阅读说明：本技术 可携式电子装置及其活动式镜头遮挡模块 (Portable electronic device and movable lens shielding module thereof ) 是由 洪志荣 于 2020-05-18 设计创作，主要内容包括：本发明公开一种可携式电子装置及其活动式镜头遮挡模块。活动式镜头遮挡模块包括：一磁场产生器、一旋转式带动组件以及一移动式遮挡组件。旋转式带动组件包括邻近磁场产生器的一可旋转磁性件以及固定在可旋转磁性件上的一可旋转带动件,且可旋转带动件包括至少一带动杆。移动式遮挡组件包括至少一遮挡件,且至少一遮挡件包括对应于一镜头的一镜头开口以及用于容置至少一带动杆的一容置槽。借此,当可旋转磁性件与可旋转带动件通过磁场产生器所产生的一磁力而同步移动时,至少一遮挡件通过至少一带动杆的带动而朝向一直线方向移动,以使得镜头被镜头开口所裸露或者被至少一遮挡件所遮挡。(The invention discloses a portable electronic device and a movable lens shielding module thereof. The movable lens shielding module comprises: a magnetic field generator, a rotary driving component and a movable shielding component. The rotary driving assembly comprises a rotatable magnetic piece adjacent to the magnetic field generator and a rotatable driving piece fixed on the rotatable magnetic piece, and the rotatable driving piece comprises at least one driving rod. The movable shielding component comprises at least one shielding piece, and the at least one shielding piece comprises a lens opening corresponding to a lens and a containing groove for containing at least one driving rod. Therefore, when the rotatable magnetic piece and the rotatable driving piece synchronously move through a magnetic force generated by the magnetic field generator, the at least one shielding piece moves towards a linear direction through the driving of the at least one driving rod, so that the lens is exposed by the lens opening or is shielded by the at least one shielding piece.)

1. The utility model provides a movable camera lens shelters from module which characterized in that, movable camera lens shelters from the module and includes:

a magnetic field generator;

the rotary driving assembly comprises a rotatable magnetic piece adjacent to the magnetic field generator and a rotatable driving piece fixed on the rotatable magnetic piece, and the rotatable driving piece comprises a first driving rod and a second driving rod; and

the movable shielding component comprises a first shielding piece and a second shielding piece which are arranged in an overlapped mode, the first shielding piece comprises a first lens opening corresponding to a lens and a first accommodating groove used for accommodating the first driving rod, and the second shielding piece comprises a second lens opening corresponding to the first lens opening and a second accommodating groove used for accommodating the second driving rod;

when the rotatable magnetic part and the rotatable driving part move synchronously through a magnetic force generated by the magnetic field generator, the first shielding part and the second shielding part respectively move towards two opposite directions through the driving of the first driving rod and the second driving rod, so that the first lens opening and the second lens opening are overlapped with each other to expose the lens, or the first lens opening and the second lens opening are not overlapped with each other to shield the lens by the movable shielding component.

2. The movable lens shielding module according to claim 1, wherein when a repulsive magnetic force generated by the magnetic field generator pushes the rotatable magnetic member to move, the rotatable driving member is driven by the rotatable magnetic member to rotate counterclockwise by a predetermined angle, and the first shielding member and the second shielding member are driven by the first driving rod and the second driving rod respectively to perform two opposite linear movements until the first lens opening of the first shielding member and the second lens opening of the second shielding member coincide with each other to expose the lens; when a magnetic attraction force generated by the magnetic field generator attracts the rotatable magnetic member to move, the rotatable driving member is driven by the rotatable magnetic member to rotate clockwise by the predetermined angle, and the first shielding member and the second shielding member are driven by the first driving rod and the second driving rod respectively to perform two opposite linear movements until the first lens opening of the first shielding member and the second lens opening of the second shielding member do not coincide with each other, so that the lens is shielded by the first shielding member and the second shielding member.

3. The movable lens barrier module according to claim 1, further comprising:

a housing structure, the housing structure including a base body, a bottom cover detachably disposed on a bottom end of the base body, and a top cover detachably disposed on a top end of the base body, the base body including a base opening corresponding to the lens, and the top cover including a cover opening corresponding to the base opening;

the elastic stopping piece is arranged inside the base body and used for limiting the rotating angle of the rotatable driving piece; and

an electrode assembly disposed on the base body and partially covered by the top cover, the electrode assembly including a first conductive pin electrically connected to the magnetic field generator and a second conductive pin electrically connected to the magnetic field generator;

the image extraction module comprising the lens is arranged on a circuit substrate, and the base body comprises two fixing parts arranged on the circuit substrate and a connecting part which is connected between the two fixing parts and spans the image extraction module;

the magnetic field generator and the rotary driving component are both arranged in the base body and are completely covered by the bottom cover body, and the movable shielding component is arranged on the top end of the base body and is partially covered by the top cover body;

the base body comprises a plurality of guide posts arranged on the top end, the first shielding piece is provided with a plurality of first linear guide grooves, the second shielding piece is provided with a plurality of second linear guide grooves, and each guide post simultaneously passes through the first linear guide groove and the second linear guide groove or one of the first linear guide groove and the second linear guide groove;

the base body comprises a first arc-shaped guide groove corresponding to the first accommodating groove and a second arc-shaped guide groove corresponding to the second accommodating groove, the first arc-shaped guide groove and the second arc-shaped guide groove are symmetrically arranged, and the first driving rod and the second driving rod are movably arranged in the first arc-shaped guide groove and the second arc-shaped guide groove respectively.

