CN114666482A - Imaging device and electronic apparatus - Google Patents

Abstract

The application provides a camera device and electronic equipment belongs to electronic equipment technical field, and wherein, camera device includes: the lens comprises a shell, a lens holder and a lens, wherein the shell comprises a top wall, and a lens hole is formed in the top wall; the driving assembly is arranged in the shell; the carrier is connected with the driving assembly, the driving assembly is used for driving the carrier to move, and the carrier comprises a first protruding portion which protrudes towards the top wall; the lens is arranged on the carrier, the first bulge part surrounds the periphery of the lens, and the lens is opposite to the lens hole; wherein, under the condition that the lens is at the initial position, the first bulge part is abutted against the top wall; in a case where the carrier and the lens are driven to move by the driving assembly, the first convex portion is away from the top wall. In the embodiment of the application, the possibility that foreign matters such as external dust enter the interior of the camera device through the lens hole is reduced, and therefore the reliability of the camera device is improved.

Description

Imaging device and electronic apparatus

Technical Field

The application belongs to the technical field of electronic equipment, and particularly relates to a camera device and electronic equipment.

Background

In the correlation technique, after the motor and the lens of electronic equipment such as cell-phone were assembled, the initial position of motor corresponds to the general more scenery that is close to infinity of camera lens focus, the camera lens carrier initial position is in the bottom or the centre in motor stroke space when also being camera module standby state, and then when camera module standby, there is certain hole between the top of carrier and the casing of camera lens, and then at the in-process of production installation, foreign matter such as dust enters into between carrier and the casing easily, thereby influence the operation and the use of camera module.

Disclosure of Invention

The application aims at providing a camera device and electronic equipment, which can solve one of the technical problems that in the related art, the camera device is easy to enter dust and other foreign matters in the installation process, so that the reliability of the camera device is influenced.

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

in a first aspect, the present application provides an image pickup apparatus comprising:

the lens comprises a shell, a lens body and a lens cover, wherein the shell comprises a top wall, and a lens hole is formed in the top wall;

the driving assembly is arranged in the shell;

the carrier is connected with the driving assembly, the driving assembly is used for driving the carrier to move, and the carrier comprises a first protruding portion which protrudes towards the top wall;

the lens is arranged on the carrier, the first bulge part surrounds the periphery of the lens, and the lens is opposite to the lens hole;

wherein, under the condition that the lens is at the initial position, the first bulge part is abutted against the top wall; in a case where the carrier and the lens are driven to move by the driving assembly, the first boss is away from the top wall.

In a second aspect, the present application provides an electronic device comprising:

the imaging apparatus as set forth in the first aspect.

In the embodiment of this application, camera device includes casing, drive assembly, carrier and camera lens, and drive assembly and carrier are connected to realize that the drive carrier moves for the casing, and, install the camera lens on the carrier, the camera lens corresponds the lens hole on the casing roof, thereby light can penetrate on the camera lens through the lens hole, and then realizes shooing, and drive assembly can drive the carrier and drive the camera lens motion, thereby realizes the adjustment of focus.

And, the carrier is provided with first bellying towards one side of the roof of casing, and under the condition that the camera lens is in initial condition, first bellying and the roof of casing offset to, first bellying encircles in the lens hole, thereby seals the lens hole, assembles or transports camera device etc. in-process, reduces foreign matter such as external dust and enters into the inside possibility of camera device through the lens hole, thereby promotes camera device's reliability.

In the initial state, if the driving assembly drives the carrier and the lens to move, the first protruding portion will be far away from the top wall, so that the adjustment of the focal length is realized.

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 illustrates a cross-sectional view of an image pickup apparatus provided in an embodiment of the present application;

fig. 2 illustrates an exploded view of a camera device provided in an embodiment of the present application;

fig. 3 is a schematic view illustrating a lens, a carrier, a first elastic member, and a second elastic member in an image pickup apparatus according to an embodiment of the present application;

fig. 4 shows a partial enlarged view of the image pickup apparatus shown in fig. 1.

