CN119052621A

CN119052621A - Periscope camera shooting module and connecting assembly thereof

Info

Publication number: CN119052621A
Application number: CN202411549202.1A
Authority: CN
Inventors: 刘冬冬; 吴泽波; 于秋爽; 李志�; 汪水清; 戴蓓蓓; 李婕婕; 俞周丽
Original assignee: Ningbo Sunny Opotech Co Ltd
Current assignee: Ningbo Sunny Opotech Co Ltd
Priority date: 2024-11-01
Filing date: 2024-11-01
Publication date: 2024-11-29
Anticipated expiration: 2044-11-01

Abstract

The present invention provides a periscope camera module and a connecting component thereof, wherein a substrate and a connector of a photosensitive component of the periscope camera module are connected via a specially designed connecting mechanism to avoid the influence of a flexible circuit board on the positioning of the connector and to ensure the reliability of the periscope camera module.

Description

Periscope camera shooting module and connecting assembly thereof

Technical Field

The invention relates to the technical field of optical imaging, in particular to a periscope camera module. The invention further relates to a connecting component for the periscope camera module.

Background

The camera module is an indispensable part of mobile electronic equipment, and with the further development of camera module technology, the requirements of users on the camera module become higher and higher, and the camera module is more refined and has pertinence. The development of camera products not only needs to meet the requirement of high performance, but also needs to meet the requirements of miniaturization and portability.

The periscope shooting module is a product for long-focus shooting, and a light path turning module (a reflecting mirror, a prism and the like) is additionally arranged in front of the lens module to turn a light beam vertically incident to the shooting module into a light beam emergent along the vertical direction, and the light beam passes through the lens module to reach a photosensitive chip, so that photoelectric conversion and imaging are carried out on the light beam at the photosensitive chip. Periscope camera module is folded the light path through light path turning module, can realize long focus shooting, has reduced the height of camera module again simultaneously, and camera module can be from vertical installation in electronic equipment's formation conversion to transversely installing to reduce the influence to electronic equipment thickness.

The periscope camera module is connected with an external circuit through a connector, for example, is connected with a circuit of the electronic equipment, so that data transmission between the periscope camera module and the electronic equipment is realized, and normal operation of the electronic equipment is ensured. Generally, the connector of the periscope camera module is connected with the substrate through the flexible circuit board, and the position of the connector is changed by changing the shape of the flexible circuit board, so that the periscope camera module is suitable for assembly or installation. However, the flexible circuit board generates elastic force opposite to the deformation direction after being stressed, which affects the positioning of the flexible circuit board and causes the difficulty in fixing the connector at a preset position or the position change of the connector. Even, bending of the flexible circuit board cannot be normally maintained, and reliability of the periscope camera module can be affected, so that problems occur in consistency and reliability of the periscope camera module after the periscope camera module is sold.

Disclosure of Invention

The invention has the main advantages that the periscope camera module is provided, and the substrate and the connector of the periscope camera module are connected through the specially designed connecting mechanism, so that the influence of the flexible circuit board on the positioning of the connector is avoided, and the reliability of the periscope camera module is ensured.

Another advantage of the present invention is to provide a periscope camera module, in which the substrate and the connector are connected by a specially designed connection mechanism, so as to enhance the connection strength between the substrate and the connector.

Other objects and features of the present invention will become apparent from the following detailed description.

According to one aspect of the present invention, a connection assembly for a periscope camera module of the present invention having at least one of the foregoing advantages includes:

a bracket;

A first connecting band;

A connecting plate;

a reinforcing plate;

A first adhesive member, and

A side adhesive, wherein the reinforcing plate is adapted to be fixed to an outer side surface of a substrate of a photosensitive assembly of the periscope camera module, the first adhesive is provided on an adhesive side of the reinforcing plate facing away from the substrate, both ends of the first connecting strap are respectively fixed to the substrate and the connecting plate of the photosensitive assembly, and both electrical connection ends of the first connecting strap are adapted to be electrically connected to a photosensitive chip of the photosensitive assembly and the connecting plate respectively, the bracket is provided on an outer periphery of the connecting plate so that the connecting plate is partially surrounded by the bracket, and the bracket forms an inner adhesive groove, wherein the first connecting strap is provided to be bendable so that the first connecting strap can be bent toward the reinforcing plate and the connecting plate can be fixed to the adhesive side of the reinforcing plate by the first adhesive, and the inner adhesive groove is provided on an inner side of the bracket and is provided at least partially toward the lateral edge of the connecting plate, wherein the side adhesive is provided in the inner adhesive groove.

According to an embodiment of the present invention, there is further provided another connection assembly for periscope camera modules, including:

a bracket;

A first connecting band;

A connecting plate;

a reinforcing plate;

A first adhesive member, and

A side adhesive, wherein the reinforcing plate is adapted to be fixed to an outer side of a substrate of a photosensitive assembly of the periscope camera module, the first adhesive is provided on an adhesive side of the reinforcing plate facing away from the substrate, one end of the first connecting strap is fixed to the substrate of the photosensitive assembly, and one electrical connecting end of the first connecting strap is electrically connected to a photosensitive chip of the photosensitive assembly, the bracket is provided on an outer periphery of the connecting plate such that the connecting plate is partially surrounded by the bracket, and the bracket forms an inner adhesive groove, wherein the first connecting strap forms a first bending portion and an adhesive portion, wherein the first bending portion is provided to be bendable, the connecting plate is provided to be fixed to the adhesive side of the adhesive portion, such that the first connecting strap can be bent toward the reinforcing plate by the first bending portion and the connecting plate can be fixed to the adhesive side of the reinforcing plate by the first adhesive portion, wherein the inner adhesive groove is provided on the bracket and the inner side of the bracket is provided to at least one of the side edges of the connecting plate.

The above and other advantages and features of the present invention are readily apparent from the following detailed description of the invention and the accompanying drawings.

