CN214544470U - Periscopic camera module and electronic equipment - Google Patents

Abstract

The application discloses periscopic camera module and electronic equipment, including optical assembly, drive assembly, first circuit board subassembly and second circuit board subassembly. The driving assembly comprises a driving part and a shell part, the driving part and the optical assembly are both positioned in the shell part, and the driving part is used for driving the optical assembly to move. The first circuit board assembly comprises a hard circuit board and a flexible circuit board, the hard circuit board is attached to the side wall surface of the shell portion, one end of the flexible circuit board is electrically connected with the hard circuit board, and the other end of the flexible circuit board penetrates through the shell portion and then is electrically connected with the driving portion. The second circuit board assembly is used for electrically connecting the hard circuit board and the external connector.

Description

Periscopic camera module and electronic equipment

Technical Field

The application relates to the technical field of make a video recording, especially, relate to a periscopic module and electronic equipment of making a video recording.

Background

The existing periscopic camera module makes incident light enter the light steering element and then turn to the optical lens by arranging the light steering element and the optical lens positioned on the light emitting path of the light steering element, so that the height size of the camera module is reduced, and the periscopic camera module is widely applied to light and thin electronic equipment.

Periscopic camera module generally includes drive division and the casing portion that is used for driving light to turn to component and optical lens motion, through setting up the pin on the drive division, the pin passes casing portion and outside circuit board electric connection, and the design of pin has caused great welding degree of difficulty, and the pin is in casing portion, causes the condition of high temperature easily during operation.

SUMMERY OF THE UTILITY MODEL

The embodiment of the application provides a periscopic camera module and electronic equipment, is provided with rigid circuit board, flexible line way board and second circuit board subassembly, and the lateral wall face of casing is located in the subsides of rigid circuit board, the heat dissipation of being convenient for.

In a first aspect, an embodiment of the present application provides a periscopic camera module, including optical assembly and drive assembly, drive assembly includes drive division and casing portion, the drive division with optical assembly all is located casing portion is interior, the drive division is used for the drive the optical assembly motion, periscopic camera module still includes:

the first circuit board assembly comprises a hard circuit board and a flexible circuit board, the hard circuit board is attached to the side wall surface of the shell part, one end of the flexible circuit board is electrically connected with the hard circuit board, and the other end of the flexible circuit board penetrates through the shell part and then is electrically connected with the driving part; and

and the second circuit board component is used for electrically connecting the hard circuit board and the external connector.

The beneficial effects of the embodiment of the application are as follows: through setting up rigid line board, flexible line board and second circuit board subassembly, the lateral wall face of casing portion is located in rigid line board subsides, and through flexible line board and drive division electric connection, is convenient for dispel the heat, and second circuit board subassembly and rigid line board electric connection, and electric connection between two circuit boards makes holistic electric connection more reliable and more stable, makes the structure compacter simultaneously, has reduced holistic size, more does benefit to the miniaturization of the module of making a video recording.

In some embodiments, the optical assembly includes a light turning element and an optical lens located on a light emitting path of the light turning element, the driving portion includes a first driving member for driving the light turning element to move and a second driving member for driving the optical lens to move, the flexible printed circuit includes a first sub-flexible printed circuit and a second sub-flexible printed circuit, one end of the first sub-flexible printed circuit and one end of the second sub-flexible printed circuit are electrically connected to the hard printed circuit, the other end of the first sub-flexible printed circuit passes through the housing portion and then is electrically connected to the first driving member, and the other end of the second sub-flexible printed circuit passes through the housing portion and then is electrically connected to the second driving member.

Based on the above embodiment, through setting up light steering element and optical lens, the incident light can turn to the camera lens subassembly after the light steering element turns to, the height dimension of module of making a video recording has been reduced, through setting up the first driving piece that drives the light steering element motion and drive optical lens motion second driving piece, make light steering element and optical lens can independent work respectively, each other does not influence, set up first sub-flexible line way board and the sub-flexible line way board of second simultaneously, respectively with first driving piece and second driving piece electric connection, be convenient for first driving piece and the better received signal of telecommunication of second driving piece.

