CN110086962B - Portable electronic device - Google Patents

Abstract

A portable electronic device comprises an input module, a display module and a lens module. The lens module is arranged on the display module and comprises a shell, a rear lens, a first elastic component and a first magnetic component. The rear lens and the first elastic component are arranged in the shell, and the first elastic component is connected with the rear lens and the first magnetic component. The second magnetic component is arranged on the input module and corresponds to the first magnetic component, when the portable electronic device is in an open state, the first magnetic component is far away from the second magnetic component, and the first elastic component drives the rear lens to protrude out of the shell through elasticity; when the portable electronic device is in a closed state, the first magnetic component is close to the second magnetic component, and the rear lens is driven to retract into the shell through magnetic force.

Description

Portable electronic device

Technical Field

The present invention relates to portable electronic devices, and particularly to a portable electronic device having a lens that can be extended and retracted by an elastic component and a magnetic component.

Background

With the continuous development of computer research and manufacturing technology, the instruction cycle and performance of portable electronic devices such as notebook computers are greatly improved, and besides being combined with speakers, bluetooth devices and other devices, a lens module is further arranged for facilitating the use of photography or video networking. However, the most important disadvantage of the conventional portable electronic device with a lens module is that the position of the lens in the lens module is fixed, and the viewing angle is limited, which causes inconvenience in use.

Disclosure of Invention

The present invention is directed to a portable electronic device, which solves the problem of inconvenience in using a lens module.

The present invention is directed to solving the problems of the prior art, and provides a portable electronic device, which includes an input module, a display module and a lens module. The display module is pivoted to the input module and can rotate relative to the input module, so that the portable electronic device is in an open state or a closed state. The lens module is disposed on the display module and includes a housing, a rear lens, a first elastic component and a first magnetic component. The rear lens is arranged in the shell. The first elastic component is arranged in the shell and connected with the rear lens. The first magnetic component is arranged on the first elastic component. The portable electronic device also comprises a second magnetic component which is arranged on the input module and corresponds to the first magnetic component, wherein when the portable electronic device is in an open state, the first magnetic component is far away from the second magnetic component, and the first elastic component drives the rear lens to protrude out of the shell through elasticity; when the portable electronic device is in a closed state, the first magnetic component is close to the second magnetic component, and the rear lens is driven to retract into the shell through magnetic force.

In one embodiment, the magnetic pole directions of the first magnetic assembly and the second magnetic assembly are the same.

In an embodiment, the lens module further includes: a front lens, a second elastic component and a third magnetic component. The front lens is arranged in the shell. The second elastic component is arranged in the shell and connected with the front lens. The third magnetic component is arranged on the second elastic component. The portable electronic device further comprises a fourth magnetic component which is arranged on the input module and corresponds to the third magnetic component. When the portable electronic device is in an open state, the third magnetic assembly is far away from the fourth magnetic assembly, and the second elastic assembly drives the front lens to protrude out of the shell through elasticity; when the portable electronic device is in a closed state, the third magnetic assembly is close to the fourth magnetic assembly, and the front lens is driven to retract into the shell through magnetic force.

In one embodiment, the third magnetic element and the fourth magnetic element have opposite magnetic pole directions.

In an embodiment, the display module includes a frame, the lens module is disposed on the frame, and the portable electronic device further includes a third elastic element, a fourth elastic element, a fifth magnetic element, a sixth magnetic element, a seventh magnetic element and an eighth magnetic element. The third elastic component is arranged on the outer frame and connected with the lens module. The fourth elastic component is arranged on the outer frame and connected with the lens module, wherein the third elastic component and the fourth elastic component are respectively positioned on the opposite sides of the lens module. The fifth magnetic component is arranged on the third elastic component. The sixth magnetic assembly is arranged on the input module and corresponds to the fifth magnetic assembly. The seventh magnetic component is arranged on the fourth elastic component. The eighth magnetic assembly is arranged on the input module and corresponds to the seventh magnetic assembly. When the portable electronic device is in an open state, the fifth magnetic assembly and the seventh magnetic assembly are respectively far away from the sixth magnetic assembly and the eighth magnetic assembly, and the third elastic assembly and the fourth elastic assembly respectively drive the lens module to protrude out of the outer frame through elasticity; when the portable electronic device is in a closed state, the fifth magnetic assembly and the seventh magnetic assembly are respectively close to the sixth magnetic assembly and the eighth magnetic assembly, and the lens module is driven to retract into the outer frame through magnetic force.