Drawings

Fig. 1 is a schematic perspective view of a periscope camera module according to an embodiment of the invention.

Fig. 2 is another perspective view of a periscope camera module according to an embodiment of the invention.

Fig. 3 is an assembly schematic diagram of a periscope camera module according to an embodiment of the invention.

Fig. 4 is an enlarged partial schematic view of a periscope camera module according to an embodiment of the invention.

Fig. 5 is a schematic partial cross-sectional view of a periscope camera module according to an embodiment of the invention.

Fig. 6 is another partial cross-sectional schematic view of a periscope camera module according to an embodiment of the invention.

Fig. 7 is a schematic perspective view of a connection assembly of a periscope camera module according to an embodiment of the present invention, wherein a first connection strap of the connection assembly is shown in an extended state.

Fig. 8 is a perspective view of a connection assembly of a periscope camera module according to an embodiment of the present invention, wherein the first connection strap of the connection assembly shown in the figure is bent toward a reinforcing plate of the connection assembly.

Fig. 9 is an assembly schematic view of a connection assembly of a periscope camera module according to an embodiment of the present invention, wherein the connection assembly is shown connected with a photosensitive assembly and a connector of the periscope camera module of the present invention, respectively.

Fig. 10 is a perspective view of a holder of a periscope camera module according to an embodiment of the present invention.

Fig. 11 and 12 illustrate an alternative implementation of the connection assembly of the periscope camera module according to an embodiment of the present invention.

Fig. 13 and 14 show another alternative implementation of the connection assembly of the periscope camera module according to an embodiment of the present invention.

100, Periscope camera shooting module; 1, a refraction component; 11, an exit side; the lens assembly 21, the carrier 210, the mounting cavity 3, the photosensitive assembly 31, the photosensitive chip 32, the base 320, the light inlet opening 321, the first side face 322, the second side face 33, the optical filter 34, the substrate 341, the outer side face 35, the connector 36, the connecting assembly 3611, the first connecting belt 36110, the electric connecting end 3612, the second connecting belt 3621, the connecting plate 36211, the first side portion 36212, the second side portion 36213, the transverse edge 36214, the fixing side 36215, the connecting side 36216, the connecting end 363, the reinforcing plate 3630, the bonding space 3631, the bonding side 36131A, the attaching side 3641, the first bonding piece 3642, the second bonding piece 3643, the side bonding piece, the bracket 3651, the inner bonding groove 3652, the opening groove 3664, the groove opening 36A, the connecting assembly 361A, the first connecting belt 3611A, the first bending portion, the first end 110A, the electric connecting end portion 3662, the second bending end portion 3630, the first electric connecting end portion 3611, the electric connecting portion 501, the first end portion 502, the electric connecting portion 502, the electric end portion 502, the electric connecting portion 53, the electric connecting portion 502, the electric connecting the electric end portion, the electric connecting portion, the electric connecting end portion, the electric connecting portion between the electric connecting portions between the electric and the electric connecting portions.

Detailed Description

The following description is presented to enable one of ordinary skill in the art to practice the invention. Other obvious substitutions, modifications and changes will occur to one of ordinary skill in the art. Thus, the scope of the invention should not be limited by the exemplary embodiments described herein.

It will be understood by those of ordinary skill in the art that the terms "a" or "an" should be understood as "at least one" or "one or more" unless specifically indicated herein, i.e., in one embodiment, the number of elements may be one, and in other embodiments, the number of elements may be multiple.

It will be appreciated by those of ordinary skill in the art that unless specifically indicated herein, the terms "longitudinal," "transverse," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," etc., refer to an orientation or position based on that shown in the drawings, merely for convenience of description of the present invention, and do not denote or imply that the devices or elements involved must have a particular orientation or position. Accordingly, the above terms should not be construed as limiting the present invention.

Referring to fig. 1 to 10 of the drawings, a periscope image capturing module 100 according to an embodiment of the present invention will be illustrated in the following description, wherein the periscope image capturing module 100 according to the present invention includes a refractive module 1, a lens module 2, a photosensitive module 3, a lens driving module 4, a base 5, and a housing 6, wherein the refractive module 1 is used for turning a light beam incident along an incident direction into a light beam exiting along an exiting direction, the lens module 2 and the photosensitive module 3 are sequentially disposed on an exiting side 11 of the refractive module 1 along the exiting direction, the refractive module 1 is disposed in a first accommodating space 501 of the base 5, the lens module 2 is disposed in a second accommodating space 502 of the base 5, the housing 6 is covered on the base 5, and the lens driving module 4 is used for driving the lens module 2 to move along the same direction or the opposite direction of the exiting direction so as to achieve focusing and/or zooming. Therefore, after being turned by the refraction component 1, the light beam can pass through the lens component 2, focus and/or zoom is realized through the lens component 2, and then reaches the photosensitive chip of the photosensitive component 3, and photoelectric conversion is performed at the photosensitive chip, so that imaging is realized.

As shown in fig. 3 of the drawings, the lens assembly 2 of the periscopic camera module 100 according to the embodiment of the present invention comprises a carrier 21 and a lens group, wherein the carrier 21 forms a mounting cavity 210, and the lens group comprises a plurality of lenses, wherein the plurality of lenses of the lens group are sequentially arranged in the mounting cavity 210 of the carrier 21 along the optical axis direction of the lens group, and the lens driving assembly 4 is arranged to drive the carrier 21 of the lens assembly 2 to move and achieve focusing and/or zooming. Accordingly, the carrier 21 is implemented as an integrally formed component that integrates the functionality of the barrel and carrier of the existing lens assembly. The design mode of integrating the lens barrel and the carrier of the periscope camera module 100 to form the carrier 21 has the advantages that firstly, the lens barrel and the carrier are integrated to form the carrier 21, dispensing fixation is not needed between the lens barrel and the carrier, the carrier falling problem is avoided, and the shaking abnormal sound problem caused by carrier falling is thoroughly solved. Secondly, the lens barrel and the carrier are integrally formed into the carrier 21, so that glue is not required for fixing the lens barrel and the carrier, the installation procedure of a lens assembly is reduced, the reliability of the whole periscope shooting module is improved, the performance of the lens assembly is not affected, and finally, the lens barrel and the carrier are integrally formed into the carrier 21, so that the weight of the whole machine can be further reduced, and the power consumption of a motor of the lens driving assembly can be reduced. In some embodiments of the present invention, the periscopic camera module 100 of the present invention includes a plurality of lens assemblies 2, and different lens assemblies 2 are respectively driven to move and focus and/or zoom by the lens driving assembly 4.

