CN114900604A

CN114900604A - Camera module, manufacturing method thereof and electronic equipment

Info

Publication number: CN114900604A
Application number: CN202210828715.0A
Authority: CN
Inventors: 陈浩; 张宪先
Original assignee: Honor Device Co Ltd
Current assignee: Honor Device Co Ltd
Priority date: 2022-07-15
Filing date: 2022-07-15
Publication date: 2022-08-12
Anticipated expiration: 2042-07-15
Also published as: CN114900604B

Abstract

The embodiment of the application provides a camera module, a manufacturing method of the camera module and electronic equipment. The camera module comprises a lens, a lens barrel, a first connecting glue and a second connecting glue. The lens includes the outer junction who locates the surface. The lens barrel includes a center hole. Along the axial of centre bore, the inner wall of centre bore is equipped with inner connecting portion. The outer connecting portion is connected to the inner connecting portion. A first accommodating part is formed between the area of the inner connecting part on the side facing the light inlet part of the lens and the lens. The first connecting glue is arranged between the outer connecting part and the inner connecting part. At least part of the outer connecting part and at least part of the inner connecting part are covered with the first connecting glue. The second connecting glue is arranged in the first accommodating part. The second connecting glue is connected with the lens and the lens cone. Along the axial of centre bore, the second is connected and is glued and be located the first side that connects gluey face portion of intaking. The second connecting glue covers the first connecting glue. The utility model provides a module of making a video recording can improve the connection stability of camera lens and lens cone, reduces the camera lens and takes place not hard up or the possibility that drops.

Description

Camera module, manufacturing method thereof and electronic equipment

Technical Field

The embodiment of the application relates to the technical field of terminals, in particular to a camera module, a manufacturing method of the camera module and electronic equipment.

Background

With the explosive growth of electronic devices such as smart phones or tablet computers, the functions of the electronic devices are more and more. As people expect that electronic devices can meet more functional requirements, more and more functions can be realized by the electronic devices themselves. For example, it is expected that the image capturing performance of electronic apparatuses is higher and higher to obtain high-resolution images. The camera module comprises a lens and a lens barrel which are connected with each other. The lens and the lens barrel are generally designed as a separate assembly structure. When the module of making a video recording was applied to electronic equipment, electronic equipment had the condition of falling impact or vibration impact in the use, consequently the camera lens receives to fall to strike or vibration to strike the back and have the risk that takes place not hard up or drop, causes the module of making a video recording effect to descend or completely become invalid.

Disclosure of Invention

The embodiment of the application provides a camera module, a manufacturing method thereof and electronic equipment, which can improve the connection stability and reliability of a lens and a lens barrel and reduce the possibility of looseness or falling of the lens.

The present application provides a camera module, which at least includes a lens, a lens barrel, a first connecting glue and a second connecting glue.

The lens includes an outer connecting portion disposed on an outer surface. The lens barrel includes a center hole. Along the axial of centre bore, the inner wall of centre bore is provided with inner connecting portion. The outer connecting portion is connected to the inner connecting portion. A first accommodating part is formed between the area of the inner connecting part on the side facing the light inlet part of the lens and the lens on the inner wall. The first connecting glue is arranged between the outer connecting part and the inner connecting part. At least part of the outer connecting part and at least part of the inner connecting part are covered with the first connecting glue. The second connecting glue is arranged in the first accommodating part. The second connecting glue is connected with the lens and the lens barrel. Along the axial direction of the central hole, the second connecting glue is positioned on one side of the first connecting glue facing the light inlet part. The second connecting glue covers the first connecting glue.

In the camera module of this application embodiment, camera lens and lens cone pass through outer joint part and inner joint part and link to each other. A first connecting glue is arranged between the outer connecting part and the inner connecting part, and a second connecting glue is arranged on one side of the first connecting glue. The first connecting glue and the second connecting glue can both fix the position of the lens, so that the connecting stability and reliability of the lens and the lens barrel are effectively improved, and the possibility that the lens is loosened or falls off is reduced. Because first connection is glued and is located between outer joint portion and the inner joint portion and the second is connected and is glued and cover first connection and glue, consequently first connection is glued and is glued the regional area little with external environment contact to first connection is glued and is difficult for appearing ageing in advance, reduces to glue because of first connection and leads to first connection to glue the possibility that crackle appears and take place to connect the inefficacy in advance, guarantees that first connection is glued and can be played the effect of rigidity to the lens for a long time.