In one embodiment, the magnetic poles of the fifth magnetic component and the sixth magnetic component are opposite in direction.

In one embodiment, the magnetic poles of the seventh magnetic element are opposite to the magnetic poles of the eighth magnetic element.

In one embodiment, when the portable electronic device is in an open state, the lens module protrudes out of the outer frame toward the front lens through the elastic force of the third elastic element and the fourth elastic element.

In one embodiment, when the portable electronic device is in a closed state, the lens module is retracted into the outer frame in a direction of the rear lens by magnetic force between the fifth magnetic element and the sixth magnetic element and magnetic force between the seventh magnetic element and the eighth magnetic element.

In an embodiment, the first elastic element, the second elastic element, the third elastic element or the fourth elastic element is a metal elastic sheet.

In one embodiment, the first magnetic element, the second magnetic element, the third magnetic element, the fourth magnetic element, the fifth magnetic element, the sixth magnetic element, the seventh magnetic element, or the eighth magnetic element is a permanent magnet.

The invention has the advantages that the lens module can be freely stretched and contracted through the configuration mode of the magnetic assembly without manual adjustment, thereby improving the convenience in use.

Drawings

Fig. 1A is a schematic perspective view illustrating a portable electronic device in an open state according to an embodiment of the present invention.

Fig. 1B is an enlarged view of a portion marked a in fig. 1A.

Fig. 1C is an enlarged view of a portion marked B in fig. 1A.

Fig. 2 is a schematic view of the rear lens, the front lens, the first elastic element, the second elastic element, the first magnetic element and the third magnetic element in fig. 1A.

Fig. 3A is a perspective view of the portable electronic device in fig. 1A in a closed state.

Fig. 3B is an enlarged view of a portion marked C in fig. 3A.

Fig. 4 is a schematic view of the rear lens, the front lens, the first elastic element, the second elastic element, the first magnetic element, the second magnetic element, the third magnetic element and the fourth magnetic element of fig. 3A.

Fig. 5 is an exploded view of the lens module of fig. 1A.

Fig. 6A is a schematic view of the lens module, the third elastic element, the fourth elastic element, the fifth magnetic element and the seventh magnetic element in fig. 1A.

Fig. 6B is a schematic view of the lens module, the third elastic element, the fourth elastic element, the fifth magnetic element, the sixth magnetic element, the seventh magnetic element and the eighth magnetic element in fig. 3A.

Fig. 7 is a schematic diagram of relative positions of the first magnetic assembly, the second magnetic assembly, the third magnetic assembly, the fourth magnetic assembly, the fifth magnetic assembly, the sixth magnetic assembly, the seventh magnetic assembly, and the eighth magnetic assembly of fig. 3A.

Fig. 8A is a partial schematic view of the lens module in fig. 1A.

Fig. 8B is a partial schematic view of the lens module in fig. 3A.

Fig. 9 is a schematic top view of fig. 1A.

The reference numbers are as follows:

1-a portable electronic device;

10-a display module;

11-outer frame;

12 to a third elastic component;

13 to a fourth elastic member;

20-a lens module;

21-rear lens;

21B-rear lens back cover;

21C-rear lens optical assembly;

21L-rear lens;

21S-rear lens shell;

22-front lens;

22B-front lens back cover;

22C-front lens optical assembly;

22L-front lens;

22S-front lens shell;

23-a first elastic component;

24-a second elastic component;

25-a first rubber material;

26-a second rubber material;

27-a first circuit board;

271-opening;

28-a second circuit board;

281-opening;

30-an input module;

f1-first frame;

f2-second frame;

h, a shell;

h1-outer member;

h2-inner side member;

m21-a first magnetic component;

m22-a third magnetic component;

m23-fifth magnetic component;

m24-seventh magnetic component;

m31-a second magnetic component;

m32-fourth magnetic component;

m33-sixth magnetic component;

m34 eighth magnetic component;

s1-first side;

s2-the second side;

angle theta to angle

Detailed Description

Embodiments of the present invention will now be described with reference to the accompanying drawings.

The foregoing and other technical and other features and advantages of the invention will be apparent from the following detailed description of a preferred embodiment, which proceeds with reference to the accompanying drawings. Directional terms as referred to in the following examples, for example: up, down, left, right, front or rear, etc., are directions with reference to the attached drawings only. Accordingly, the directional terminology is used for purposes of illustration and is in no way limiting.

Furthermore, relative terms, such as "lower" or "bottom" and "upper" or "top," may be used in embodiments to describe one component's relative relationship to another component of the drawings. It will be understood that if the device of the drawings is turned upside down, components described as being on the "lower" side will be components on the "upper" side.