As shown in fig. 3 of the drawings, the base 5 of the periscope camera module 100 according to the embodiment of the invention has a light outlet 503, wherein the imaging light from the refraction component 1 enters the photosensitive component 3 through the light outlet 503 of the base 5 after exiting through the lens component 2.

As shown in fig. 3 of the drawings, the periscope image capturing module 100 according to the embodiment of the present invention further includes a circuit assembly 53, wherein the circuit assembly 53 is disposed at two opposite sides 541 of the end 54 of the base 5, wherein the circuit assembly 53 is adapted to be electrically connected to the photosensitive assembly 3. Preferably, the circuit assembly 53 includes a plurality of electrical connectors 531.

As shown in fig. 3 to 9 of the drawings, the photosensitive assembly 3 of the periscope image capturing module 100 according to the embodiment of the invention includes a photosensitive chip 31, a base 32, a light filter 33 and a substrate 34, wherein the base 32 is fixed on the substrate 34, the photosensitive chip 31 is electrically connected with the substrate 34, the light filter 33 is disposed on a photosensitive path of the photosensitive chip 31, and the light filter 33 is disposed opposite to the photosensitive chip 31, wherein the base 32 has a light incident opening 320, and wherein the light filter 33 is disposed on the light incident opening 320 of the base 32. It will be appreciated that the light entrance opening 320 of the base 32 is at least partially located in the light sensing path of the light sensing chip 31, so that the imaging light provided by the refraction assembly 1 can be sensed and imaged by the light sensing chip 31 through the light entrance opening 320 of the base 32. As shown in fig. 3 to 9 of the drawings, a first side 321 of the base 32 of the photosensitive assembly 3 of the periscope camera module 100 according to the embodiment of the invention is fixedly connected to the base 5, and a second side 322 of the base 32 is fixedly connected to the substrate 34, so that the photosensitive assembly 3 is fixedly connected to the base 5. Further, the photosensitive chip 31 of the photosensitive assembly 3 is disposed toward the light outlet 503 of the base 5, so that the light outlet 503 of the base 5 is located in the photosensitive path of the photosensitive chip 31.

As shown in fig. 3 to 9 of the drawings, the periscope image capturing module 100 according to the embodiment of the present invention further includes a connector 35, wherein the connector 35 is electrically connected to the photosensitive element 3, so that the photosensitive element 3 can be electrically connected to an external circuit or an electronic device through the connector 35 and transmit data to the external electronic device via the external circuit or directly.

As shown in fig. 3 to 9 of the drawings, the connection ends of the electrical connectors 531 of the circuit assembly 53 of the periscope camera module 100 according to the embodiment of the invention are protruded on two opposite sides 541 of the end 54 of the base 5, and are disposed towards the substrate 34 of the photosensitive assembly 3, so as to be suitable for being soldered with the substrate 34, thereby achieving fixing and electrical connection or conduction. Further, the housing 6 of the periscope camera module 100 of the present invention covers the base 5 to cover the refraction assembly 1 and the lens assembly 2, but the housing 6 does not cover the photosensitive assembly 3, so that the photosensitive assembly 3 is exposed outside the housing 6. In other words, the refractive assembly 1 and the lens assembly 2 are covered by the housing 6, but the photosensitive assembly 3 is not covered by the housing 6.

As shown in fig. 3 to 9 of the drawings, the periscope camera module 100 according to the embodiment of the present invention further comprises a connection assembly 36, wherein the connection assembly 36 comprises a first connection strap 3611, a connection plate 3621, A reinforcing plate 363 and a first adhesive member 3641, wherein the reinforcing plate 363 is fixed to an outer side 341 of the base plate 34 of the photosensitive assembly 3, the first adhesive member 3641 is disposed at an adhesive side 3631 of the reinforcing plate 363 facing away from the base plate 34, both ends of the first connecting strap 3611 are fixed to the base plate 34 and the connecting plate 3621 of the photosensitive assembly 3, respectively, and two electrical connection ends 36110 of the first connecting strap 3611 are electrically connected to the photosensitive chip 31 and the connecting plate 3621 of the photosensitive assembly 3, respectively, the connecting plate 3621 is disposed to be adapted to be electrically connected to the connector 35, wherein the first connecting strap 3611 is disposed to be bendable so that the first connecting strap 3611 can be bent toward the reinforcing plate 363 and the connecting plate 3621 can be fixed to the adhesive side 3631 of the reinforcing plate 363 through the first adhesive member 3641. In other words, the connection member 36 is electrically connected to the photosensitive member 3 and the connector 35, respectively, and the fixing action of the connection plate 3621 and the reinforcing plate 363 of the connection member 36 can ensure that the first connection strap 3611 is kept bent, thereby preventing the force of the first connection strap 3611 due to deformation from affecting the first connection strap 3611 to be kept bent and the first connection strap 3611 from affecting the mounting of the holder 365 of the periscope camera module 100. Meanwhile, the fixing effect of the connecting plate 3621 and the reinforcing plate 363 keeps the first connecting belt 3611 to be bent, so that the consistency and the reliability of the periscope camera module 100 are further improved, and the problem that the bending of the first connecting belt 3611 is caused after the periscope camera module 100 is sold is avoided, and the installation and the manufacturing of the whole terminal product are affected. Further, the total thickness of the reinforcement plate 363, the connection plate 3621, and the first adhesive member 3641 is set so that the first connection strap 3611 can be kept bent (without breaking). It is understood that when the reinforcement plate 363 is fixed to the base plate 34 of the photosensitive assembly 3, the connection plate 3621 is fixed to the reinforcement plate 363 and the first connection strap 3611 is connected to the connection plate 3621 by the first adhesive member 3641, the total thickness of the reinforcement plate 363, the connection plate 3621 and the first adhesive member 3641 allows the first connection strap 3611 to have a greater bending curvature to avoid the first connection strap 3611 from being broken. Accordingly, the first connection strap 3611 is connected to a side of the connection strap 3621 facing away from the reinforcement plate 363 or to a side of the connection strap 3621 such that the thickness of the connection strap 3621 facilitates a greater bending arc of the first connection strap 3611. Preferably, the first connecting strap 3611 is a flexible circuit board and the connecting strap 3621 is a rigid board.