In a possible implementation manner, the second connection glue is an annular structure surrounding the lens.

The second is connected and is glued one side that can glue first connection and cover first connection completely to make first connection glue not to advance the regional direct contact with external environment of light portion, further reduce the area of contact area of first connection glue and external environment. In addition, the second connecting glue can be used for connecting the lens and the lens barrel in the whole circumferential direction of the lens, so that the connecting area of the lens and the second connecting glue and the connecting area of the lens barrel and the second connecting glue can be increased, and the connecting strength of the lens and the lens barrel is further improved.

In a possible embodiment, the lens includes an annular receiving groove disposed on the outer surface, the annular receiving groove is disposed on a side of the outer connecting portion facing the light inlet portion, the first receiving portion is communicated with the annular receiving groove, and a portion of the second connecting glue is located in the annular receiving groove.

The second is connected and is glued the part that can be located annular holding tank through self and exert the axial confining force along the centre bore to the camera lens, is favorable to improving the shock resistance of camera lens, reduces the module of making a video recording when receiving impact force, and the camera lens takes place the possibility that removes along the axial of centre bore. In addition, annular holding tank can hold partly second and connect gluey to can be favorable to increasing the second and connect gluey quantity, reduce because of the second connect gluey quantity less and lead to the second to connect gluey bonding strength less possibility. Moreover, the part that lies in the annular holding tank on the second connection glue does not directly expose in external environment, is favorable to reducing the second and connects the regional area that glues exposure in external environment to be favorable to reducing the second and connect the possibility that glue easily takes place to age.

In a possible embodiment, the annular receiving groove is located within the central bore.

In a possible embodiment, a second accommodating portion is formed on the inner wall between a region of the inner connecting portion on a side facing away from the light entrance portion of the lens and the lens.

When first connection glue takes place the excessive condition, the second portion of holding can hold the first connection glue that overflows to make the first connection glue that overflows can be located between camera lens and the lens cone, and can not directly flow to the inner wall of centre bore and directly expose in the inner wall of lens cone, reduce the first connection glue that directly exposes in the inner wall and connect in the module of making a video recording with other structures that the lens cone is adjacent and lead to the possibility that unnecessary adhesive state appears in lens cone and other structures.

In a possible embodiment, a surface of the second connection glue facing the light inlet portion is lower than an end surface of the lens barrel facing the light inlet portion in the axial direction, so that the second connection glue is not easily bonded to other structural members outside the lens barrel.

In a possible embodiment, the central hole includes a first hole section and a second hole section, the diameter of the first hole section is smaller than the diameter of the second hole section, the first hole section and the second hole section are both located on a side of the inner connecting portion facing the light inlet portion, the second hole section is disposed on a side of the first hole section facing away from the inner connecting portion, and at least a portion of the second connecting glue is disposed between the first hole section and the lens.

In a possible embodiment, the lens includes a housing and a lens, the lens is disposed in the housing, the housing is an integrally formed structure, and the external connection portion is disposed in the housing.

In a possible embodiment, the outer connecting portion and the inner connecting portion are both threaded sections, so that the connecting structure of the outer connecting portion and the inner connecting portion can be simple, and the connection stability of the outer connecting portion and the inner connecting portion can be ensured.

The first connecting glue is filled in the thread clearance between the outer connecting part and the inner connecting part, so that on one hand, the connecting areas of the lens and the lens cone and the first connecting glue can be increased, the connecting strength is improved, and the lens cone have higher impact resistance; on the other hand, the first connecting glue can fill the thread play between the outer connecting part and the inner connecting part, so that the possibility that the lens is easy to rotate relative to the lens barrel to cause looseness due to overlarge thread play between the outer connecting part and the inner connecting part can be reduced.

In a possible embodiment, the camera module includes a voice coil motor, the voice coil motor includes a housing, and the lens barrel is disposed in the housing.