In the present disclosure, relative terms such as "lower," "upper," "horizontal," "vertical," "below," "above," "top," "bottom," and the like are to be understood as referring to the segment and the orientation shown in the associated drawings. These relative terms are for convenience of description only and do not imply that the described apparatus should be constructed or operated in a particular orientation. Terms concerning bonding, connecting, and the like, such as "connected," "interconnected," and the like, may refer to two structures as being in direct contact, or may also refer to two structures as not being in direct contact, unless otherwise specified, with another structure being interposed between the two structures. And the terms coupled and connected should also be construed to include both structures being movable or both structures being fixed.

It will be understood that, although the terms first, second, third, etc. may be used herein to describe various elements, components, regions, layers and/or sections, these elements, components, regions, layers and/or sections should not be limited by these terms, and these terms are only used to distinguish one element, component, region, layer and/or section from another element, component, region, layer and/or section. Thus, a first element, component, region, layer and/or section discussed below could be termed a second element, component, region, layer and/or section without departing from the teachings of the present disclosure. Further, "first," "second," "third," etc. are used to denote names, but not to denote any particular order.

Fig. 1A is a schematic perspective view of a portable electronic device 1 in an open state according to an embodiment of the present invention. The portable electronic device 1 is, for example, a notebook computer, and mainly includes a display module 10, a lens module 20, and an input module 30. The display module 10 includes a frame 11, which has a display panel, such as a liquid crystal panel or an organic light emitting diode panel, disposed therein for displaying images. The input module 30 has a flat plate structure, and a keyboard or a touch pad may be disposed on the input module 30 facing the display module 10, wherein various electronic components (not shown) such as a central processing unit and a memory may be further disposed inside the input module 30. The display module 10 is pivotally connected to the input module 30, and the display module 10 can rotate relative to the input module 30 to enable the portable electronic device 1 to be in an open state or a closed state.

Referring to fig. 1B, an enlarged view of a portion marked with a in fig. 1A is shown. The lens module 20 is disposed on the outer frame 11 of the display module 10, and the lens module 20 includes a housing H, a rear lens 21, a front lens 22, a first elastic element 23, a second elastic element 24, a first magnetic element M21, and a third magnetic element M22. The rear lens 21, the front lens 22, the first elastic element 23, the second elastic element 24, the first magnetic element M21, and the third magnetic element M22 are disposed in the housing H, and the rear lens 21 and the front lens 22 can be respectively used for capturing a picture of a first side S1 of the display module 10 away from the input module 30 and a picture of a second side S2 of the display module 10 facing the input module 30. The two legs of the first elastic element 23 abut against the inner wall of the housing H, and the other end thereof is connected to the rear lens 21, the two legs of the second elastic element 24 abut against the inner wall of the housing H, and the other end thereof is connected to the front lens 22, and in addition, the first magnetic element M21 and the third magnetic element M22 are respectively disposed on the first elastic element 23 and the second elastic element 24.

Referring to fig. 1C, an enlarged view of the portion marked B in fig. 1A is shown. The portable electronic device 1 further includes a second magnetic element M31, a fourth magnetic element M32, a sixth magnetic element M33, and an eighth magnetic element M34, which are all disposed on the input module 30. It should be appreciated that the second magnetic element M31 and the fourth magnetic element M32 correspond to the first magnetic element M21 and the third magnetic element M22, respectively.

Referring to fig. 1A and fig. 2 together, fig. 2 is a schematic diagram of the rear lens 21, the front lens 22, the first elastic element 23, the second elastic element 24, the first magnetic element M21 and the third magnetic element M22 of fig. 1A. As shown in fig. 1A, when the portable electronic device 1 is in the open state, the first magnetic element M21 is away from the second magnetic element M31, and the first elastic element 23 is not affected by the magnetic force between the first magnetic element M21 and the second magnetic element M31, so that the first elastic element 23 provides an elastic force to the rear lens 21, and the rear lens 21 protrudes from an outer member H1 of the housing H toward the first side S1(X axis direction), as shown in fig. 2.

Referring to fig. 1A and fig. 2, as shown in fig. 1A, when the portable electronic device 1 is in the open state, the third magnetic element M22 is far away from the fourth magnetic element M32, and the second elastic element 24 is not affected by the magnetic force between the third magnetic element M22 and the fourth magnetic element M32, so that the second elastic element 24 provides an elastic force to the front lens 22, and the front lens 22 protrudes out of an inner side H2 of the housing H toward the second side S2 (X-axis direction), as shown in fig. 2. In this embodiment, the first elastic element 23 or the second elastic element 24 may be a metal elastic sheet, but not limited thereto.