As shown in fig. 3 to 9 of the drawings, the connection assembly 36 of the periscope camera module 100 according to the embodiment of the present invention further includes a second connection strap 3612, wherein the second connection strap 3612 is disposed between the connection plate 3621 and the connector 35, and the second connection strap 3612 is electrically connected with the connection plate 3621 and the connector 35, respectively. It will be appreciated that the second connecting strap 3612 is bendable, so that the position of the connector 35 relative to the connecting strap 3621 can be changed within a predetermined range of variation, thereby allowing the position of the connector 35 relative to the connecting strap 3621 to be adjusted as needed to facilitate electrical connection with an external electronic device. More specifically, the first connecting strap 3611 is connected to a first side 36211 of the connecting strap 3621 and the second connecting strap 3612 is connected to a second side 36212 of the connecting strap 3621. Preferably, the first side 36211 and the second side 36212 of the connection plate 3621 are adjacent, and the extending directions of the first side 36211 and the second side 36212 intersect. Optionally, the first side 36211 and the second side 36212 of the connecting plate 3621 are opposite, and the extending directions of the first side 36211 and the second side 36212 are parallel. Preferably, the extending direction of the connection plate 3621 and the connector 35 is parallel.

As shown in fig. 3 to 9 of the drawings, the connection assembly 36 of the periscope camera module 100 according to the embodiment of the present invention further includes a second bonding member 3642, wherein the width of the connection plate 3621 is greater than the width of the reinforcement plate 363, so that the connection plate 3621 and the base plate 34 can form at least one bonding space 3630 when the connection plate 3621 is fixed to the reinforcement plate 363, wherein the bonding space 3630 is located between the connection plate 3621 and the base plate 34 and extends along a lateral edge 36213 of the connection plate 3621, wherein the at least one second bonding member 3642 is disposed at the at least one bonding space 3630 to bond the connection plate 3621 to the base plate 34.

As shown in fig. 3 to 10 of the drawings, the connection assembly 36 of the periscope camera module 100 according to the embodiment of the present invention further includes a bracket 365, wherein the bracket 365 is disposed at an outer circumference of the connection plate 3621 such that the connection plate 3621 is partially surrounded by the bracket 365, thereby holding the connection plate 3621 in place and the first connection strap 3611 is held to be bent. As shown in fig. 3 to 10 of the drawings, further, the holder 365 is mounted on the outer circumferences of the housing 6 and the photosensitive member 3 to form a structure surrounding the periscopic camera module 100.

As shown in fig. 3 to 10 of the drawings, the connection assembly 36 of the periscope camera module 100 according to the embodiment of the present invention further includes at least one side adhesive member 3643, the bracket 365 forms an inner adhesive groove 3651, wherein the inner adhesive groove 3651 is disposed inside the bracket 365 and is disposed at least partially toward the lateral edge 36213 of the connection plate 3621, wherein the side adhesive member 3643 is disposed in the inner adhesive groove 3651 and the side adhesive member 3643 is adhered to the second adhesive member 3642. It will be appreciated that the first adhesive 3641, the second adhesive 3642, and the side adhesive 3643 are disposed on either side of the web 3621, respectively, to form a three-dimensional adhesive network to increase the strength of the connection between the web 3621 and the substrate 34, to ensure that the web 3621 is secured to the substrate 34 and to maintain the first strap 3611 in a flexed condition. In addition, the bracket 365 itself has a compressive force on the connecting plate 3621, together with the side adhesive 3643, increasing the strength of the connection between the connecting plate 3621 and the base plate 34. Preferably, the first adhesive 3641, the second adhesive 3642 and the side adhesive 3643 are all formed by glue or adhesive.

Notably, the second adhesive 3642 is disposed in the at least one adhesive space 3630, the side adhesive 3643 is disposed in the inner adhesive slot 3651, and the second adhesive 3642 and the side adhesive 3643 are formed of UV curable adhesive, thermosetting adhesive, or UV thermosetting adhesive. The curing of the UV curable adhesive, the thermosetting adhesive or the UV thermosetting adhesive can be performed in a non-contact curing manner, and is not affected by the setting manner of the bonding space 3630 or the inner adhesive groove 3651.

As shown in fig. 3 to 10 of the drawings, the bracket 365 of the connection assembly 36 of the periscope camera module 100 according to the embodiment of the present invention further forms an open slot 3652 to facilitate bending and adjusting the position of the connector 35 of the second connection strap 3612. The open slot 3652 is configured to extend longitudinally from an edge of the bracket 365 to form a notch in the edge of the bracket 365 so that the second strap 3612 can be bent to change the position of the connector 35. Preferably, the open slot 3652 and the inner glue slot 3651 are respectively located at edges of two longitudinal sides of the bracket 365, and the open slot 3652 and the inner glue slot 3651 extend in the same direction and are distributed along the bracket 365 in a transverse direction. In addition, after the bracket 365 is mounted, dispensing glue into the glue slot 3651 helps to ensure that the bracket 365 and the side glue 3643 form a joint that increases the strength of the connection between the connection plate 3621 and the substrate 34. More preferably, the side adhesive 3643 is formed after the second adhesive 3642 is disposed in the adhesive space 3630 and the bracket 365 is mounted.