4. The removable lens barrier module according to claim 3, wherein the rotary driving assembly comprises a fixed shaft disposed between the base body and the bottom cover, and the fixed shaft passes through the rotatable magnetic member and the rotatable driving member, so that the rotatable magnetic member and the rotatable driving member rotate by a predetermined angle relative to the fixed shaft; the rotatable driving piece comprises a matching part and a limiting part, wherein the matching part is arranged in the rotatable magnetic piece and is matched with the rotatable magnetic piece, the limiting part is arranged on the matching part, and the first driving rod and the second driving rod are arranged on the limiting part; the limiting part is provided with an arc-shaped limiting groove, and the elastic stopping piece is movably accommodated in the arc-shaped limiting groove, so that the rotating angle of the rotatable driving piece is limited by the elastic stopping piece.

5. The utility model provides a movable camera lens shelters from module which characterized in that, movable camera lens shelters from the module and includes:

a magnetic field generator;

the rotary driving assembly comprises a rotatable magnetic piece adjacent to the magnetic field generator and a rotatable driving piece fixed on the rotatable magnetic piece, and the rotatable driving piece comprises at least one driving rod; and

the movable shielding assembly comprises at least one shielding piece, and the at least one shielding piece comprises a lens opening corresponding to a lens and a containing groove for containing the at least one driving rod;

when the rotatable magnetic part and the rotatable driving part move synchronously through a magnetic force generated by the magnetic field generator, the at least one shielding part moves towards a linear direction through the driving of the at least one driving rod, so that the lens is exposed out of the lens opening or is shielded by the at least one shielding part.

6. The movable lens shielding module according to claim 5, wherein when a repulsive magnetic force generated by the magnetic field generator pushes the rotatable magnetic member to move, the rotatable driving member is driven by the rotatable magnetic member to rotate counterclockwise by a predetermined angle, and the at least one shielding member is driven by the at least one driving rod to move linearly until the lens is exposed by the lens opening of the at least one shielding member; when a magnetic attraction force generated by the magnetic field generator attracts the rotatable magnetic piece to move, the rotatable driving piece is driven by the rotatable magnetic piece to rotate clockwise by the preset angle, and the at least one shielding piece is driven by the at least one driving rod to move linearly until the lens is shielded by the at least one shielding piece.

7. A portable electronic device comprises an image extraction assembly, the image extraction assembly comprises an image extraction module and a movable lens shielding module, the image extraction module comprises a lens matched with the movable lens shielding module, and the movable lens shielding module comprises:

a magnetic field generator;

the rotary driving assembly comprises a rotatable magnetic piece adjacent to the magnetic field generator and a rotatable driving piece fixed on the rotatable magnetic piece, and the rotatable driving piece comprises a first driving rod and a second driving rod; and

the movable shielding component comprises a first shielding piece and a second shielding piece which are arranged in an overlapped mode, the first shielding piece comprises a first lens opening corresponding to a lens and a first accommodating groove used for accommodating the first driving rod, and the second shielding piece comprises a second lens opening corresponding to the first lens opening and a second accommodating groove used for accommodating the second driving rod;

when the rotatable magnetic part and the rotatable driving part move synchronously through a magnetic force generated by the magnetic field generator, the first shielding part and the second shielding part respectively move towards two opposite directions through the driving of the first driving rod and the second driving rod, so that the first lens opening and the second lens opening are overlapped with each other to expose the lens, or the first lens opening and the second lens opening are not overlapped with each other to shield the lens by the movable shielding component.

8. The portable electronic device of claim 7, wherein when a repulsive magnetic force generated by the magnetic field generator pushes the rotatable magnetic member to move, the rotatable driving member is driven by the rotatable magnetic member to rotate counterclockwise by a predetermined angle, and the first shielding member and the second shielding member are driven by the first driving rod and the second driving rod respectively to perform two opposite linear movements until the first lens opening of the first shielding member and the second lens opening of the second shielding member coincide with each other to expose the lens; when a magnetic attraction force generated by the magnetic field generator attracts the rotatable magnetic member to move, the rotatable driving member is driven by the rotatable magnetic member to rotate clockwise by the predetermined angle, and the first shielding member and the second shielding member are driven by the first driving rod and the second driving rod respectively to perform two opposite linear movements until the first lens opening of the first shielding member and the second lens opening of the second shielding member do not coincide with each other, so that the lens is shielded by the first shielding member and the second shielding member.