Fig. 1 to 4 reference numerals:

100 camera device, 110 shell, 112 top wall, 114 lens hole, 116 fourth bulge, 120 driving component, 122 coil, 124 magnetic part, 130 carrier, 132 first bulge, 134 second bulge, 140 lens, 150 seat body, 152 groove, 154 groove bottom, 156 third bulge, 160 first elastic part, 170 second elastic part, 180 photosensitive component, 182 bottom shell, 184 circuit board, 186 photosensitive component, 190 filter.

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

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 this application will be understood to be a specific case for those of ordinary skill in the art.

The image pickup apparatus 100 and the electronic device according to the embodiment of the present application are described below with reference to fig. 1 to 4.

As shown in fig. 1, 2 and 4, the present application provides an image pickup apparatus 100 including: the lens comprises a shell 110, wherein the shell 110 comprises a top wall 112, and a lens hole 114 is formed in the top wall 112; a driving assembly 120 disposed in the housing 110; a carrier 130 connected to the driving assembly 120, the driving assembly 120 being used for driving the carrier 130 to move, the carrier 130 including a first protrusion 132, the first protrusion 132 being protruded toward the top wall 112; the lens 140 is arranged on the carrier 130, the first bulge 132 is encircled on the periphery of the lens 140, and the lens 140 is opposite to the lens hole 114; wherein, with the lens 140 in the initial position, the first boss 132 and the top wall 112 are abutted; in a case where the carrier 130 and the lens 140 are driven to move by the driving assembly 120, the first protruding portion 132 is away from the top wall 112.

In the embodiment of the present application, the image capturing apparatus 100 includes a housing 110, a driving component 120, a carrier 130 and a lens 140, the driving component 120 is connected to the carrier 130, so as to drive the carrier 130 to move relative to the housing 110, and the lens 140 is installed on the carrier 130, and the lens 140 corresponds to the lens hole 114 on the top wall 112 of the housing 110, so that light can be emitted onto the lens 140 through the lens hole 114, thereby implementing shooting, and the driving component 120 can drive the carrier 130 to drive the lens 140 to move, thereby implementing adjustment of a focal length.

The first protrusion 132 is convexly disposed on a side of the carrier 130 facing the top wall 112 of the housing 110, when the lens 140 is in the initial state, the first protrusion 132 abuts against the top wall 112 of the housing 110, and the first protrusion 132 surrounds the lens hole 114 to close the lens hole 114, so that the possibility that foreign objects such as external dust enter the camera through the lens hole 114 during the process of assembling or transporting the camera 100 is reduced, thereby improving the reliability of the camera 100.

In the initial state, if the carrier 130 and the lens 140 are driven by the driving assembly 120 to move, the first protruding portion 132 will be away from the top wall 112, so as to achieve the adjustment of the focal length.

Specifically, when the image pickup apparatus 100 is assembled, since the carrier 130 abuts against the top wall 112 of the housing 110 when the lens 140 is in the initial state, that is, in the case of the initial state, the driving assembly 120 supports the carrier 130, so that the carrier 130 abuts against the top wall 112 of the housing 110, and the lens hole 114 can be closed on the peripheral side of the lens hole 114, so that foreign objects such as external dust cannot enter the inside of the image pickup apparatus 100, and the shooting effect and the zooming effect are improved.

Moreover, after the image capturing device 100 is installed on an electronic device, the end face of the lens 140 is closer to the screen (front camera) or the cover glass (rear camera) in front of the lens, and the edge of the end face of the lens 140 and the part of the structure of the driving assembly 120 or the housing 110 are not easily seen under the normal opening size of the screen or the cover glass, so that the defects caused by the appearance problem are reduced, the yield is improved, and the production cost is reduced. Meanwhile, the carrier 130 is in an initial state and tightly attached to the top wall 112 of the housing 110 to form a closed structure, so that the possibility that external dust, foreign matters and the like enter the image pickup device 100 is reduced. In an initial state, the lens 140 stays away from the photosensitive component 180, the focal point of the lens 140 is on a close-distance object, and when a longer-distance object needs to be focused, the driving component 120 pulls down the lens 140 and the carrier 130 so that the lens 140 is close to the photosensitive component 180, and the focusing on the longer-distance object can be achieved.