FIGS. 11 and 12 of the drawings illustrate an alternative implementation of the link assembly 36A of the periscope camera module 100 according to embodiments of the present invention, wherein the link assembly 36A of the alternative implementation includes a first link belt 361A, a link plate 3621, A reinforcing plate 363 and a first adhesive member 3641, wherein the reinforcing plate 363 is fixed to an outer side 341 of the substrate 34 of the photosensitive assembly 3, the first adhesive member 3641 is provided on an adhesive side 3631 of the reinforcing plate 363 facing away from the substrate 34, one end of the first connecting belt 361A is fixed to the substrate 34 of the photosensitive assembly 3, and two electric connecting ends 36110A of the first connecting belt 361A are electrically connected to the photosensitive chip 31 and the connector 35 of the photosensitive assembly 3, respectively, wherein the first connecting belt 361A forms a first bending portion 3611A and an adhesive portion 3613A, wherein the first bending portion 3611A is provided to be bendable, and the connecting plate 3621 is provided to be fixed to an adhesive side 36131A of the adhesive portion 3613A, thereby enabling the first connecting belt 3621 to be bent toward the reinforcing plate 3611A and enabling the first adhesive member 363 to be fixed to the adhesive side 3641 by the first bending portion 3611A. It is understood that when the first bending portion 3611A is bent toward the reinforcing plate 363, the attaching side 36131A of the attaching portion 3613A faces the reinforcing plate 363. in other words, the first connecting belt 361A of the connecting member 36A is electrically connected to the photosensitive member 3 and the connector 35, respectively, and the fixing action of the connecting plate 3621 and the reinforcing plate 363 of the connecting member 36A can ensure that the first bending portion 3611A of the first connecting belt 361A is kept bent, thereby avoiding that the force of the first connecting belt 361A due to deformation affects the first bending portion 3611A of the first connecting belt 361A and the first connecting belt 361A affects the mounting of the bracket 365 of the periscope camera module 100. Meanwhile, the fixing effect of the connecting plate 3621 and the reinforcing plate 363 keeps the first bending part 3611A of the first connecting belt 361A to bend, so that the consistency and reliability of the periscope camera module 100 are further improved, and the problem that after the periscope camera module 100 is sold, the bending of the first bending part 3611A of the first connecting belt 361A is problematic is avoided, and the installation and manufacturing of the whole terminal product are affected. Further, the total thickness of the reinforcement plate 363, the connection plate 3621, and the first adhesive member 3641 is set so that the first bending portion 3611A of the first connection strap 361A can be kept bent without breaking. It is understood that when the reinforcing plate 363 is fixed to the base plate 34 of the photosensitive assembly 3, the connection plate 3621 is fixed to the reinforcing plate 363 and the attaching portion 3613A of the first connecting belt 361A by the first adhesive member 3641 is connected to the connection plate 3621, the total thickness of the reinforcing plate 363, the connection plate 3621 and the first adhesive member 3641 allows the first bending portion 3611A of the first connecting belt 361A to have a larger bending radian to avoid the first bending portion 3611A of the first connecting belt 361A from being broken. accordingly, the first connecting band 361A is connected to a side of the connecting plate 3621 facing away from the reinforcing plate 363 or to a side of the connecting plate 3621 such that the thickness of the connecting plate 3621 is such that the first bending portion 3611A of the first connecting band 361A forms a larger bending arc.

As shown in fig. 11 and 12 of the drawings, the first connecting strip 361A of the connecting component 36A of the periscope imaging module 100 according to the embodiment of the invention further forms a second bending portion 3612A, wherein the second bending portion 3612A extends outwards from the attaching portion 3613A, and the connector 35 is electrically connected with the second bending portion 3612A. Preferably, the extending direction of the connecting plate 3621 and the connector 35 is perpendicular. Alternatively, the connection plate 3621 and the connector 35 may preferably extend in parallel. It is appreciated that the second bending portion 3612A of the first connecting belt 361A may be bent, so that the position of the connector 35 relative to the connecting plate 3621 may be changed within a preset range of variation, thereby allowing the position of the connector 35 relative to the connecting plate 3621 to be adjusted according to actual needs so as to be electrically connected to an external electronic device. It is understood that the first connecting band 361A forms the first bending portion 3611A and the attaching portion 3613A, the first connecting band 361A is electrically connected to the photosensitive member 3 and the connector 35, respectively, and the connecting plate 3621 is fixed to the attaching portion 3613A, allowing the connecting plate 3621 to be fixed to the attaching portion 3613A in advance, which is advantageous in reducing the difficulty of assembling the connecting member 36A.

As shown in fig. 11 and 12 of the drawings, the connection assembly 36A of the periscope camera module 100 according to the embodiment of the present invention further includes a second bonding member 3642, wherein the width of the connection plate 3621 is greater than the width of the reinforcement plate 363, so that the connection plate 3621 and the base plate 34 can form at least one bonding space 3630 when the connection plate 3621 is fixed to the reinforcement plate 363, wherein the bonding space 3630 is located between the connection plate 3621 and the base plate 34 and extends along a lateral edge 36213 of the connection plate 3621, wherein the at least one second bonding member 3642 is disposed at the at least one bonding space 3630 to bond the connection plate 3621 to the base plate 34.

As shown in fig. 10 to 12 of the drawings, the connection assembly 36A of the periscope camera module 100 according to the embodiment of the present invention further includes a bracket 365, wherein the bracket 365 is disposed at an outer circumference of the connection plate 3621 such that the connection plate 3621 is partially surrounded by the bracket 365, thereby allowing the connection plate 3621 to be held in place and the first bending portion 3611A of the first connection strap 361A to be kept bent.