9. The portable electronic device of claim 7, wherein the removable lens blocking module further comprises:

a housing structure, the housing structure including a base body, a bottom cover detachably disposed on a bottom end of the base body, and a top cover detachably disposed on a top end of the base body, the base body including a base opening corresponding to the lens, and the top cover including a cover opening corresponding to the base opening;

the elastic stopping piece is arranged inside the base body and used for limiting the rotating angle of the rotatable driving piece; and

an electrode assembly disposed on the base body and partially covered by the top cover, the electrode assembly including a first conductive pin electrically connected to the magnetic field generator and a second conductive pin electrically connected to the magnetic field generator;

the image extraction module is arranged on a circuit substrate, and the base body comprises two fixing parts arranged on the circuit substrate and a connecting part which is connected between the two fixing parts and spans the image extraction module;

the magnetic field generator and the rotary driving component are both arranged in the base body and are completely covered by the bottom cover body, and the movable shielding component is arranged on the top end of the base body and is partially covered by the top cover body;

the base body comprises a plurality of guide posts arranged on the top end, the first shielding piece is provided with a plurality of first linear guide grooves, the second shielding piece is provided with a plurality of second linear guide grooves, and each guide post simultaneously passes through the first linear guide groove and the second linear guide groove or one of the first linear guide groove and the second linear guide groove;

the base body comprises a first arc-shaped guide groove corresponding to the first accommodating groove and a second arc-shaped guide groove corresponding to the second accommodating groove, the first arc-shaped guide groove and the second arc-shaped guide groove are symmetrically arranged, and the first driving rod and the second driving rod are movably arranged in the first arc-shaped guide groove and the second arc-shaped guide groove respectively.

10. The portable electronic device of claim 9, wherein the rotary-type driving assembly includes a fixed shaft disposed between the base body and the bottom cover, and the fixed shaft passes through the rotatable magnetic member and the rotatable driving member, so that the rotatable magnetic member and the rotatable driving member rotate by a predetermined angle relative to the fixed shaft; the rotatable driving piece comprises a matching part and a limiting part, wherein the matching part is arranged in the rotatable magnetic piece and is matched with the rotatable magnetic piece, the limiting part is arranged on the matching part, and the first driving rod and the second driving rod are arranged on the limiting part; the limiting part is provided with an arc-shaped limiting groove, and the elastic stopping piece is movably accommodated in the arc-shaped limiting groove, so that the rotating angle of the rotatable driving piece is limited by the elastic stopping piece.

Technical Field

The present invention relates to a portable electronic device and a movable lens shielding module thereof, and more particularly, to a portable electronic device for selectively exposing or shielding a lens and a movable lens shielding module thereof.

Background

In the prior art, a lens equipped in a notebook computer is continuously exposed and cannot be shielded, so that personal privacy of a user is exposed to danger for a long time.

Disclosure of Invention

The present invention provides a portable electronic device and a movable lens shielding module thereof, aiming at the defects of the prior art.

In order to solve the above technical problem, one of the technical solutions of the present invention is to provide a movable lens shielding module, which includes: a magnetic field generator, a rotary driving component and a movable shielding component. The rotary driving assembly comprises a rotatable magnetic piece adjacent to the magnetic field generator and a rotatable driving piece fixed on the rotatable magnetic piece, and the rotatable driving piece comprises a first driving rod and a second driving rod. The movable shielding assembly comprises a first shielding piece and a second shielding piece which are arranged in an overlapped mode, the first shielding piece comprises a first lens opening corresponding to a lens and a first containing groove used for containing the first driving rod, and the second shielding piece comprises a second lens opening corresponding to the first lens opening and a second containing groove used for containing the second driving rod. When the rotatable magnetic part and the rotatable driving part move synchronously through a magnetic force generated by the magnetic field generator, the first shielding part and the second shielding part respectively move towards two opposite directions through the driving of the first driving rod and the second driving rod, so that the first lens opening and the second lens opening are overlapped with each other to expose the lens, or the first lens opening and the second lens opening are not overlapped with each other to shield the lens by the movable shielding component.

Further, when a repulsive magnetic force generated by the magnetic field generator pushes the rotatable magnetic member to move, the rotatable driving member is driven by the rotatable magnetic member to rotate in an anticlockwise direction by a predetermined angle, and the first shielding member and the second shielding member are driven by the first driving rod and the second driving rod respectively to perform two opposite linear movements until the first lens opening of the first shielding member and the second lens opening of the second shielding member coincide with each other to expose the lens; when a magnetic attraction force generated by the magnetic field generator attracts the rotatable magnetic member to move, the rotatable driving member is driven by the rotatable magnetic member to rotate clockwise by the predetermined angle, and the first shielding member and the second shielding member are driven by the first driving rod and the second driving rod respectively to perform two opposite linear movements until the first lens opening of the first shielding member and the second lens opening of the second shielding member do not coincide with each other, so that the lens is shielded by the first shielding member and the second shielding member.