The second aspect of the present application provides a method for manufacturing a camera module, including:

providing a lens, wherein the lens comprises an external connecting part arranged on the outer surface;

a circle of first connecting glue is arranged in the area of the external connecting part, which is far away from the light inlet part of the lens, along the circumferential direction of the lens;

providing a lens barrel, wherein the lens barrel comprises a central hole, and an inner connecting part is arranged on the inner wall of the central hole along the axial direction of the central hole;

connecting the outer connecting part of the lens with the inner connecting part of the lens barrel, wherein the outer connecting part and the inner connecting part extrude the first connecting glue;

the outer connecting part is connected with the inner connecting part, a first accommodating part is formed between the area, on the inner wall, of the inner connecting part, facing to the light inlet part of the lens, and at least part of the outer connecting part and at least part of the inner connecting part are covered with the first connecting glue;

and second connecting glue is arranged in the first accommodating part, covers the first connecting glue and is connected with the lens and the lens barrel.

In one possible embodiment, after the second connection paste is set in the first receiving portion, the first connection paste and the second connection paste are simultaneously cured.

A third aspect of the present application provides a method for manufacturing a camera module, including:

providing a lens barrel, wherein the lens barrel comprises a central hole, an inner connecting part is arranged on the inner wall of the central hole along the axial direction of the central hole, and a circle of first connecting glue is arranged in the circumferential direction of the lens barrel in the area of the inner connecting part close to a light inlet part of the lens;

The fourth aspect of the present application provides an electronic device, which includes the camera module as described above. The camera module comprises a lens, a lens barrel, a first connecting glue and a second connecting glue. The lens includes an outer connecting portion disposed on an outer surface. The lens barrel includes a center hole. Along the axial of centre bore, the inner wall of centre bore is provided with inner connecting portion. The outer connecting portion is connected to the inner connecting portion. A first accommodating part is formed between the area of the inner connecting part on the side facing the light inlet part of the lens and the lens on the inner wall. The first connecting glue is arranged between the outer connecting part and the inner connecting part. At least part of the outer connecting part and at least part of the inner connecting part are covered with the first connecting glue. The second connecting glue is arranged in the first accommodating part. The second connecting glue is connected with the lens and the lens barrel. Along the axial direction of the central hole, the second connecting glue is positioned on one side of the first connecting glue facing the light inlet part. The second connecting glue covers the first connecting glue.

In a possible embodiment, a second accommodating portion is formed between a region of the inner wall on a side of the inner connecting portion facing away from the light inlet portion of the lens and the lens.

When first connection glue takes place the excessive condition, the second portion of holding can hold the first connection glue that overflows to make the first connection glue that overflows can be located between camera lens and the lens cone, and can directly not flow to the inner wall of centre bore and direct exposure in the inner wall of lens cone, reduce the first connection glue that direct exposure in the inner wall and connect in the module of making a video recording with other structures adjacent with the lens cone and lead to the possibility that lens cone and other structures appear unnecessary bonding state.

In a possible embodiment, the surface of the second connection glue facing the light inlet portion is lower than the end surface of the lens barrel facing the light inlet portion along the axial direction, so that the second connection glue is not easily bonded with other structural members outside the lens barrel.

In a possible embodiment, the outer connecting part and the inner connecting part are threaded sections, so that the connecting structure of the outer connecting part and the inner connecting part can be simple, and the connection stability of the outer connecting part and the inner connecting part can be ensured.

Drawings

Fig. 1 is a schematic structural diagram of an electronic device according to an embodiment of the present application;

fig. 2 is a schematic partial exploded view of an electronic device according to an embodiment of the present disclosure;

fig. 3 is a schematic partial structure diagram of a camera module according to an embodiment of the present disclosure;

fig. 4 is a schematic partial sectional view of a camera module according to an embodiment of the present application;

fig. 5 is a schematic partial cross-sectional structural view of a lens according to an embodiment of the present application;

fig. 6 is a schematic partial sectional view illustrating a lens barrel according to an embodiment of the present application;

FIG. 7 is an enlarged view taken at A in FIG. 4;

fig. 8 is a schematic partial sectional view of a camera module according to another embodiment of the present disclosure;

FIG. 9 is an enlarged view of B in FIG. 8;

fig. 10 is a schematic flowchart illustrating a manufacturing method of a camera module according to an embodiment of the present application;

fig. 11 is a schematic flow chart illustrating a manufacturing method of a camera module according to another embodiment of the present application.