As shown in fig. 10 to 12 of the drawings, the connection assembly 36A of the periscope camera module 100 according to the embodiment of the present invention further includes at least one side adhesive 3643, the bracket 365 forms an inner adhesive groove 3651, wherein the inner adhesive groove 3651 is disposed inside the bracket 365 and is disposed at least partially toward the lateral edge 36213 of the connection plate 3621, wherein the side adhesive 3643 is disposed in the inner adhesive groove 3651 and the side adhesive 3643 is adhered to the second adhesive 3642. It will be appreciated that the first adhesive 3641, the second adhesive 3642 and the side adhesive 3643 are disposed on opposite sides of the connecting plate 3621 to form a three-dimensional adhesive network to increase the strength of the connection between the connecting plate 3621 and the base plate 34, thereby ensuring that the connecting plate 3621 is secured to the base plate 34 and the first bending portion 3611A holding the first connecting belt 361A is bent. In addition, the bracket 365 itself has a compressive force on the connecting plate 3621, together with the side adhesive 3643, increasing the strength of the connection between the connecting plate 3621 and the base plate 34. Preferably, the first adhesive 3641, the second adhesive 3642 and the side adhesive 3643 are all formed by glue or adhesive.

Figures 13 and 14 of the drawings illustrate an alternative implementation of the link assembly 36 of the periscope camera module 100 according to embodiments of the present invention, wherein the link assembly 36B of the alternative implementation includes a first link strap 3611B, a link plate 3621, A reinforcing plate 363 and a first adhesive member 3641, wherein the reinforcing plate 363 is fixed to an outer side 341 of the base plate 34 of the photosensitive assembly 3, the first adhesive member 3641 is provided on an adhesive side 3631 of the reinforcing plate 363 facing away from the base plate 34, both ends of the first connecting belt 3611B are fixed to the base plate 34 and the connecting plate 3621 of the photosensitive assembly 3, respectively, and both electrical connection ends 36110B of the first connecting belt 3611B are electrically connected to the photosensitive chip 31 and the connecting plate 3621 of the photosensitive assembly 3, respectively, the connecting plate 3621 is provided to be adapted to be electrically connected to the connector 35, wherein the first connecting belt 3611B is provided to be bendable so that the first connecting belt 3611B can be bent toward the reinforcing plate 363 and the connecting plate 3621 can be fixed to the adhesive side 3631 of the reinforcing plate 363 through the first adhesive member 3641. In other words, the connection assembly 36B is electrically connected to the photosensitive assembly 3 and the connector 35, respectively, and the fixing action of the connection plate 3621 and the reinforcing plate 363 of the connection assembly 36B can ensure that the first connection strap 3611B is kept bent, thereby avoiding that the force of the first connection strap 3611B due to deformation affects the first connection strap 3611B to keep bending and the first connection strap 3611B affects the mounting of the bracket of the periscope camera module 100. Meanwhile, the fixing effect of the connecting plate 3621 and the reinforcing plate 363 keeps the first connecting belt 3611B to be bent, so that the consistency and reliability of the periscope camera module 100 are further improved, and the problem that the bending of the first connecting belt 3611B is caused after the periscope camera module 100 is sold is avoided, and the installation and manufacturing of the whole terminal product are affected. Further, the total thickness of the reinforcement plate 363, the connection plate 3621, and the first adhesive member 3641 is set so that the first connection strap 3611B can be kept bent without breaking. It is understood that when the reinforcement plate 363 is fixed to the base plate 34 of the photosensitive assembly 3, the connection plate 3621 is fixed to the reinforcement plate 363 and the first connection strap 3611B is connected to the connection plate 3621 by the first adhesive member 3641, the total thickness of the reinforcement plate 363, the connection plate 3621 and the first adhesive member 3641 allows the first connection strap 3611B to have a larger bending curvature to avoid the first connection strap 3611B from being broken. accordingly, the first connecting strap 3611B is connected to a side of the connecting plate 3621 facing away from the reinforcing plate 363 or to a side of the connecting plate 3621, so that the thickness of the connecting plate 3621 is such that the first connecting strap 3611B forms a larger bending arc.

As shown in fig. 13 and 14 of the drawings, the connection plate 3621 of the periscope camera module 100 according to the embodiment of the present invention forms a fixing side 36214 and a connection side 36215 opposite to the fixing side 36214, wherein the two electrical connection ends 36110B of the first connection strap 3611B are electrically connected with the photosensitive chip 31 and the connection plate 3621 of the photosensitive assembly 3, respectively, wherein the first connection strap 3611B is configured to be bendable, and the connector 35 is connected to the connection side 36215 of the connection plate 3621, so that the first connection strap 3611B can be bent toward the reinforcement plate 363 and the fixing side 36214 of the connection plate 3621 can be fixed to the reinforcement plate 363 by a first adhesive member 3641. In other words, the connection member 36B is electrically connected to the photosensitive member 3 and the connector 35, respectively, and the fixing action of the connection plate 3621 and the reinforcing plate 363 of the connection member 36B can ensure that the first connection strap 3611B remains bent. It will be appreciated that the connector 35 is attached to the attachment side 36215 opposite the fixed side 36214 such that the connector 35 is exposed and readily electrically connected to an external circuit or electronic device. In addition, since the connection plate 3621 and the reinforcement plate 363 are fixed together, the fixing action of the connection plate 3621 and the reinforcement plate 363 ensures that the bending of the first connection strap 3611B is maintained, thereby preventing the force of the first connection strap 3611B due to deformation from affecting the first connection strap 3611B to maintain the bending, thereby affecting the mounting of the bracket of the periscope camera module 100. Meanwhile, the fixing effect of the connecting plate 3621 and the reinforcing plate 363 keeps the first connecting belt 3611B to be bent, so that the consistency and reliability of the periscope camera module 100 are further improved, and the problem that the bending of the first connecting belt 3611B is caused after the periscope camera module 100 is sold is avoided, and the installation and manufacturing of the whole terminal product are affected. Preferably, both the first connecting strap 3611B and the connector 35 are electrically connected to the connecting side 36215 of the connecting strap 3621, thereby electrically connecting the first connecting strap 3611B and the connector 35 through the connecting strap 3621 and making the bending arc of the first connecting strap 3611B larger and more easily bendable. Further, the total thickness of the reinforcement plate 363, the connection plate 3621, and the first adhesive member 3641 is set so that the first connection strap 3611B can be kept bent without breaking. In other words, when the reinforcement plate 363 is fixed to the base plate 34 of the photosensitive assembly 3, the fixing side 36214 of the connection plate 3621 is fixed to the reinforcement plate 363 and the first connection strap 3611B by the first adhesive member 3641 to be electrically connected to the connection side 36215 of the connection plate 3621, the total thickness of the reinforcement plate 363, the connection plate 3621 and the first adhesive member 3641 allows the first connection strap 3611B to have a larger bending curvature to avoid the first connection strap 3611B from being broken. preferably, the first connecting strap 3611B and the connector 35 are both connected to the same connecting end 36216 of the connecting plate 3621, so that the connecting plate 3621 can drive the first connecting strap 3611B to bend toward the substrate 34 of the photosensitive assembly 3 and locate the connector 35 outside the periscope camera module 100, so that the connector 35 is easy to electrically connect to an external circuit or an electronic device, and the path is shortest when the connector 35 is connected to the external circuit or the electronic device.