Further, the movable lens blocking module further includes: a shell structure, an elastic stopper and an electrode assembly. The shell structure comprises a base body, a bottom cover body and a top cover body, wherein the bottom cover body is detachably arranged at the bottom end of the base body, the top cover body is detachably arranged at the top end of the base body, the base body comprises a base opening corresponding to the lens, and the top cover body comprises a cover body opening corresponding to the base opening. The elastic stopping piece is arranged inside the base body and used for limiting the rotating angle of the rotatable driving piece. The electrode assembly is arranged on the base body and partially covered by the top end cover body, and the electrode assembly comprises a first conductive pin and a second conductive pin, wherein the first conductive pin is electrically connected with the magnetic field generator, and the second conductive pin is electrically connected with the magnetic field generator. The image extraction module comprising the lens is arranged on a circuit substrate, and the base body comprises two fixing parts arranged on the circuit substrate and a connecting part which is connected between the two fixing parts and stretches across the image extraction module. The magnetic field generator and the rotary driving component are both arranged in the base body and are completely covered by the bottom cover body, and the movable shielding component is arranged on the top end of the base body and is partially covered by the top cover body. The base body comprises a plurality of guide columns arranged on the top end, the first shielding piece is provided with a plurality of first linear guide grooves, the second shielding piece is provided with a plurality of second linear guide grooves, and each guide column simultaneously penetrates through both the first linear guide groove and the second linear guide groove or one of the first linear guide groove and the second linear guide groove. The base body comprises a first arc-shaped guide groove corresponding to the first accommodating groove and a second arc-shaped guide groove corresponding to the second accommodating groove, the first arc-shaped guide groove and the second arc-shaped guide groove are symmetrically arranged, and the first driving rod and the second driving rod are movably arranged in the first arc-shaped guide groove and the second arc-shaped guide groove respectively.

Furthermore, the rotary driving assembly comprises a fixed shaft arranged between the base body and the bottom cover body, and the fixed shaft penetrates through the rotatable magnetic part and the rotatable driving part, so that the rotatable magnetic part and the rotatable driving part rotate by a preset angle relative to the fixed shaft; the rotatable driving piece comprises a matching part and a limiting part, wherein the matching part is arranged in the rotatable magnetic piece and is matched with the rotatable magnetic piece, the limiting part is arranged on the matching part, and the first driving rod and the second driving rod are arranged on the limiting part; the limiting part is provided with an arc-shaped limiting groove, and the elastic stopping piece is movably accommodated in the arc-shaped limiting groove, so that the rotating angle of the rotatable driving piece is limited by the elastic stopping piece.

In order to solve the above technical problem, another technical solution of the present invention is to provide a movable lens blocking module, including: a magnetic field generator, a rotary driving component and a movable shielding component. The rotary driving assembly comprises a rotatable magnetic piece adjacent to the magnetic field generator and a rotatable driving piece fixed on the rotatable magnetic piece, and the rotatable driving piece comprises at least one driving rod. The movable shielding component comprises at least one shielding piece, and the at least one shielding piece comprises a lens opening corresponding to a lens and a containing groove for containing the at least one driving rod. When the rotatable magnetic part and the rotatable driving part move synchronously through a magnetic force generated by the magnetic field generator, the at least one shielding part moves towards a linear direction through the driving of the at least one driving rod, so that the lens is exposed out of the lens opening or is shielded by the at least one shielding part.

Further, when a repulsive magnetic force generated by the magnetic field generator pushes the rotatable magnetic member to move, the rotatable driving member is driven by the rotatable magnetic member to rotate in a counterclockwise direction by a predetermined angle, and the at least one shielding member is driven by the at least one driving rod to move linearly until the lens is exposed by the lens opening of the at least one shielding member; when a magnetic attraction force generated by the magnetic field generator attracts the rotatable magnetic piece to move, the rotatable driving piece is driven by the rotatable magnetic piece to rotate clockwise by the preset angle, and the at least one shielding piece is driven by the at least one driving rod to move linearly until the lens is shielded by the at least one shielding piece.

In order to solve the above technical problem, another technical solution of the present invention is to provide a portable electronic device, which includes an image capturing module, the image capturing module includes an image capturing module and a movable lens shielding module, and the image capturing module includes a lens cooperating with the movable lens shielding module. The movable lens shielding module comprises: a magnetic field generator, a rotary driving component and a movable shielding component. The rotary driving assembly comprises a rotatable magnetic piece adjacent to the magnetic field generator and a rotatable driving piece fixed on the rotatable magnetic piece, and the rotatable driving piece comprises a first driving rod and a second driving rod. The movable shielding assembly comprises a first shielding piece and a second shielding piece which are arranged in an overlapped mode, the first shielding piece comprises a first lens opening corresponding to a lens and a first containing groove used for containing the first driving rod, and the second shielding piece comprises a second lens opening corresponding to the first lens opening and a second containing groove used for containing the second driving rod. When the rotatable magnetic part and the rotatable driving part move synchronously through a magnetic force generated by the magnetic field generator, the first shielding part and the second shielding part respectively move towards two opposite directions through the driving of the first driving rod and the second driving rod, so that the first lens opening and the second lens opening are overlapped with each other to expose the lens, or the first lens opening and the second lens opening are not overlapped with each other to shield the lens by the movable shielding component.

Further, when a repulsive magnetic force generated by the magnetic field generator pushes the rotatable magnetic member to move, the rotatable driving member is driven by the rotatable magnetic member to rotate in an anticlockwise direction by a predetermined angle, and the first shielding member and the second shielding member are driven by the first driving rod and the second driving rod respectively to perform two opposite linear movements until the first lens opening of the first shielding member and the second lens opening of the second shielding member coincide with each other to expose the lens; when a magnetic attraction force generated by the magnetic field generator attracts the rotatable magnetic member to move, the rotatable driving member is driven by the rotatable magnetic member to rotate clockwise by the predetermined angle, and the first shielding member and the second shielding member are driven by the first driving rod and the second driving rod respectively to perform two opposite linear movements until the first lens opening of the first shielding member and the second lens opening of the second shielding member do not coincide with each other, so that the lens is shielded by the first shielding member and the second shielding member.