In some of these embodiments, the rigid cord board comprises a first sub rigid cord board and a second sub rigid cord board, the housing portion comprising:

the first driving piece and the light steering element are both positioned in the first shell, the first sub hard circuit board is attached to the side wall surface of the first shell, and the first sub flexible circuit board penetrates through the first shell and then is electrically connected with the first sub hard circuit board; and

the second driving piece and the optical lens are both positioned in the second shell, the second sub hard circuit board is attached to the side wall surface of the second shell, and the second sub flexible circuit board penetrates through the second shell and then is electrically connected with the first sub hard circuit board.

Based on the above embodiment, by providing the first housing and the second housing, when assembling the periscopic camera module, the first driving element and the light redirecting element can be assembled in the first housing, the second driving element and the optical lens can be assembled in the second housing, and then the first housing with the light redirecting element and the first driving element and the second housing with the second driving element and the optical lens can be assembled together.

In some embodiments, the first sub rigid wiring board and the second sub rigid wiring board are respectively attached to side wall surfaces of the first housing and the second housing facing the same side.

Based on the above embodiment, the first sub hard circuit board and the second sub hard circuit board are arranged in the same direction, so that the second circuit board assembly is more conveniently electrically connected with the first sub hard circuit board and the second sub hard circuit board, and the whole structure is more compact.

In some embodiments, the first sub rigid circuit board and the second sub rigid circuit board are both provided with a first welding portion, the second circuit board assembly is provided with a second welding portion corresponding to each first welding portion, and each second welding portion is electrically connected to a corresponding one of the first welding portions.

Based on above-mentioned embodiment, through setting up first welding part and second welding part, first welding part and second welding part electric connection, the welding between first welding part and the second welding part is more simple and convenient, and can further reduce holistic size.

In some embodiments, each of the first bonding parts includes a plurality of first pads distributed in an array, and each of the second bonding parts includes a second pad corresponding to each of the first pads.

Based on above-mentioned embodiment, be a plurality of first pads and the second pad of array distribution through the setting, increased the distribution area of first pad and second pad, make the electric connection of first welding part and second welding part more stable.

In some embodiments, the first welding portion and/or the second welding portion is provided with a receiving groove filled with a welding agent.

Based on above-mentioned embodiment, be provided with the holding tank through first welding part and/or second welding part, inject the welding agent in the holding tank, make first welding part and second welding part can produce electric connection, welding process convenient and fast and accuracy simultaneously.

In some embodiments, the periscopic camera module further comprises a photosensitive assembly located on an image side of the optical assembly, and the second circuit board assembly further comprises:

the first part is attached to the hard circuit board, and two second welding parts are arranged on the first part; and

the second part is attached to the photosensitive assembly, and the second part is electrically connected with the first part and the photosensitive assembly.

Based on above-mentioned embodiment, through setting up first portion and second portion, first portion and second portion electric connection make second circuit board subassembly formula structure as an organic whole, convenient production, the second portion is located in the subsides of sensitization subassembly, makes overall structure compacter, is favorable to making a video recording the miniaturization of module.

In some of these embodiments, a support plate is also included,

the supporting plate is attached to one side, close to the optical component, of the second part, and a light through hole is formed in the supporting plate, so that light can pass through the light through hole and then reach the photosensitive component; or the supporting plate is attached to one side of the second part, which is far away from the optical component.

Based on above-mentioned embodiment, through setting up the backup pad of subsides locating the second portion, can increase the second portion to the bearing strength of sensitization subassembly, set up logical unthreaded hole simultaneously, the sensitization subassembly of the second portion of being convenient for receives light.

In some of these embodiments, the second circuit board assembly is a flexible circuit board assembly.

Based on above-mentioned embodiment, through setting up the second circuit board subassembly into flexible circuit board subassembly, flexible circuit board subassembly can be arbitrary crooked or folding, different spatial layout requirements of adaptation that can be better are favorable to making a video recording the miniaturization of module.

In a second aspect, an embodiment of the present application provides an electronic device, including:

a housing; and

the periscopic camera module of any one of the above-mentioned, the periscopic camera module set up in the shell.