As shown in fig. 13 and 14 of the drawings, the connection assembly 36B of the periscope camera module 100 according to the embodiment of the present invention further includes a second connection strap, wherein the second connection strap is disposed between the connection plate 3621 and the connector 35, and the second connection strap is electrically connected with the connection plate 3621 and the connector 35, respectively. It will be appreciated that the second connecting strap may be bent so that the position of the connector 35 relative to the connecting plate 3621 may be varied within a predetermined range of variation, thereby allowing the position of the connector 35 relative to the connecting plate 3621 to be adjusted as desired to facilitate electrical connection with external electronic devices. More specifically, the second connection strap is connected to the connection side 36215 of the connection plate 3621. Preferably, the extending directions of the connecting plate 3621 and the connector 35 are perpendicular or parallel.

As shown in fig. 13 and 14 of the drawings, the connection assembly 36B of the periscope camera module 100 according to the embodiment of the present invention further includes a second bonding member 3642, wherein the width of the connection plate 3621 is greater than the width of the reinforcement plate 363, so that the connection plate 3621 and the base plate 34 can form at least one bonding space 3630 when the connection plate 3621 is fixed to the reinforcement plate 363, wherein the bonding space 3630 is located between the connection plate 3621 and the base plate 34 and extends along a lateral edge 36213 of the connection plate 3621, wherein the at least one second bonding member 3642 is disposed at the at least one bonding space 3630 to bond the connection plate 3621 to the base plate 34.

As shown in fig. 10, 13 and 14 of the drawings, the connection assembly 36B of the periscope camera module 100 according to the embodiment of the present invention further includes a bracket 365, wherein the bracket 365 is disposed at an outer circumference of the connection plate 3621 such that the connection plate 3621 is partially surrounded by the bracket 365, thereby holding the connection plate 3621 in place and the first connection strap 3611B is held to be bent.

As shown in fig. 10, 13 and 14 of the drawings, the connecting assembly 36B of the periscope camera module 100 according to the embodiment of the invention further comprises at least one side adhesive 3643, the bracket 365 forms an inner adhesive groove 3651, wherein the inner adhesive groove 3651 is disposed inside the bracket 365 and is disposed at least partially towards the lateral edge 36213 of the connecting plate 3621, wherein the side adhesive 3643 is disposed in the inner adhesive groove 3651 and the side adhesive 3643 is adhered to the second adhesive 3642. It will be appreciated that the first adhesive 3641, the second adhesive 3642, and the side adhesive 3643 are disposed on either side of the web 3621, respectively, to form a three-dimensional adhesive network to increase the strength of the connection between the web 3621 and the substrate 34, to ensure that the web 3621 is secured to the substrate 34 and to maintain the first strap 3611B in a flexed condition. In addition, the bracket 365 itself has a compressive force on the connecting plate 3621, together with the side adhesive 3643, increasing the strength of the connection between the connecting plate 3621 and the base plate 34. Preferably, the first adhesive 3641, the second adhesive 3642 and the side adhesive 3643 are all formed by glue or adhesive.

It will be appreciated by persons skilled in the art that the embodiments described above and shown in the drawings are only for the purpose of illustrating the invention and are not to be construed as limiting the invention. All equivalent implementations, modifications and improvements within the spirit of the present invention are intended to be included within the scope of the present invention.

Claims

1. A connection assembly for a periscope camera module, comprising:

Bracket;

a first connecting belt;

Connecting plate;

Reinforcement plate;

a first adhesive member; and

Side adhesive, wherein the reinforcing plate is suitable for being fixed on the outer side of the substrate of the photosensitive component of the periscope camera module, the first adhesive is arranged on the bonding side of the reinforcing plate facing away from the substrate, the two ends of the first connecting belt are respectively fixed to the substrate and the connecting plate of the photosensitive component, and the two electrical connection ends of the first connecting belt are suitable for being electrically connected to the photosensitive chip of the photosensitive component and the connecting plate respectively, the bracket is arranged on the outer periphery of the connecting plate so that the connecting plate is partially surrounded by the bracket, and the bracket forms an inner glue groove, wherein the first connecting belt is arranged to be bendable, so that the first connecting belt can be bent toward the reinforcing plate and the connecting plate can be fixed to the bonding side of the reinforcing plate through the first adhesive, the inner glue groove is arranged on the inner side of the bracket, and is arranged at least partially toward the lateral edge of the connecting plate, wherein the side adhesive is arranged in the inner glue groove.