Further, the movable lens blocking module further includes: a shell structure, an elastic stopper and an electrode assembly. The shell structure comprises a base body, a bottom cover body and a top cover body, wherein the bottom cover body is detachably arranged at the bottom end of the base body, the top cover body is detachably arranged at the top end of the base body, the base body comprises a base opening corresponding to the lens, and the top cover body comprises a cover body opening corresponding to the base opening. The elastic stopping piece is arranged inside the base body and used for limiting the rotating angle of the rotatable driving piece. The electrode assembly is arranged on the base body and partially covered by the top end cover body, and the electrode assembly comprises a first conductive pin and a second conductive pin, wherein the first conductive pin is electrically connected with the magnetic field generator, and the second conductive pin is electrically connected with the magnetic field generator. The image extraction module is arranged on a circuit substrate, and the base body comprises two fixing parts arranged on the circuit substrate and a connecting part which is connected between the two fixing parts and spans the image extraction module. The magnetic field generator and the rotary driving component are both arranged in the base body and are completely covered by the bottom cover body, and the movable shielding component is arranged on the top end of the base body and is partially covered by the top cover body. The base body comprises a plurality of guide columns arranged on the top end, the first shielding piece is provided with a plurality of first linear guide grooves, the second shielding piece is provided with a plurality of second linear guide grooves, and each guide column simultaneously penetrates through both the first linear guide groove and the second linear guide groove or one of the first linear guide groove and the second linear guide groove. The base body comprises a first arc-shaped guide groove corresponding to the first accommodating groove and a second arc-shaped guide groove corresponding to the second accommodating groove, the first arc-shaped guide groove and the second arc-shaped guide groove are symmetrically arranged, and the first driving rod and the second driving rod are movably arranged in the first arc-shaped guide groove and the second arc-shaped guide groove respectively.

Furthermore, the rotary driving assembly comprises a fixed shaft arranged between the base body and the bottom cover body, and the fixed shaft penetrates through the rotatable magnetic part and the rotatable driving part, so that the rotatable magnetic part and the rotatable driving part rotate by a preset angle relative to the fixed shaft; the rotatable driving piece comprises a matching part and a limiting part, wherein the matching part is arranged in the rotatable magnetic piece and is matched with the rotatable magnetic piece, the limiting part is arranged on the matching part, and the first driving rod and the second driving rod are arranged on the limiting part; the limiting part is provided with an arc-shaped limiting groove, and the elastic stopping piece is movably accommodated in the arc-shaped limiting groove, so that the rotating angle of the rotatable driving piece is limited by the elastic stopping piece.

One of the benefits of the present invention is that the portable electronic device and the movable lens shielding module thereof provided by the present invention can utilize the expression that the rotary driving component comprises a rotatable magnetic member adjacent to the magnetic field generator and a rotatable driving member fixed on the rotatable magnetic member, and the rotatable driving member comprises at least one driving rod (for example, comprising a first driving rod and a second driving rod), "and the movable shielding component comprises at least one shielding member (for example, comprising a first shielding member and a second shielding member disposed in an overlapping manner), and the at least one shielding member comprises a lens opening corresponding to a lens and a receiving groove for receiving the at least one driving rod (for example, the first shielding member comprises a first lens opening corresponding to a lens and a first receiving groove for receiving the first driving rod, and the second shielding member includes a second lens opening corresponding to the first lens opening and a second receiving groove for receiving the second driving rod), "so that the rotatable magnetic member and the rotatable driving member can move synchronously by a magnetic force generated by the magnetic field generator, and the at least one shielding member can move in a linear direction by being driven by the at least one driving rod, thereby enabling the lens to be exposed by the lens opening or shielded by the at least one shielding member (for example, the first shielding member and the second shielding member respectively move in two opposite directions by being driven by the first driving rod and the second driving rod, so that the first lens opening and the second lens opening are overlapped with each other to expose the lens, or so that the first lens opening and the second lens opening do not coincide with each other so that the lens is shielded by the movable shielding component).

For a better understanding of the nature and technical content of the present invention, reference should be made to the following detailed description of the invention, taken in conjunction with the accompanying drawings, which are provided for purposes of illustration and description, and not for purposes of limitation.

Drawings

Fig. 1 is an exploded view of a movable lens shielding module according to the present invention.

Fig. 2 is a partially exploded view of the movable lens shielding module according to the present invention.

Fig. 3 is a schematic view of the movable lens shielding module according to the present invention.

Fig. 4 is another exploded view of the movable lens shielding module according to the present invention.

Fig. 5 is another exploded view of the movable lens shielding module according to the present invention.

Fig. 6 is another combination diagram of the movable lens shielding module according to the present invention.

