on an inner wall of the accommodating cavity 11;

referring to fig. 5, when the camera module 20 is in the first state, the second end of the metal elastic sheet 22 abuts against the feeding point 14, and the limiting member 30 abuts against the inner wall of the accommodating cavity 11; referring to fig. 6, when the camera module 20 is in the second state, the second end of the metal dome 22 is separated from the feeding point 14, and the limiting member 30 is separated from the inner wall of the accommodating cavity 11.

The second end of the metal elastic sheet 22 may be L-shaped, so that the phenomenon that the metal elastic sheet 22 scratches the inner wall of the accommodating cavity 11 can be reduced.

The metal elastic sheet 22 may be directly electrically connected to the limiting member 30, of course, the metal elastic sheet 22 and the limiting member 30 may also be electrically connected through a conductive member 31, and the conductive member 31 may be a metal connecting member or a printed circuit board, and the specific manner is not limited herein.

In this embodiment, the metal elastic sheet 22 abuts against and separates from the feeding point 14, so that the limiting member 30 is controlled to abut against or separate from the inner wall of the accommodating cavity 11 correspondingly, and the limiting member 30 is controlled more conveniently.

Meanwhile, when the camera module includes the light reflecting structure 40, the metal elastic sheet 22 may be located between the limiting member 30 and the light reflecting structure 40, and correspondingly, the feeding point 14 is also located between the limiting member 30 and the light reflecting structure 40, so that the phenomenon that the feeding point 14 is scratched by the limiting member 30 may be reduced.

In addition, when the metal dome 22 abuts against the feeding point 14, the limiting member 30 can be powered on, and at this time, the limiting member 30 can extend to abut against the inner wall of the accommodating cavity 11; when the metal dome 22 is separated from the feeding point 14, the position-limiting member 30 can be broken, and at this time, the position-limiting member 30 can be retracted, so as to be separated from the inner wall of the accommodating cavity 11.

Of course, the specific structure of the limiting member 30 is not limited herein. For example: the limiting member 30 may be a memory metal member, an air cylinder, or a telescopic rod.

For example: as an optional implementation manner, the limiting member 30 is a memory metal member, and when the memory metal member is powered on, the memory metal member extends along a direction toward the inner wall of the accommodating cavity or toward the camera module, and when the memory metal member is powered off, the memory metal member shortens along a direction away from the inner wall of the accommodating cavity or away from the camera module.

When the limiting member 30 (i.e., the memory metal member) is disposed on the camera module 20 and the camera module 20 is in the first state (which may also be understood as an inoperative state), the memory metal member may be in an energized state, and at this time, the memory metal member may extend along a direction toward the inner wall of the accommodating cavity 11 and abut against the inner wall of the accommodating cavity 11, so as to limit the camera module 20; when the camera module 20 is in the second state (which can also be understood as a working state), the memory metal part can be in a power-off state, and then the memory metal part can be shortened along the direction of the inner wall departing from the accommodating cavity 11, i.e. the memory metal part is separated from the camera module 20, so that the camera module 20 can normally move to complete shooting.

Similarly, when the memory metal part is disposed on the inner wall of the accommodating cavity 11, the difference from the above memory metal part disposed on the camera module 20 is: when the memory metal part is in the on state, the memory metal part can be extended along the direction towards the camera module 20 and is abutted against the camera module 20, so that the camera module 20 is limited. When the memory metal part is in the power-off state, the memory metal part can be shortened along the direction deviating from the camera module 20, so that the memory metal part is separated from the camera module 20, and the camera module 20 can normally move to complete shooting.

In this embodiment, because the memory metal part can be extended under the power-on condition, and shortened under the power-off condition, simultaneously, because the memory metal part can have the performance of returning to the initial position when shortening, thereby make the memory metal part can not cause the normal removal when shooing to camera module 20 and block when shortening, thereby make spacing to camera module 20 more convenient.