Fig. 3A to 3B and fig. 4 are a schematic perspective view, a partial enlarged view and a schematic view of the portable electronic device 1 in fig. 1A in a closed state, respectively. As shown in fig. 3A, when the portable electronic device 1 is in the closed state, the first magnetic element M21 approaches the second magnetic element M31, and at this time, the first elastic element 23 is influenced by the magnetic attraction between the first magnetic element M21 and the second magnetic element M31, so that the first elastic element 23 is in a compressed state to drive the rear lens 21, and further the rear lens 21 retracts into an outer side H1 of the housing H toward the second side S2, as shown in fig. 3B and 4.

Referring to fig. 3A-3B and fig. 4, when the portable electronic device 1 is in the closed state, the third magnetic element M22 approaches the fourth magnetic element M32, and the second elastic element 24 is affected by the magnetic repulsion between the third magnetic element M22 and the fourth magnetic element M32, so that the second elastic element 24 is in a compressed state to drive the front lens 22, and further the front lens 22 retracts into an inner side H2 of the housing H toward the first side S1, as shown in fig. 3B and fig. 4.

Referring to fig. 5, an exploded view of the lens module 20 of fig. 1A is shown. The lens module 20 further includes a first adhesive material 25, a second adhesive material 26, a first circuit board 27 and a second circuit board 28. The rear lens 21 includes a rear lens back cover 21B, a rear lens housing 21S, a rear lens optical assembly 21C and a rear lens 21L, wherein the rear lens optical assembly 21C is disposed in the rear lens housing 21S, the rear lens 21L is disposed at an end of the rear lens housing 21S close to the outer member H1, the rear lens back cover 21B is disposed at an end of the rear lens housing 21S away from the outer member H1, wherein the first circuit board 27 is electrically connected to the rear lens optical assembly 21C, the first circuit board 27 is formed with an opening 271 for accommodating the first magnetic assembly M21, and the first adhesive material 25 is used for adhering the rear lens 21, the first magnetic assembly M21 and the first circuit board 27 to the first elastic assembly 23.

Referring to fig. 5, the front lens 22 includes a front lens back cover 22B, a front lens housing 22S, a front lens optical assembly 22C and a front lens 22L, wherein the front lens optical assembly 22C is disposed in the front lens housing 22S, the front lens 22L is disposed at an end of the front lens housing 22S close to the inner side H1, the front lens back cover 22B is disposed at an end of the front lens housing 22S away from the inner side H1, the second circuit board 28 is electrically connected to the front lens optical assembly 22C, the second circuit board 28 forms an opening 281 for accommodating the third magnetic assembly M22, and the second adhesive 26 is used to adhere the front lens 22, the third magnetic assembly M22 and the second circuit board 28 to the second elastic assembly 24. It is noted that the inner member H2 of the housing H has a first frame F1 and a second frame F2 for accommodating the fifth magnetic element M23 and the seventh magnetic element M24, respectively.

Next, please refer to fig. 6A, which is a schematic diagram of the lens module 20, the third elastic element 12, the fourth elastic element 13, the fifth magnetic element M23 and the seventh magnetic element M24 in fig. 1A. As shown in the figure, the portable electronic device 1 further includes a third elastic element 12, a fourth elastic element 13, a fifth magnetic element M23 and a seventh magnetic element M24, wherein the third elastic element 12 is disposed on the outer frame 11 and connected to the housing H of the lens module 20, and the fourth elastic element 13 is disposed on the outer frame 11 and connected to the housing H of the lens module 20; in addition, a fifth magnetic element M23 is disposed in the first frame F1 and on the third elastic element 12, and a seventh magnetic element M24 is disposed in the second frame F2 and on the fourth elastic element 13. In the present embodiment, the sixth magnetic element M33 and the eighth magnetic element M34 (as shown in fig. 1C) correspond to the fifth magnetic element M23 and the seventh magnetic element M24, respectively.

As shown in fig. 1A and fig. 6A, when the portable electronic device 1 is in the open state, because the fifth magnetic element M23 is far away from the sixth magnetic element M33, the third elastic element 12 is not influenced by the magnetic force between the fifth magnetic element M23 and the sixth magnetic element M33, and the seventh magnetic element M24 is far away from the eighth magnetic element M34, and the fourth elastic element 13 is not influenced by the magnetic force between the seventh magnetic element M24 and the eighth magnetic element M34, the third elastic element 12 and the fourth elastic element 13 can respectively provide an elastic force to the lens module 20, so that the lens module 20 protrudes out of the outer frame 11 toward the front lens 22 (the second side S2).