Fig. 7 is a schematic top view (with the top cover temporarily removed) of the rotatable driving member of the movable lens shielding module according to the present invention before the rotatable driving member is driven by the rotatable magnetic member to rotate counterclockwise by a predetermined angle (or after the rotatable driving member is driven by the rotatable magnetic member to rotate clockwise by a predetermined angle).

Fig. 8 is a schematic top view (with the top end cover temporarily removed) of the rotatable driving member of the movable lens shielding module provided by the present invention rotated counterclockwise by a predetermined angle (or rotated clockwise by a predetermined angle) by the driving of the rotatable magnetic member.

Fig. 9 is a schematic top view (with the top end cover temporarily removed) of the rotatable driving member of the movable lens shielding module according to the present invention after being driven by the rotatable magnetic member to rotate counterclockwise by a predetermined angle (or before being driven by the rotatable magnetic member to rotate clockwise by a second predetermined angle).

Fig. 10 is a schematic side view of an image extraction assembly according to the present invention.

Fig. 11 is a perspective view of the portable electronic device using the image capturing assembly according to the present invention.

Detailed Description

The following description is provided for the embodiments of the portable electronic device and the movable lens shielding module thereof according to the present disclosure, and those skilled in the art can understand the advantages and effects of the present disclosure from the disclosure of the present disclosure. The invention is capable of other and different embodiments and its several details are capable of modifications and variations in various respects, all without departing from the present invention. The drawings of the present invention are for illustrative purposes only and are not intended to be drawn to scale. The following embodiments will further explain the related art of the present invention in detail, but the disclosure is not intended to limit the scope of the present invention. In addition, the term "or" as used herein should be taken to include any one or combination of more of the associated listed items as the case may be.

Referring to fig. 1 to 10, the present invention provides a movable lens shielding module S, which at least includes: a magnetic field generator S1, a rotary driving component S2 and a movable shielding component S3.

First, referring to fig. 1, fig. 2, fig. 4 and fig. 5, the rotary driving assembly S2 includes a rotatable magnetic member 1 adjacent to the magnetic field generator S1 and a rotatable driving member 2 fixed on the rotatable magnetic member 1, and the rotatable driving member 2 includes a first driving rod 21 and a second driving rod 22. For example, the rotatable driving member 2 includes an engaging portion 23 disposed in the rotatable magnetic member 1 and engaged with the rotatable magnetic member 1, and a limiting portion 24 disposed on the engaging portion 23, and the first driving rod 21 and the second driving rod 22 are disposed on the limiting portion 24. It is noted that the outer periphery of the position-limiting portion 24 has an arc-shaped position-limiting groove 2400. However, the above-mentioned example is only one possible embodiment, and is not intended to limit the present invention.

Further, as shown in fig. 1, fig. 2, fig. 4, fig. 5, fig. 7 and fig. 10, the movable shielding assembly S3 includes a first shielding member 3 and a second shielding member 4 overlapped with each other. More specifically, the first shielding element 3 includes a first lens opening 3001 corresponding to a lens L and a first receiving groove 3002 for receiving the first driving rod 21, and the second shielding element 4 includes a second lens opening 4001 corresponding to the first lens opening 3001 and a second receiving groove 4002 for receiving the second driving rod 22. For example, the first receiving slot 3002 has an elongated space, so the first driving rod 21 can move in the first receiving slot 3002, and the second receiving slot 4002 has an elongated space, so the second driving rod 22 can move in the second receiving slot 4002. In addition, the first shutter 3 has a plurality of first linear guide grooves 3003, and the second shutter 4 has a plurality of second linear guide grooves 4003. It is to be noted that the first shutter 3 has an elongated shape and has an upper notch for avoiding the first driving lever 21 without colliding with the first driving lever 21. The second shutter 4 has an elongated shape and has a lower notch for avoiding the second driving lever 22 without colliding with the second driving lever 22. However, the above-mentioned example is only one possible embodiment, and is not intended to limit the present invention.

For example, as shown in fig. 1 to 6 and 10, the movable lens shielding module S of the present invention further includes a housing structure 5. More specifically, the housing structure 5 includes a base body 51, a bottom cover 52 detachably disposed on a bottom end of the base body 51, and a top cover 53 detachably disposed on a top end of the base body 51. In addition, the base body 51 includes a base opening 5100 corresponding to the lens L, and the top cover 53 includes a cover opening 5300 corresponding to the base opening 5100. However, the above-mentioned example is only one possible embodiment, and is not intended to limit the present invention.

For example, as shown in fig. 1 to 6, the magnetic field generator S1 and the rotary driving assembly S2 are both disposed in the base body 51 and completely covered by the bottom cover 52, and the movable shielding assembly S3 is disposed on the top of the base body 51 and partially covered by the top cover 53. Furthermore, the base body 51 includes a plurality of guiding posts 511 disposed on the top end, and each guiding post 511 simultaneously passes through both the first straight guiding slot 3003 and the second straight guiding slot 4003, or one of the first straight guiding slot 3003 and the second straight guiding slot 4003, so that the moving space of the first shielding member 3 and the second shielding member 4 is limited by the plurality of guiding posts 511. In addition, the base body 51 includes a first arc-shaped guiding groove 5101 corresponding to the first receiving groove 3002 and a second arc-shaped guiding groove 5102 corresponding to the second receiving groove 4002. The first arc-shaped guiding groove 5101 and the second arc-shaped guiding groove 5102 are symmetrically arranged, and the first driving rod 21 and the second driving rod 22 are movably arranged in the first arc-shaped guiding groove 5101 and the second arc-shaped guiding groove 5102, respectively, so that the movement space of the first driving rod 21 and the movement space of the second driving rod 22 are limited by the first arc-shaped guiding groove 5101 and the second arc-shaped guiding groove 5102, respectively. However, the above-mentioned example is only one possible embodiment, and is not intended to limit the present invention.