As an optional implementation, the camera head assembly further includes a feeding circuit, the feeding point 14 is a feeding point in the feeding circuit, and the feeding circuit further includes a controller, the controller is electrically connected to the feeding point 14;

the controller is turned on when the camera module 20 is in the first state, and is turned off when the camera module 20 is in the second state.

The feeding circuit may be used to feed the feeding point 14, so as to feed the limiting member 30 through the metal dome 22, and of course, the feeding circuit may also feed other components, which is not limited herein.

The specific type of the controller is not limited herein, for example: the controller may be a control switch.

In this way, by turning on and off the controller, whether the feeding point 14 feeds power to the limiting member 30 can be controlled, so that the control manner is more flexible, and the feeding is safer.

As an alternative embodiment, referring to fig. 5, when the limiting member 30 is disposed on the camera module 20, a first groove 15 is formed on an inner wall of the accommodating cavity 11;

referring to fig. 5, when the camera module 20 is in the first state, the limiting member 30 is embedded in the first groove 15, and when the camera module 20 is in the second state, the limiting member 30 is separated from the first groove 15, referring to fig. 6.

It should be noted that, as an optional implementation manner, the first groove 15 may also be movably disposed on the inner wall of the accommodating cavity 11, referring to fig. 5, when the camera module 20 is in the first state, the first groove 15 may protrude out of the plane where the inner wall of the accommodating cavity 11 is located, and the limiting member 30 is embedded in the first groove 15, at this time, the first groove 15 may further enhance the limiting effect on the camera module 20; referring to fig. 6, when the camera module 15 is in the second state, the first groove 15 may be located on a plane on the inner wall of the accommodating cavity 11, or located on a plane below the plane on the inner wall of the accommodating cavity 11, and at this time, the limiting member 30 is separated from the first groove 15, so that the first groove 15 does not block the normal movement of the camera module 20.

As another optional embodiment, when the limiting member 30 is disposed on the camera module 20, a first protrusion is disposed on an inner wall of the accommodating cavity 11;

when the camera module 20 is in the first state, the limiting member 30 abuts against the first protrusion, and when the camera module 20 is in the second state, the limiting member 30 is separated from the first protrusion.

The difference between the two embodiments is that the inner wall of the accommodating cavity 11 is provided with a first groove 15 or a first protrusion, and when the limiting member 30 is embedded in the first groove 15 or abuts against the first protrusion, the limiting effect on the camera module 20 is better.

In addition, it should be noted that, when the inner wall of the accommodating cavity 11 is provided with the first protruding portion, an installation gap needs to be provided between the camera module 20 and the inner wall of the accommodating cavity 11, and the width of the installation gap needs to be greater than the width of the first protruding portion (i.e., the width in the direction perpendicular to the inner wall of the accommodating cavity 11 and the camera module 20, respectively), so that the normal movement of the camera module 20 during shooting cannot be blocked.

In addition, the specific expression of the limiting member 30 can also refer to the corresponding expression in the previous embodiment, and details are not repeated herein.

In this way, the limiting effect of the limiting member 30 on the camera module 20 is further enhanced by the above two methods.

As an alternative embodiment, referring to fig. 1 and 3, when the limiting member 30 is disposed on the inner wall of the accommodating cavity 11, a second groove 23 is formed on the camera module 20;

referring to fig. 1, when the camera module 20 is in the first state, the limiting member 30 is embedded in the second groove 23, and when the camera module 20 is in the second state, the limiting member 30 is separated from the second groove 23, referring to fig. 3.

As another optional embodiment, when the limiting member 30 is disposed on the inner wall of the accommodating cavity 11, a second protruding portion is disposed on the camera module 20;

when the camera module 20 is in the first state, the limiting member 30 abuts against the second protrusion, and when the camera module 20 is in the second state, the limiting member 30 is separated from the second protrusion.

The two above-described embodiments are different from the other above-described embodiments in that: the second groove 23 and the second protrusion are disposed on the camera module 20, and the first groove 15 and the first protrusion are disposed on the inner wall of the accommodating chamber 11.