The electronic equipment of this application embodiment, including foretell periscopic camera module, through setting up rigid line board, flexible line board and second circuit board subassembly, rigid line board pastes the lateral wall face of locating casing portion, and through flexible line board and drive division electric connection, be convenient for dispel the heat, and second circuit board subassembly and rigid line board electric connection, electric connection between two circuit boards makes holistic electric connection more reliable and more stable, make the structure compacter simultaneously, the holistic size has been reduced, more do benefit to the miniaturization of camera module, also do benefit to electronic equipment's frivolous design simultaneously.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present application, and other drawings can be obtained by those skilled in the art without creative efforts.

Fig. 1 is a perspective view of a periscopic camera module according to an embodiment of the present disclosure;

FIG. 2 is a front view of the periscopic camera module shown in FIG. 1;

FIG. 3 is a cross-sectional view taken along line E-E of FIG. 2;

fig. 4 is a perspective view of the optical assembly, the housing portion and the first circuit board assembly in the periscopic camera module shown in fig. 1; wherein, for ease of illustration of the optical assembly, the top plate of the housing portion is removed in this figure;

FIG. 5 is a plan expanded view of a second circuit board assembly of the periscopic camera module shown in FIG. 1;

fig. 6 is a perspective view of the first housing and the sub hard circuit board of the periscopic camera module shown in fig. 1;

FIG. 7 is a schematic partial structural view of a first portion of a second circuit board assembly of the periscopic camera module shown in FIG. 1;

FIG. 8 is an enlarged view of the structure at F in FIG. 3;

fig. 9 is a schematic structural diagram of an electronic device according to an embodiment of the present application.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

The existing periscopic camera module makes incident light enter the light steering element and then turn to the optical lens by arranging the light steering element and the optical lens positioned on the light emitting path of the light steering element, so that the height size of the camera module is reduced, and the periscopic camera module is widely applied to light and thin electronic equipment.

Periscopic camera module generally includes drive division and the casing portion that is used for driving light to turn to component and optical lens motion, through setting up the pin on the drive division, the pin passes casing portion and outside circuit board electric connection, and the design of pin has caused great welding degree of difficulty, and the pin is in casing portion, causes the condition of high temperature easily during operation. The embodiment of the application provides a periscopic camera module and electronic equipment, and aims to solve the technical problem.

In a first aspect, an embodiment of the present application provides a periscopic camera module 100. Referring to fig. 1 to 4, the periscopic camera module 100 includes an optical assembly 110, a driving assembly 120, a first circuit board assembly 130, and a second circuit board assembly 140. The optical component 110 is used for imaging, the driving component 120 is used for driving the optical component to move so as to achieve the anti-shake effect, and the first circuit board component 130 and the second circuit board component 140 work together to electrically connect the driving component 120 with the external connector.

Referring to fig. 1 to 3, the driving assembly 120 may include a driving portion 121 and a housing portion 122, the driving portion 121 and the optical assembly 110 are both located in the housing portion 122, and the driving portion 121 is used for driving the optical assembly 110 to move. The first circuit board assembly 130 may include a rigid circuit board 131 and a flexible circuit board 132, where the rigid circuit board 131 is attached to a side wall surface of the housing portion 122, and it should be noted that after the rigid circuit board 131 is attached to the side wall surface of the housing portion 122, it should be ensured that a light path of the optical assembly 110 is not blocked. Preferably, the side wall surface to which the rigid circuit board 131 is attached is the surface of the housing portion 122 except the light incident surface and the light emitting surface. One end of the flexible circuit board 132 is electrically connected to the rigid circuit board 131, and the other end of the flexible circuit board 132 passes through the housing 122 and is electrically connected to the driving portion 121. The second circuit board assembly 140 is used for electrically connecting the hard circuit board 131 with the external connector.

Through setting up rigid line board 131, flexible line board 132 and second circuit board subassembly 140, rigid line board 131 pastes the side wall face of locating casing portion 122, and through flexible line board 132 and drive division 121 electric connection, the heat dissipation of being convenient for, and second circuit board subassembly 140 and rigid line board 131 electric connection, electric connection between two circuit boards makes holistic electric connection more reliable and more stable, make the structure compacter simultaneously, the holistic size has been reduced, more do benefit to the miniaturization of periscopic camera module group 100.