For example, as shown in fig. 1, fig. 2, fig. 4 and fig. 5, the rotating driving assembly S2 further includes a fixed shaft 8 disposed between the base body 51 and the bottom end cover 52, and opposite ends of the fixed shaft 8 are fixed to the base body 51 and the bottom end cover 52, respectively. In addition, the fixed shaft 8 passes through the rotatable magnetic member 1 and the rotatable driving member 2, so that the rotatable magnetic member 1 and the rotatable driving member 2 can rotate by a predetermined angle (for example, between 35 to 55 degrees) relative to the fixed shaft 8. However, the above-mentioned example is only one possible embodiment, and is not intended to limit the present invention.

For example, as shown in fig. 1 to 6, the movable lens shielding module S of the present invention further includes an elastic stopper 6 and an electrode assembly 7. More specifically, the elastic stopper 6 is disposed inside the base body 51 for limiting the rotation angle of the rotatable driver 2 (i.e., the arc-shaped limiting groove 2400 movably receives the elastic stopper 6, so that the rotation angle of the rotatable driver 2 is limited by the elastic stopper 6). Further, the electrode assembly 7 is disposed on the base body 51 and partially covered by the tip end cover 53. The electrode assembly 7 includes a first conductive pin 71 electrically connected to the magnetic field generator S1 and a second conductive pin 72 electrically connected to the magnetic field generator S1, and the first conductive pin 71 and the second conductive pin 72 are electrically connected to opposite ends of the coil, respectively. Alternatively, the magnetic field generator S1 may be an electromagnet, and the magnetic field generator S1 includes a bracket, a core passing through the bracket, and a coil circumferentially disposed on the bracket. However, the above-mentioned example is only one possible embodiment, and is not intended to limit the present invention.

Therefore, as shown in fig. 7 to 10, when the rotatable magnetic member 1 and the rotatable driving member 2 are synchronously moved by a magnetic force generated after the magnetic field generator S1 is energized, the first shielding member 3 and the second shielding member 4 can be driven by the first driving rod 21 and the second driving rod 22 to respectively move toward two opposite directions, so that the first lens opening 3001 and the second lens opening 4001 are overlapped with each other to expose the lens L (as shown in fig. 9), or the first lens opening 3001 and the second lens opening 4001 are not overlapped with each other to shield the lens L by the movable shielding assembly S3 (as shown in fig. 7).

For example, as shown in fig. 7, 8 and 9, when a repulsive magnetic force generated by the magnetic field generator S1 pushes the rotatable magnetic element 1 to move, the rotatable driving element 2 can rotate counterclockwise by a predetermined angle (the direction of the counterclockwise solid arrow shown in fig. 7 to 9) by the driving of the rotatable magnetic element 1, and the first shielding element 3 and the second shielding element 4 can respectively perform two opposite linear movements (the directions of the right and left solid arrows shown in fig. 7 to 9) by the driving of the first driving rod 21 and the second driving rod 22 until the first lens opening 3001 of the first shielding element 3 and the second lens opening 4001 of the second shielding element 4 coincide with each other to expose the lens L (as shown in fig. 9 and 10). It should be noted that, as shown in fig. 9, the rotatable driver 2 is blocked by the elastic stopper 6 and cannot rotate counterclockwise any more, so that the counterclockwise rotation angle of the rotatable driver 2 is limited by the elastic stopper 6. However, the above-mentioned example is only one possible embodiment, and is not intended to limit the present invention.

For example, as shown in fig. 9, 8 and 7, when a magnetic attraction generated by the magnetic field generator S1 attracts the rotatable magnetic member 1 to move, the rotatable driving member 2 can rotate clockwise (in the direction of the clockwise dotted arrow shown in fig. 7 to 9) by a predetermined angle under the driving of the rotatable magnetic member 1, and the first shielding member 3 and the second shielding member 4 can respectively move linearly in opposite directions (in the directions of the right and left dotted arrows shown in fig. 7 to 9) under the driving of the first driving rod 21 and the second driving rod 22 until the first lens opening 3001 of the first shielding member 3 and the second lens opening 4001 of the second shielding member 4 do not overlap with each other, so that the lens L is shielded by the first shielding member 3 and the second shielding member 4 (as shown in fig. 7 and 10). It should be noted that, as shown in fig. 7, the rotatable driver 2 is blocked by the elastic stopper 6 and cannot rotate clockwise any more, so that the clockwise rotation angle of the rotatable driver 2 is limited by the elastic stopper 6. However, the above-mentioned example is only one possible embodiment, and is not intended to limit the present invention.