As shown in fig. 1, as a possible embodiment, the image capturing apparatus 100 further includes: the base 150 is connected to the housing 110, the housing 110 and the base 150 form a receiving cavity, the carrier 130 and the driving element 120 are located in the receiving cavity, a side of the base 150 facing the carrier 130 is provided with a groove 152, peripheral sidewalls of the driving element 120 and the carrier 130 are connected, and a projection of at least a portion of the peripheral sidewalls of the carrier 130 on the base 150 along the first direction is located at a groove bottom 154 of the groove 152.

Specifically, the bottom of the housing 110 is provided with a seat body 150, and after the housing 110 and the seat body 150 are matched, a receiving chamber is formed therein, the driving assembly 120 and the carrier 130 are disposed inside the receiving chamber, thereby forming an integral, modular structure, and the drive assembly 120 is connected to the peripheral sidewall of the carrier 130, and the drive assembly 120 is also connected to the peripheral sidewall of the housing 110, thereby effecting driving of the carrier 130, a groove 152 is provided on the holder body 150 toward one side of the carrier 130, and a notch of the groove 152 is provided corresponding to at least a part of the peripheral side wall of the carrier 130, that is, the peripheral side of the carrier 130 is located above the groove 152, so that, if friction dust is generated while the driving assembly 120 is in operation, it falls into the groove 152, the possibility that dust generated by friction of the driving assembly 120 enters the space below the lens 140 is reduced, so that the shooting effect is improved, and the shooting reliability is improved.

Wherein, the direction from the carrier 130 to the base 150 is a first direction, as shown in fig. 1, the carrier 130 performs parallel projection along the first direction base 150, at least a part of the edge of the projection is located at the bottom wall of the groove 152, that is, the peripheral sidewall of the carrier 130 is located above the groove 152, so when the driving component 120 operates, if friction dust is generated, the friction dust will fall into the groove 152, and the possibility that the dust generated by the friction of the driving component 120 enters the space below the lens 140 is reduced, thereby improving the shooting effect and the shooting reliability. In particular, the recess 152 is annular and the projected edge of the carrier 130 is located entirely at the bottom 154 of the recess 152.

That is, the structure of the base 150 and the carrier 130 is improved, so that the second protruding portion 134 on the carrier 130 extends into the groove 152 of the base 150 in the initial state, thereby forming a relatively sealed structure, and dust generated by operation abrasion of the driving assembly 120 falls into the groove 152, and is not easy to return to the driving assembly 120 again, and is not easy to enter the lower space of the lens 140, thereby improving the reliability of the image pickup apparatus 100.

Further, the groove 152 may be annular groove 152 so as to be disposed corresponding to a circumference of the carrier 130.

As shown in fig. 1, as one possible embodiment, the carrier 130 includes: a second boss 134, the second boss 134 extending into the groove 152. Specifically, the carrier 130 includes the second protruding portion 134 extending toward the inside of the groove 152 of the base 150, the second protruding portion 134 and the groove 152 of the base 150 form an embedded structure, which can reduce the possibility that debris generated during the movement of the driving assembly 120 enters the photosensitive assembly 180, that is, the second protruding portion 134 can play a role in blocking the groove 152, and even if the posture of the camera assembly is changed, the second protruding portion 134 can still shield the groove 152, and it is reduced that dust inside the groove 152 enters the space below the lens 140, thereby further improving the shooting effect and the reliability of shooting.

Wherein the second protrusion 134 can move in the groove 152 when the carrier 130 is driven by the driving assembly 120 to move.

Specifically, the second projection 134 may be an annular projection.

As shown in fig. 1, 2, 3, and 4, as one possible embodiment, the image capturing apparatus 100 further includes: the first elastic element 160 is connected to the carrier 130 on one side and the base 150 on the other side, and the first elastic element 160 provides a force for the carrier 130 to move the carrier 130 toward the top wall 112 of the housing 110.

Specifically, the first elastic member 160 is disposed between the carrier 130 and the seat 150, and the first elastic member 160 provides support for the carrier 130, and the direction of the pre-pressing force of the first elastic member 160 is from the carrier 130 toward the top wall 112 of the housing 110, so that the carrier 130 has a tendency to move toward the top wall 112 of the housing 110, which facilitates the abutting of the carrier 130 and the top wall 112 of the housing 110.