It should be noted that, the second protruding portion may refer to the related expression of the first protruding portion, and details are not described herein again.

In this way, the limiting effect of the limiting member 30 on the camera module 20 can be further enhanced in the above two ways. Meanwhile, the flexibility of the position of the limiting member 30 is further improved.

In the description herein, reference to the description of the terms "one embodiment," "some embodiments," "an illustrative embodiment," "an example," "a specific example," or "some examples" or the like means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the application. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

While embodiments of the present application have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the application, the scope of which is defined by the claims and their equivalents.

Claims (10)

1. A camera head assembly, comprising: the camera module comprises a support, a camera module and a limiting piece, wherein the support comprises an accommodating cavity, the camera module and the limiting piece are accommodated in the accommodating cavity, and the limiting piece is arranged on the inner wall of the camera module or the accommodating cavity;

when the limiting piece is arranged on the camera module, the limiting piece is abutted against the inner wall of the accommodating cavity under the condition that the camera module is in a first state; under the condition that the camera module is in a second state, the limiting piece is separated from the inner wall of the accommodating cavity;

when the limiting piece is arranged on the inner wall of the accommodating cavity, the limiting piece is abutted against the camera module under the condition that the camera module is in a first state; and under the condition that the camera module is in a second state, the limiting piece is separated from the camera module.

2. The camera assembly of claim 1, further comprising a light reflecting structure disposed on one side of the camera module, wherein the light reflecting structure is opposite to the light inlet of the camera module.

3. The camera assembly according to claim 1, wherein when the limiting member is disposed on the camera module, a metal spring is further disposed on the camera module, a first end of the metal spring is electrically connected to the limiting member, and a feeding point is disposed on an inner wall of the accommodating cavity;

under the condition that the camera module is in a first state, the second end of the metal elastic sheet is abutted against the feeding point, and the limiting piece is abutted against the inner wall of the accommodating cavity; and under the condition that the camera module is in the second state, the second end of the metal elastic sheet is separated from the feeding point, and the limiting piece is separated from the inner wall of the accommodating cavity.

4. The camera assembly of claim 3, further comprising a feed circuit, wherein the feed point is a feed point in the feed circuit, and further comprising a controller in the feed circuit, the controller being electrically connected to the feed point;

wherein the controller is turned on when the camera module is in a first state, and is turned off when the camera module is in a second state.

5. The camera assembly according to claim 1, wherein when the position-limiting member is disposed on the camera module, a first groove is formed on an inner wall of the accommodating cavity;

under the condition that the camera module is in the first state, the limiting piece is embedded in the first groove, and under the condition that the camera module is in the second state, the limiting piece is separated from the first groove.

6. The camera assembly according to claim 1, wherein when the position-limiting member is disposed on the camera module, a first protrusion is disposed on an inner wall of the receiving cavity;

the camera module comprises a first boss, a second boss and a limiting piece, wherein the first boss is connected with the limiting piece, and the second boss is connected with the second boss.

7. The camera assembly according to claim 1, wherein when the position-limiting member is disposed on the inner wall of the accommodating cavity, a second groove is formed on the camera module;

under the condition that the camera module is in the first state, the limiting piece is embedded in the second groove, and under the condition that the camera module is in the second state, the limiting piece is separated from the second groove.

8. The camera assembly according to claim 1, wherein when the position-limiting member is disposed on the inner wall of the accommodating cavity, a second protrusion is disposed on the camera module;

the limiting piece is abutted to the second boss portion when the camera module is in the first state, and the limiting piece is separated from the second boss portion when the camera module is in the second state.

9. The camera assembly according to any one of claims 1 to 8, wherein the retaining member is a memory metal member, and when the memory metal member is powered on, the memory metal member is elongated in a direction toward an inner wall of the accommodating cavity or toward the camera module, and when the memory metal member is powered off, the memory metal member is shortened in a direction away from the inner wall of the accommodating cavity or away from the camera module.

10. An electronic device comprising a camera assembly according to any of claims 1-9.

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