Referring to fig. 3 to 4, further, the optical assembly 110 may include a light diverting element 111 and an optical lens 112 located on the light outgoing path of the light diverting element 111, and the light diverting element 111 may be a prism or a mirror. The driving part 121 may include a first driving member 1211 that drives the light diverting element 111 to move and a second driving member (not shown in the drawings) that drives the optical lens 112 to move. The flexible circuit board 132 may include a first sub-flexible circuit board 1321 and a second sub-flexible circuit board 1322, one end of each of the first sub-flexible circuit board 1321 and the second sub-flexible circuit board 1322 is electrically connected to the hard circuit board 131, the other end of each of the first sub-flexible circuit board 1321 passes through the housing portion 122 and is electrically connected to the first driving member 1211, and the other end of each of the second sub-flexible circuit board 1322 passes through the housing portion 122 and is electrically connected to the second driving member. Through setting up light and turning to component 111 and optical lens 112, the incident light can turn to the lens subassembly after turning to the component reflection of light, has reduced the height size of periscopic camera module group 100, through setting up the first driving piece 1211 and the second driving piece of drive optical lens 112 motion that drive light turns to the component 111 motion, make light turn to the component 111 and the optical lens 112 can work independently respectively, each other does not influence, set up first sub-flexible line way board 1321 and the sub-flexible line way board 1322 of second simultaneously, respectively with first driving piece 1211 and second driving piece electric connection, be convenient for first driving piece 1211 and the better received signal of telecommunication of second driving piece.

Referring to fig. 3 to 4, further, the hard circuit board 131 may include a first sub hard circuit board 1311 and a second sub hard circuit board 1312. The housing portion 122 may include a first housing 1221 and a second housing 1222, the first driving member 1211 and the light turning element 111 are both located in the first housing 1221, a first sub-rigid board 1311 is attached to a side wall of the first housing 1221, and the first sub-flexible board 1321 passes through the first housing 1221 and is electrically connected to the first sub-rigid board 1311. The second driving element and the optical lens 112 are both located in the second housing 1222, the second sub rigid circuit board 1312 is attached to a sidewall of the second housing 1222, and the second sub flexible circuit board 1322 passes through the second housing 1222 and is electrically connected to the second sub rigid circuit board 1312. By providing the first case 1221 and the second case 1222, when the periscopic camera module 100 is assembled, the first driving member 1211 and the light diverting element 111 may be first assembled in the first housing 1221, the second driving member and the optical lens 112 may be assembled in the second housing 1222, and the first housing 1221 to which the light redirecting element 111 and the first driving member 1211 are mounted and the second housing 1222 to which the second driving member and the optical lens 112 are mounted are assembled, the assembly is more convenient than providing an entire housing, by arranging the first sub hard circuit board 1311 and the second sub hard circuit board 1312, the first sub hard circuit board 1311 is electrically connected with the first sub flexible circuit board 1321, and the second sub hard circuit board 1312 is electrically connected with the second sub flexible circuit board 1322, so that electric signals can be accurately and quickly transmitted to the corresponding first driving member 1211 and the second driving member, and the first driving member 1211 and the second driving member can independently work.

Further, the first sub rigid wiring board 1311 and the second sub rigid wiring board 1312 are respectively attached to the side wall surfaces of the first casing 1221 and the second casing 1222 facing the same side. The first sub hard circuit board 1311 and the second sub hard circuit board 1312 are arranged in the same direction, so that the second circuit board assembly 140 is more conveniently electrically connected with the first sub hard circuit board 1311 and the second sub hard circuit board 1312, and the whole structure is more compact. Preferably, the first sub rigid circuit board 1311 and the second sub rigid circuit board 1312 may be located on the same plane, so that the first sub rigid circuit board 1311 and the second sub rigid circuit board 1312 are more conveniently soldered to the second circuit board assembly 140, and have flat surfaces, thereby further reducing the overall size.