Wherein the first elastic member 160 can make the carrier 130 abut against the top wall 112 of the housing 110. The first elastic member 160 has a ring structure and is formed in a central symmetrical manner.

As shown in fig. 1, as a possible implementation, the seat body 150 further includes: the third protrusion 156, one side of the third protrusion 156 forms an inner sidewall of the groove 152, a part of the first elastic member 160 is connected with the third protrusion 156, a part of the first elastic member 160 overhangs the notch of the groove 152, and the carrier 130 is connected with a part of the first elastic member 160 overhanging the notch of the groove 152.

Specifically, the base 150 is an annular structure, and further the sidewall of the groove 152 near the inner ring side of the base 150 is an inner sidewall, the sidewall of the groove 152 near the outer ring side of the base 150 is an outer sidewall, the third protrusion 156 of the seat body 150 is located inside the groove 152, and the third protrusion 156 forms an inside sidewall of the groove 152, and the first elastic member 160 is partially mounted on the third protrusion 156, partially suspended at the notch of the groove 152, and the first elastic member 160 suspended at the notch of the groove 152 is also connected to the carrier 130, so that the carrier 130 is suspended at the notch of the groove 152, and the first elastic member 160 can form a sealing structure, blocking a portion of the notch of the groove 152 near one side of the inner ring of the seat body 150, thereby further reducing the possibility that dust generated by the movement of the driving assembly 120 enters the inner ring of the seat body 150 and falls into the space below the lens 140.

Further, one side of the second protrusion 134 is provided with a second notch, the first elastic element 160 is disposed at the second notch of the second protrusion 134, and since the carrier 130 is driven by the driving assembly 120, the second protrusion 134 moves in the groove 152, and then the second notch is disposed on the second protrusion 134, which can facilitate controlling the length of the second protrusion 134, facilitate controlling the stroke of the second protrusion 134, reduce the possibility of collision between the second protrusion 134 and the seat body 150, and improve the reliability of the image capturing apparatus 100. The second protrusion 134 is an annular structure, and the second notch is located at an inner ring of the second protrusion 134.

As shown in fig. 1, 2, 3, and 4, as one possible embodiment, the image capturing apparatus 100 further includes: the second elastic member 170 is connected to the carrier 130 at one side and the housing 110 at the other side, and the second elastic member 170 provides a force to the carrier 130 to move the carrier 130 toward the top wall 112 of the housing 110.

Specifically, a second elastic member 170 is disposed between the carrier 130 and the housing 110, the second elastic member 170 is respectively connected to the carrier 130 and the housing 110, the second elastic member 170 provides support for the carrier 130, and the direction of the pre-pressing force of the second elastic member 170 is from the carrier 130 to the top wall 112 of the housing 110, so that the carrier 130 has a tendency to move toward the top wall 112 of the housing 110, thereby facilitating the abutting of the carrier 130 and the top wall 112 of the housing 110.

A first notch is formed at one side of the first protrusion 132, and the second elastic member 170 is disposed at the first notch of the first protrusion 132, so as to reduce interference of the second elastic member 170 on connectivity of the housing 110 and the carrier 130, thereby improving sealability between the carrier 130 and the top wall 112 of the housing 110. Specifically, the first protrusion 132 is an annular structure, and the first notch is located on an outer ring of the first protrusion 132. The first elastic member 160 has a ring structure and is formed in a central symmetrical manner.

Wherein the second elastic member 170 may make the carrier 130 and the top wall 112 of the housing 110 abut against each other. Or the first elastic member 160 and the second elastic member 170 in combination make the carrier 130 and the top wall 112 of the housing 110 abut against each other. By adjusting the initial elastic force and pre-pressure of the first elastic member 160 and the second elastic member 170, the initial position of the carrier 130 and the lens 140 is the position where the carrier 130 abuts against the top wall 112 of the housing 110.

As a possible implementation, the force applied by the first elastic member 160 and the second elastic member 170 to the carrier 130 is greater than the gravity of the carrier 130 and the lens 140. Specifically, the resultant of the pre-stresses applied to the carrier 130 by the first elastic member 160 and the second elastic member 170 is greater than the gravity of the carrier 130 and the lens 140, so as to ensure that the initial position of the carrier 130 is abutted against the top wall 112 of the housing 110 when the lens 140 is in the initial position.