Referring to fig. 6B, a schematic diagram of the lens module 20, the third elastic element 12, the fourth elastic element 13, the fifth magnetic element M23, the sixth magnetic element M33, the seventh magnetic element M24, and the eighth magnetic element M34 of fig. 3A is shown. When the portable electronic device 1 is in the closed state, because the fifth magnetic element M23 is close to the sixth magnetic element M33, the third elastic element 12 is affected by the magnetic repulsion between the fifth magnetic element M23 and the sixth magnetic element M33, and the seventh magnetic element M24 is close to the eighth magnetic element M34, and the fourth elastic element 13 is also affected by the magnetic repulsion between the seventh magnetic element M24 and the eighth magnetic element M34, the third elastic element 12 and the fourth elastic element 13 can respectively drive the lens module 20, so that the lens module 20 is retracted into the outer frame 11 toward the rear lens 22 (the first side S1). In this embodiment, the third elastic element 12 or the fourth elastic element 13 may be a metal elastic sheet, but not limited thereto.

Referring to fig. 7, the relative positions of the first magnetic element M21, the second magnetic element M31, the third magnetic element M22, the fourth magnetic element M32, the fifth magnetic element M23, the sixth magnetic element M33, the seventh magnetic element M24 and the eighth magnetic element M34 in fig. 3A are shown. Because the magnetic pole directions of the first magnetic element M21 and the second magnetic element M31 are the same, when the portable electronic device 1 is in the closed state, the first elastic element 23 is in a compressed state under the influence of the magnetic attraction between the first magnetic element M21 and the second magnetic element M31, so that the rear lens 21 is retracted into the housing H; similarly, the third magnetic element M22, the fifth magnetic element M23 and the seventh magnetic element M24 are opposite to the magnetic poles of the fourth magnetic element M32, the sixth magnetic element M33 and the eighth magnetic element M34, and when the portable electronic device 1 is in the closed state, the second elastic element 24, the third elastic element 12 and the fourth elastic element 13 are respectively influenced by the magnetic repulsion between the third magnetic element M22 and the fourth magnetic element M32, between the fifth magnetic element M23 and the sixth magnetic element M33 and between the seventh magnetic element M24 and the eighth magnetic element M34 to be in the compressed state, so that the front lens 22 is retracted into the housing H and the lens module 20 is retracted into the outer frame 11. In the present embodiment, the first magnetic element M21, the second magnetic element M31, the third magnetic element M22, the fourth magnetic element M32, the fifth magnetic element M23, the sixth magnetic element M33, the seventh magnetic element M24, or the eighth magnetic element M34 may be a permanent magnet, but not limited thereto.

Referring to fig. 8A-8B and fig. 9, fig. 8A is a partial schematic view of the lens module 20 in fig. 1A in an open state, fig. 8B is a partial schematic view of the lens module 20 in fig. 3A in a closed state, and fig. 9 is a top view of fig. 1A. As shown in fig. 8A, when the portable electronic device 1 is in the open state, the rear lens 21 and the front lens 22 respectively protrude from the housing H of the lens module 20 toward the first side S1 and the second side S2 due to the structural design described in the above embodiment, and the lens module 20 itself protrudes from the outer frame 11 toward the rear lens 21 (the second side S2) due to the structural design described in the above embodiment. In this way, as shown in fig. 9, the rear lens 21 and the front lens 22 can capture images with an angle θ larger than 180 °. In addition, as shown in fig. 8B, when the portable electronic device 1 is in the closed state, the rear lens 21 and the front lens 22 are retracted into the housing H of the lens module 20 toward the second side S2 and the first side S1 respectively due to the structural design described in the above embodiment, and the lens module 20 is retracted into the outer frame 11 toward the front lens 22 (the first side S1) due to the structural design described in the above embodiment. Therefore, the portable electronic device 1 can keep the display module 10 and the input module 30 close when closed, and the problem of inconvenient storage caused by the protrusion of foreign matters is avoided.