Referring to fig. 4 to 8, in order to further reduce the overall size, the first sub hard circuit board 1311 and the second sub hard circuit board 1312 are both provided with a first soldering portion a. The second circuit board assembly 140 is provided with a second soldering portion 1411 corresponding to each of the first soldering portions a, and each of the second soldering portions 1411 is electrically connected to a corresponding one of the first soldering portions a. Further, each first welding part a comprises a plurality of first pads a1 distributed in an array, each second welding part 141 comprises second pads 1411 corresponding to the first pads a1, and the distribution area of the first pads a1 and the second pads 1411 is increased by arranging the first pads a1 and the second pads 1411 distributed in an array, so that the electrical connection of the first welding parts a and the second welding parts 141 is more stable. Furthermore, the first welding portion a and/or the second welding portion 141 are/is provided with an accommodating groove b filled with a welding agent, and the first welding portion a and the second welding portion 141 can be electrically connected by injecting the welding agent into the accommodating groove b, so that the welding process is convenient, fast and accurate.

Referring to fig. 1, the periscopic camera module 100 may further include a photosensitive element 150, and the photosensitive element 150 is located at the image side of the optical element 110. The second circuit board assembly 140 may further include a first portion 142 and a second portion 143, the first portion 142 is attached to the rigid circuit board 131, and two second welding portions 141 are disposed on the first portion 142. The second portion 143 is attached to the photosensitive element 150, and the second portion 143 is electrically connected to both the first portion 142 and the photosensitive element 150. Through setting up first part 142 and second part 143, first part 142 and second part 143 electric connection make second circuit board subassembly 140 formula structure as an organic whole, convenient production, photosensitive assembly 150 pastes and locates second part 143, makes overall structure compacter, is favorable to periscopic camera module group 100's miniaturization.

Referring to fig. 5, in some embodiments, the second circuit board assembly 140 may be a flexible circuit board assembly, so that the second circuit board assembly 140 can be bent and folded arbitrarily according to the space layout requirement, which is convenient for processing and is beneficial to reduce the volume of the periscopic camera module 100.

Referring to fig. 1, the periscopic camera module 100 may further include a supporting plate 160, the supporting plate 160 is attached to a side of the second portion 143 close to the optical assembly 110, and the supporting plate 160 is provided with a light hole, so that light can pass through the light hole and reach the photosensitive assembly 150. Alternatively, the supporting plate 160 is attached to a side of the second portion 143 facing away from the optical assembly 110. The supporting plate 160 attached to the second portion 143 can increase the bearing strength of the second portion 143 on the photosensitive assembly 150, and a light-passing hole (not shown) is formed in the supporting plate, so that the photosensitive assembly 150 of the second portion 143 can receive light conveniently.

The periscopic camera module 100 may further include a positioning portion located on a side wall surface of the housing portion 122, and the second circuit board assembly 130 is provided with a positioning hole corresponding to the positioning portion, where the positioning portion is matched with the positioning hole in size.

In a second aspect, please refer to fig. 9, an embodiment of the present application provides an electronic device 10. The electronic device 10 includes a housing and any of the periscopic camera modules 100 described above, and the periscopic camera module 100 is disposed in the housing.

Based on electronic equipment 10 in this application embodiment, including foretell periscopic camera module group 100, through setting up rigid line board 131, flexible line board 132 and second circuit board subassembly 140, rigid line board 131 pastes the side wall face of locating casing portion 122, and pass through flexible line board 132 and drive division 121 electric connection, be convenient for dispel the heat, and second circuit board subassembly 140 and rigid line board 131 electric connection, electric connection between two circuit boards makes holistic electric connection more reliable and stable, make the structure compacter simultaneously, the holistic size has been reduced, more do benefit to periscopic camera module group 100's miniaturization, also do benefit to electronic equipment 10's frivolousization design simultaneously.

The same or similar reference numerals in the drawings of the present embodiment correspond to the same or similar components; in the description of the present application, it is to be understood that if there is an orientation or positional relationship indicated by the terms "upper", "lower", "left", "right", etc. based on the orientation or positional relationship shown in the drawings, it is only for convenience of description and simplification of description, but it is not intended to indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and therefore, the terms describing the positional relationship in the drawings are only for illustrative purposes and are not to be construed as limitations of the present patent, and specific meanings of the above terms may be understood by those skilled in the art according to specific situations.