That is, the pre-stress generated by the first elastic member 160 and the second elastic member 170 presses the carrier 130 against the top wall 112 of the housing 110, so that when the lens 140 is in the initial position, the driving device is closed, that is, when the driving device is not in operation, the carrier 130 abuts against the top wall 112 of the housing 110.

As shown in fig. 1 and 4, as a possible embodiment, the housing 110 further includes: and a fourth protrusion 116 disposed on a side of the top wall 112 facing the carrier 130 and surrounding the lens hole 114, wherein the first protrusion 132 surrounds an outer side of the fourth protrusion 116 when the lens is in the initial position.

Specifically, the top wall 112 of the housing 110 is provided with a fourth protruding portion 116, the fourth protruding portion 116 surrounds the periphery of the lens hole 114 and extends toward the carrier 130, and when the lens 140 is at the initial position, the first protruding portion 132 is sleeved outside the fourth protruding portion 116, that is, the fourth protruding portion 116 forms a snap-in structure toward the lens 140, so as to block external dust from entering, so that the first protruding portion 132 and the fourth protruding portion 116 form a two-layer sealing structure, and even when the carrier 130 moves to be not abutted against the top wall 112 of the housing 110, the fourth protruding portion 116 can provide a certain degree of sealing between the carrier 130 and the housing 110, thereby further reducing the possibility of external dust entering the inside of the image capturing device 100.

Wherein portions of the first bosses 132 and portions of the fourth bosses 116 still form a two-tiered nesting arrangement when the carrier 130 travels a limited distance away from the top wall 112, thereby improving the seal against the lens aperture 114.

As shown in fig. 1, 2, 3 and 4, as one possible embodiment, the driving assembly 120 includes: a coil 122 and a magnetic member 124, one of the coil 122 and the magnetic member 124 being connected to the housing 110, the other being connected to the carrier 130. Specifically, the driving assembly 120 includes a coil 122 and a magnetic member 124, and then the coil 122 is energized to generate magnetism to drive the magnetic member 124 to move, and by controlling the parameters of the coil 122, the magnitude of the magnetic force generated by the coil 122 can be changed, so as to improve the control accuracy of the driving assembly 120 and the diversified adjustment of the focal length.

Here, it may be that the magnetic member 124 is disposed on the carrier 130, the coil 122 is disposed on the housing 110, and the magnetic member 124 is disposed on the outer peripheral side of the carrier 130, and the coil 122 is disposed on the inner peripheral side of the housing 110. Alternatively, the magnetic member 124 is provided on the case 110, the coil 122 is provided on the carrier 130, and the magnetic member 124 is provided on the inner peripheral side of the case 110 and the coil 122 is provided on the outer peripheral side of the carrier 130.

Specifically, the magnetic member 124 is a permanent magnet, such as a magnet.

As shown in fig. 1 and fig. 2, as a possible implementation, the method further includes: the photosensitive assembly 180 is disposed on the base 150, the base 150 includes photosensitive holes, the grooves 152 surround the photosensitive holes, and the photosensitive assembly 180 is disposed corresponding to the photosensitive holes. Specifically, one side of the seat 150 facing away from the carrier 130 is provided with a photosensitive assembly 180, and the seat 150 includes a photosensitive hole, so that light can pass through the lens 140 and then irradiate on the photosensitive assembly 180 through the photosensitive hole, thereby implementing an image.

Specifically, the light sensing assembly 180 includes a bottom case 182, a light sensing element 186 and a circuit board 184, the light sensing element is mounted on the circuit board 184, the circuit board 184 is mounted on the bottom case 182, and the bottom case 182 is connected with the base body 150.

Further, a filter 190, specifically an infrared filter 190, is disposed on the photosensitive assembly 180, and the filter 190 is mounted on the bottom case 182.

Specifically, as shown in fig. 1, 2, 3, and 4, the image pickup apparatus 100 includes: lens 140, housing 110, carrier 130, base 150, first elastic member 160, second elastic member 170 and driving assembly 120.