In the portable electronic device 1 according to the above embodiment of the present invention, the lens module 20 can project from the housing H through the elastic components and the magnetic components, when the portable electronic device 1 is in the open state, the rear lens 21 and the front lens 22 project from the housing H, and the lens module 20 projects from the outer frame 11, so that the lens module 20 can shoot a wide-angle image larger than 180 °, and when the portable electronic device 1 is in the closed state, the rear lens 21 and the front lens 22 retract into the housing H, and the lens module 20 retracts into the outer frame 11, so that the display module 10 and the input module 30 can be kept in close contact when the portable electronic device 1 is closed, and the storage inconvenience caused by the protrusion of foreign objects is avoided. On the other hand, since the lens module 20 can be freely extended and retracted by the arrangement of the magnetic components, manual adjustment is not required, and convenience in use can be improved.

Although the present invention has been described with respect to the preferred embodiments, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. A portable electronic device, comprising:

an input module;

the display module is pivoted with the input module to enable the portable electronic device to be in an open state or a closed state;

a lens module disposed on the display module, comprising:

a housing;

a rear lens, which is arranged in the shell;

the first elastic component is arranged in the shell and connected with the shell and the rear lens;

a first magnetic component arranged on the first elastic component; and

the second magnetic component is arranged on the input module and corresponds to the first magnetic component;

when the portable electronic device is in the open state, the first magnetic assembly is far away from the second magnetic assembly, and the first elastic assembly drives the rear lens to protrude out of the shell through elasticity; when the portable electronic device is in the closed state, the first magnetic component is close to the second magnetic component, and the rear lens is driven to retract into the shell by magnetic force.

2. The portable electronic device of claim 1, wherein the magnetic poles of the first magnetic element and the second magnetic element are oriented in the same direction when the portable electronic device is in the closed state.

3. The portable electronic device of claim 1, wherein the lens module further comprises:

a front lens arranged in the shell;

the second elastic component is arranged in the shell and is connected with the shell and the front lens; and

a third magnetic component arranged on the second elastic component;

the portable electronic device also comprises a fourth magnetic component which is arranged on the input module and corresponds to the third magnetic component;

when the portable electronic device is in the open state, the third magnetic assembly is far away from the fourth magnetic assembly, and the second elastic assembly drives the front lens to protrude out of the shell through elasticity; when the portable electronic device is in the closed state, the third magnetic assembly is close to the fourth magnetic assembly, and the front lens is driven to retract into the shell by magnetic force.

4. The portable electronic device of claim 3, wherein the magnetic poles of the third magnetic element and the fourth magnetic element are opposite when the portable electronic device is in the closed state.

5. The portable electronic device as claimed in claim 3, wherein the display module comprises an outer frame, the lens module is movably disposed on the outer frame, and the portable electronic device further comprises:

the third elastic component is arranged on the outer frame and connected with the lens module;

a fourth elastic component, disposed on the outer frame and connected to the lens module, wherein the third elastic component and the fourth elastic component are respectively located on opposite sides of the left side and the right side of the lens module;

a fifth magnetic component arranged on the third elastic component;

the sixth magnetic assembly is arranged on the input module and corresponds to the fifth magnetic assembly;

a seventh magnetic component arranged on the fourth elastic component; and

the eighth magnetic component is arranged on the input module surface and corresponds to the seventh magnetic component;

when the portable electronic device is in the open state, the fifth magnetic assembly and the seventh magnetic assembly are respectively far away from the sixth magnetic assembly and the eighth magnetic assembly, and the third elastic assembly and the fourth elastic assembly respectively drive the lens module to protrude out of the outer frame through elasticity; when the portable electronic device is in the closed state, the fifth magnetic assembly and the seventh magnetic assembly are respectively close to the sixth magnetic assembly and the eighth magnetic assembly, and the lens module is driven to retract into the outer frame through magnetic force.

6. The portable electronic device of claim 5, wherein the magnetic poles of the fifth magnetic element and the sixth magnetic element are opposite when the portable electronic device is in the closed state.

7. The portable electronic device of claim 5, wherein the magnetic poles of the seventh magnetic element and the eighth magnetic element are opposite when the portable electronic device is in the closed state.

8. The portable electronic device as claimed in claim 5, wherein when the portable electronic device is in the open state, the lens module protrudes out of the outer frame toward the front lens through the elastic forces of the third elastic element and the fourth elastic element.

9. The portable electronic device as claimed in claim 5, wherein when the portable electronic device is in the closed state, the lens module is retracted into the outer frame toward the rear lens by magnetic forces between the fifth magnetic element and the sixth magnetic element and between the seventh magnetic element and the eighth magnetic element.

10. The portable electronic device of claim 5, wherein the first elastic element, the second elastic element, the third elastic element or the fourth elastic element is a metal dome.

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