It should be noted that the movable lens shielding module S provided by the present invention includes: a magnetic field generator S1, a rotary driving component S2 and a movable shielding component S3. The rotary driving assembly S2 includes a rotatable magnetic member 1 adjacent to the magnetic field generator S1 and a rotatable driving member 2 fixed on the rotatable magnetic member 1, and the rotatable driving member 2 includes at least one driving rod (the number of the driving rods is not limited, for example, a first driving rod 21 and a second driving rod 22 are used cooperatively, or only one of the first driving rod 21 and the second driving rod 22 is used). Furthermore, the movable shielding assembly S3 includes at least one shielding element (the number of the shielding elements is not limited, for example, a first shielding element 3 and a second shielding element 4 are used cooperatively, or only one of the first shielding element 3 and the second shielding element 4 is used cooperatively), and the at least one shielding element includes a lens opening corresponding to a lens L and an accommodating groove for accommodating at least one driving rod. Therefore, the rotatable magnetic element 1 and the rotatable driving element 2 can move synchronously by a magnetic force generated by the magnetic field generator S1, and move towards a linear direction by the driving of at least one driving rod, so that the lens L is exposed or shielded by the lens opening. However, the above-mentioned example is only one possible embodiment, and is not intended to limit the present invention.

For example, when the magnetic repulsive force generated by the magnetic field generator S1 pushes the rotatable magnetic element 1 to move, the rotatable driving element 2 can rotate counterclockwise by a predetermined angle under the driving of the rotatable magnetic element 1, and the at least one blocking element can move linearly under the driving of the at least one driving rod until the lens L is exposed by the lens opening. In addition, when a magnetic attraction generated by the magnetic field generator S1 attracts the rotatable magnetic element 1 to move, the rotatable driving element 2 can rotate clockwise by a predetermined angle under the driving of the rotatable magnetic element 1, and at least one shielding element can move linearly under the driving of at least one driving rod until the lens L is shielded. However, the above-mentioned example is only one possible embodiment, and is not intended to limit the present invention.

It should be noted that, in conjunction with fig. 3, fig. 6 and fig. 10, the present invention further provides an image capturing assembly Z, which includes an image capturing module M and a movable lens shielding module S. In addition, the image capturing module M includes a lens L capable of cooperating with the movable lens shielding module S, and the movable lens shielding module S includes at least a magnetic field generator S1, a rotary driving assembly S2 and a movable shielding assembly S3. For example, the image capturing module M and the movable lens shielding module S are disposed on a circuit substrate P, and the base body 51 includes two fixing portions 512 disposed on the circuit substrate P and a connecting portion 513 connected between the two fixing portions 512 and crossing the image capturing module M. However, the above-mentioned example is only one possible embodiment, and is not intended to limit the present invention.

It should be noted that, in conjunction with fig. 10 and 11, the present invention further provides a portable electronic device including an image capturing module Z disposed on a circuit substrate P, and the image capturing module Z includes an image capturing module M and a movable lens shielding module S. In addition, the image capturing module M includes a lens L capable of cooperating with the movable lens shielding module S, and the movable lens shielding module S includes at least a magnetic field generator S1, a rotary driving assembly S2 and a movable shielding assembly S3. For example, the portable electronic device may be a desktop computer, a notebook computer, or a tablet computer. However, the above-mentioned example is only one possible embodiment, and is not intended to limit the present invention.

[ advantageous effects of the embodiments ]

One of the advantages of the present invention is that the portable electronic device and the movable lens shielding module S thereof provided by the present invention can include a rotatable magnetic element 1 adjacent to the magnetic field generator S1 and a rotatable driving element 2 fixed on the rotatable magnetic element 1 by the "rotatable driving element S2", and the rotatable driving element 2 includes at least one driving rod (for example, including a first driving rod 21 and a second driving rod 22) ", and the movable shielding element S3 includes at least one shielding element (for example, including a first shielding element 3 and a second shielding element 4 disposed in an overlapping manner), and the at least one shielding element includes a lens opening corresponding to a lens L and a receiving groove for receiving the at least one driving rod (for example, the first shielding element 3 includes a first lens opening 3001 corresponding to a lens L and a first receiving groove 3002 for receiving the first driving rod 21, and the second shielding member 4 includes a second lens opening 4001 corresponding to the first lens opening 3001 and a second receiving groove 4002 "for receiving the second driving rod 22, so that the rotatable magnetic member 1 and the rotatable driving member 2 can be synchronously moved by a magnetic force generated by the magnetic field generator S1, and the at least one shielding element can be driven by the at least one driving rod to move towards a linear direction, so that the lens L can be exposed by the lens opening or shielded by the at least one shielding element (for example, the first shielding element 3 and the second shielding element 4 are driven by the first driving rod 21 and the second driving rod 22 respectively to move towards two opposite directions, so that the first lens opening 3001 and the second lens opening 4001 are overlapped with each other so as to expose the lens L, or the first lens opening 3001 and the second lens opening 4001 are not overlapped with each other so as to shield the lens L by the movable shielding component S3).

The disclosure is only a preferred embodiment of the invention, and is not intended to limit the scope of the claims, so that all technical equivalents and modifications using the contents of the specification and drawings are included in the scope of the claims.