The housing 110 has a lens hole 114, and a fourth protrusion 116 is formed on a side of the top wall 112 facing the lens 140, so as to shield the first protrusion 132 of the carrier 130, thereby reducing the possibility that dust enters a gap between the carrier 130 and the housing 110 from the outside in the process that the lens 140 and the carrier 130 move away from the side of the top wall 112, and reducing the influence of the driving assembly 120 on receiving external dust or foreign matters.

The second elastic member 170 has a ring-shaped central symmetrical structure.

The driving assembly 120 includes a magnetic member 124 and a coil 122, the magnetic member 124 generates a magnetic field, and the coil 122 is energized to generate a driving torque, thereby driving the magnetic member 124 to move.

The carrier 130 is used for carrying the lens 140, and the first protruding portion 132 convexly disposed at the upper end of the carrier 130 abuts against the top of the housing 110, so that a sealing structure is formed between the carrier 130 and the housing 110.

The first elastic member 160 is a center symmetrical structure.

Moreover, the image capturing apparatus 100 further includes a photosensitive assembly 180, and the photosensitive assembly 180 includes a bottom case 182, a photosensitive element 186, and a circuit board 184.

The image pickup apparatus 100 further includes a filter 190.

The application provides an electronic device, which comprises the camera device 100 provided by any one of the above embodiments.

Specifically, the electronic device provided by the present application includes the image capturing apparatus 100 provided in any of the above embodiments, so that all the advantages of the image capturing apparatus 100 provided in any of the above embodiments are provided, and are not stated herein.

Specifically, the electronic device includes: mobile phones, tablet computers, notebook computers, cameras and other electrified products with shooting function.

In the description herein, reference to the term "one embodiment," or "a specific embodiment," etc., 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. An image pickup apparatus, comprising:

the lens comprises a shell, a lens body and a lens cover, wherein the shell comprises a top wall, and a lens hole is formed in the top wall;

the driving assembly is arranged in the shell;

the carrier is connected with the driving assembly, the driving assembly is used for driving the carrier to move, and the carrier comprises a first protruding portion which protrudes towards the top wall;

the lens is arranged on the carrier, the first bulge part surrounds the periphery of the lens, and the lens is opposite to the lens hole;

wherein the first boss and the top wall abut against each other with the lens in an initial position; the first boss is away from the top wall when the carrier and the lens are driven to move by the driving component.

2. The image pickup apparatus according to claim 1, further comprising:

the pedestal, with the casing is connected, with the roof of casing is relative, the carrier with drive assembly is located the roof with between the pedestal, the pedestal orientation one side of carrier is provided with the recess, drive assembly with the week of carrier is connected all around, at least partial week of carrier is in along first direction projection on the pedestal is located the tank bottom of recess.

3. The image pickup apparatus according to claim 2, wherein said carrier comprises:

a second boss extending into the groove.

4. The image pickup apparatus according to claim 2, further comprising:

the first elastic piece is connected with the carrier on one side and connected with the seat body on the other side, and provides force for the carrier to enable the carrier to move towards the top wall.

5. The image pickup device according to claim 4, wherein said base body further comprises:

one side of the third bulge forms an inner side wall of the groove, part of the first elastic piece is connected with the third bulge, part of the first elastic piece is suspended at the notch of the groove, and the carrier is connected with the part of the first elastic piece suspended at the notch of the groove.

6. The image pickup apparatus according to claim 4, further comprising:

and one side of the second elastic piece is connected with the carrier, the other side of the second elastic piece is connected with the shell, and the second elastic piece provides force for the carrier to enable the carrier to move towards the direction of the top wall.

7. The image pickup apparatus according to claim 6,

the force applied to the carrier by the first elastic piece and the second elastic piece is larger than the gravity of the carrier and the lens.

8. The image pickup apparatus according to claim 1, wherein said housing further comprises:

the fourth bulge is arranged on one side, facing the carrier, of the top wall and is arranged around the lens hole, and under the condition that the lens is located at the initial position, the first bulge surrounds the outer side of the fourth bulge.

9. The image pickup apparatus according to claim 1, wherein said drive assembly includes:

the coil and the magnetic part, one of the coil and the magnetic part is connected with the shell, and the other is connected with the carrier.

10. An electronic device, comprising:

the image pickup apparatus according to any one of claims 1 to 9.

Images