The above description is only exemplary of the present application and should not be taken as limiting the present application, as any modification, equivalent replacement, or improvement made within the spirit and principle of the present application should be included in the protection scope of the present application.

Claims (11)

1. The utility model provides a module is made a video recording to periscope formula, its characterized in that includes optical assembly and drive assembly, drive assembly includes drive division and casing portion, the drive division with optical assembly all is located in the casing portion, the drive division is used for the drive optical assembly motion, the module is made a video recording to the periscope formula still includes:

the first circuit board assembly comprises a hard circuit board and a flexible circuit board, the hard circuit board is attached to the side wall surface of the shell part, one end of the flexible circuit board is electrically connected with the hard circuit board, and the other end of the flexible circuit board penetrates through the shell part and then is electrically connected with the driving part; and

and the second circuit board component is used for electrically connecting the hard circuit board and the external connector.

2. The periscopic camera module as claimed in claim 1, wherein the optical assembly includes a light redirecting element and an optical lens located on a light exit path of the light redirecting element, the driving unit includes a first driving element for driving the light redirecting element to move and a second driving element for driving the optical lens to move, the flexible printed circuit includes a first sub-flexible printed circuit and a second sub-flexible printed circuit, one end of the first sub-flexible printed circuit and one end of the second sub-flexible printed circuit are electrically connected to the rigid printed circuit, the other end of the first sub-flexible printed circuit passes through the housing portion and is electrically connected to the first driving element, and the other end of the second sub-flexible printed circuit passes through the housing portion and is electrically connected to the second driving element.

3. A periscopic camera module according to claim 2, wherein said rigid circuit board comprises a first sub rigid circuit board and a second sub rigid circuit board, and said housing portion comprises:

the first driving piece and the light steering element are both positioned in the first shell, the first sub hard circuit board is attached to the side wall surface of the first shell, and the first sub flexible circuit board penetrates through the first shell and then is electrically connected with the first sub hard circuit board; and

the second driving piece and the optical lens are both positioned in the second shell, the second sub hard circuit board is attached to the side wall surface of the second shell, and the second sub flexible circuit board penetrates through the second shell and then is electrically connected with the second sub hard circuit board.

4. A periscopic camera module according to claim 3, wherein the first sub rigid wiring board and the second sub rigid wiring board are respectively attached to side wall surfaces of the first housing and the second housing facing the same side.

5. A periscopic camera module according to claim 3, wherein the first sub rigid circuit board and the second sub rigid circuit board are respectively provided with a first welding portion, the second circuit board assembly is provided with a second welding portion corresponding to each first welding portion, and each second welding portion is electrically connected to a corresponding one of the first welding portions.

6. The periscopic camera module of claim 5, wherein each of said first solder joints comprises a plurality of first pads distributed in an array, and each of said second solder joints comprises a second pad corresponding to each of said first pads.

7. A periscopic camera module according to claim 5, wherein the first welding portion and/or the second welding portion is provided with a receiving groove filled with a welding agent.

8. The periscopic camera module of claim 5, further comprising a photosensitive element positioned on an image side of the optical element, the second circuit board assembly further comprising:

the first part is attached to the hard circuit board, and two second welding parts are arranged on the first part; and

the second part is attached to the photosensitive assembly, and the second part is electrically connected with the first part and the photosensitive assembly.

9. The periscopic camera module of claim 8, further comprising a support plate,

the supporting plate is attached to one side, close to the optical component, of the second part, and a light through hole is formed in the supporting plate, so that light can pass through the light through hole and then reach the photosensitive component; or the supporting plate is attached to one side of the second part, which is far away from the optical component.

10. A periscopic camera module according to claim 1 and wherein said second circuit board assembly is a flexible circuit board assembly.

11. An electronic device, comprising:

a housing; and

a periscopic camera module according to any one of claims 1-10 and disposed within said housing.

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