2 . The connection assembly according to claim 1 , wherein a total thickness of the reinforcing plate, the connecting plate and the first adhesive member is set so that the first connecting strip can be kept bent.

3. The connection assembly according to claim 1 is characterized in that it further includes a second adhesive member, wherein the width of the connecting plate is greater than the width of the reinforcing plate, so that when the connecting plate is fixed to the reinforcing plate, the connecting plate and the substrate can form at least one bonding space, wherein the bonding space is located between the connecting plate and the substrate and extends along the lateral edge of the connecting plate, wherein the at least one second adhesive member is arranged in the at least one bonding space to bond the connecting plate to the substrate, and the side adhesive member is bonded to the second adhesive member.

4. The connection assembly according to any one of claims 1 to 3, characterized in that the first connection belt is a flexible circuit board, and the connection board is a rigid board.

5 . The connection assembly according to claim 3 , wherein the second adhesive member and the side adhesive member are formed of UV curing adhesive or thermosetting adhesive.

6. The connection assembly according to any one of claims 1-3, characterized in that it further comprises a second connection belt, wherein the second connection belt is electrically connected to the connection plate.

7. The connection assembly according to claim 6, characterized in that the bracket further forms an open slot suitable for the second connection belt to bend to adjust the position of the connector.

8 . The connection assembly according to claim 7 , wherein the opening groove and the inner rubber groove extend in the same direction.

9. The connection assembly according to claim 6 is characterized in that the first connection belt is connected to the first side of the connection plate, and the second connection belt is connected to the second side of the connection plate, wherein the first side and the second side of the connection plate are adjacent, and the extension directions of the first side and the second side intersect.

10. The connection assembly according to claim 6 is characterized in that the first connection belt is connected to the first side of the connection plate, and the second connection belt is connected to the second side of the connection plate, wherein the first side and the second side of the connection plate are opposite to each other, and the extension directions of the first side and the second side are parallel.

11. A connection assembly according to any one of claims 1-3, characterized in that the connection plate forms a fixed side and a connection side opposite to the fixed side, wherein the fixed side of the connection plate can be fixed to the reinforcing plate through the first adhesive, and the first connecting strip and the connector are both electrically connected to the connection side of the connection plate.

12 . The connection assembly according to claim 11 , wherein the connecting plate and the connector extend in directions perpendicular or parallel to each other.

13. The connection assembly according to claim 11, wherein the first connection strip and the connector are both connected to the same connection end of the connection plate.

14. A connection assembly for a periscope camera module, comprising:

Bracket;

a first connecting belt;

Connecting plate;

Reinforcement plate;

a first adhesive member; and

A side adhesive, wherein the reinforcing plate is suitable for being fixed on the outer side of the substrate of the photosensitive component of the periscope camera module, the first adhesive is arranged on the adhesive side of the reinforcing plate facing away from the substrate, one end of the first connecting belt is fixed to the substrate of the photosensitive component, and an electrical connection end of the first connecting belt is electrically connected to the photosensitive chip of the photosensitive component, the bracket is arranged on the outer periphery of the connecting plate so that the connecting plate is partially surrounded by the bracket, and the bracket forms an inner glue groove, wherein the first connecting belt forms a first bending portion and an attachment portion, wherein the first bending portion is arranged to be bendable, and the connecting plate is arranged and fixed on the attachment side of the attachment portion, so that the first connecting belt can be bent toward the reinforcing plate through the first bending portion and the connecting plate can be fixed to the bonding side of the reinforcing plate through the first adhesive, wherein the inner glue groove is arranged on the inner side of the bracket and is arranged at least partially toward the lateral edge of the connecting plate, wherein the side adhesive is arranged in the inner glue groove.

15 . The connection assembly according to claim 14 , wherein a total thickness of the reinforcing plate, the connecting plate and the first adhesive member is set so that the first bent portion of the first connecting strip can be kept bent.

16. The connection assembly according to claim 14 is characterized in that it further includes a second adhesive member, wherein the width of the connecting plate is greater than the width of the reinforcing plate, so that when the connecting plate is fixed to the reinforcing plate, the connecting plate and the substrate can form at least one bonding space, wherein the bonding space is located between the connecting plate and the substrate and extends along the lateral edge of the connecting plate, wherein the at least one second adhesive member is arranged in the at least one bonding space to bond the connecting plate to the substrate, and the side adhesive member is bonded to the second adhesive member.

17. The connection assembly according to claim 14, characterized in that the bracket further forms an open groove, and the extension direction of the open groove is the same as that of the inner rubber groove.

18. The connection assembly according to any one of claims 14 to 17, characterized in that the first connection belt is a flexible circuit board, and the connection board is a rigid board.

19. The connection assembly according to any one of claims 14 to 17, characterized in that the second adhesive member and the side adhesive member are formed of UV curing adhesive or thermosetting adhesive.

20. The connection assembly according to any one of claims 14-17, characterized in that the first connection belt further forms a second bending portion, wherein the second bending portion extends outward from the attachment portion, and the second bending portion is electrically connected to the connector.

21. A periscope camera module, characterized by comprising:

Connectors;

Lens assembly;

Refraction components;

Photosensitive components;

Lens drive assembly;

Base;

Housing; and

The connecting assembly according to any one of claims 1 to 20, wherein the refractive assembly is used to transform a light beam incident along an incident direction into a light beam emitted along an exiting direction, the lens assembly and the photosensitive assembly are sequentially arranged on the exit side of the refractive assembly along the exiting direction, the refractive assembly is arranged in a first receiving space of the base, the lens assembly is arranged in a second receiving space of the base, the outer shell cover is arranged on the base, the lens driving assembly is used to drive the lens assembly to move in the same direction or reverse direction of the exiting direction to achieve focusing and/or zooming, and the connecting assembly is electrically connected to the photosensitive assembly and the connector, respectively.