Reference numerals are as follows:

10. an electronic device;

20. a display component;

30. a housing assembly;

40. a main board;

50. an electronic device;

60. a camera module; 60a, a first accommodating part; 60b, a second accommodating part;

61. a lens; 61a, a housing; 61b, a lens; 611. an outer connecting portion; 612. an annular accommodating groove;

62. a lens barrel; 621. a central bore; 621a, a first bore section; 621b, a second bore section; 622. an inner connection portion;

63. first connecting glue;

64. a second connecting glue;

x, axial direction.

Detailed Description

The electronic device in the embodiment of the present application may be referred to as a User Equipment (UE) or a terminal (terminal), for example, the electronic device may be a mobile terminal or a fixed terminal such as a tablet computer (PAD), a Personal Digital Assistant (PDA), a handheld device having a wireless communication function, a computing device, a vehicle-mounted device, a wearable device, a Virtual Reality (VR) terminal device, an Augmented Reality (AR) terminal device, a wireless terminal in industrial control (industrial control), a wireless terminal in self driving (self driving), a wireless terminal in remote medical (remote medical), a wireless terminal in smart grid (smart grid), a wireless terminal in transportation safety (transportation safety), a wireless terminal in smart city (smart city), a wireless terminal in smart home (smart home), and the like. The form of the terminal device in the embodiment of the present application is not particularly limited.

In the embodiment of the present application, fig. 1 schematically shows a structure of an electronic device 10 according to an embodiment. Referring to fig. 1, an electronic device 10 is illustrated as a handheld device having a wireless communication function. The wireless communication enabled handset may be, for example, a cell phone.

Fig. 2 schematically shows a partially exploded structure of the electronic device 10. Referring to fig. 2, electronic device 10 of the present embodiment may include a display assembly and a housing assembly 30. Display assembly 20 is coupled to housing assembly 30. The exposed display area on the display assembly 20 may be used to present image information to a user.

The electronic device 10 may include a motherboard 40 and electronics 50. The main Board 40 may be a Printed Circuit Board (PCB). The electronic device 50 is provided on the main board 40. The electronic device 50 is soldered to the main board 40 through a soldering process. The electronic device 50 may include, but is not limited to, a Central Processing Unit (CPU), a smart algorithm chip, or a Power Management IC (PMIC).

The electronic device 10 may include a camera module 60. The camera module 60 is used for taking a picture of the selected target and forming corresponding image information. The camera module 60 includes a light intake section. The external light can enter the camera module 60 through the light inlet portion. The camera module 60 may be electrically connected to the main board 40, for example, the camera module 60 may be electrically connected to the main board 40 through a Flexible Printed Circuit (FPC).

The case assembly 30 may include a battery cover. The battery cover has an avoidance hole for avoiding the camera module 60. The avoiding hole penetrates through two opposite surfaces of the battery cover. Along the axial direction of dodging the hole, the module of making a video recording 60 corresponds the hole setting of dodging. It should be noted that the axial direction of the avoidance hole may be the extending direction of the avoidance hole. Illustratively, the cross-sectional shape of the avoidance hole may be circular, elliptical or polygonal, which is not limited in the present application.

In the related art, the camera module 60 includes a lens and a lens barrel connected to each other. The lens and the lens cone are respectively and independently processed and manufactured. The finished lens and lens barrel need to be assembled. After the lens and the lens barrel are assembled, a connecting area is formed between the lens and the lens barrel. And glue is arranged in a gap between the lens and the lens barrel close to the light inlet part of the lens. The glue is arranged outside a connecting area formed by the lens and the lens barrel. The glue is positioned on one side of the connecting area facing the light inlet part of the lens. The glue that sets up in the clearance that camera lens and lens cone are close to camera lens light inlet portion can connect camera lens and lens cone to can fix the camera lens, improve the connection stability of camera lens and lens cone, be favorable to preventing that the camera lens from deviating from or the camera lens takes place to become flexible from the lens cone. However, the connecting areas of the lens, the lens barrel and the glue are small, and the glue is exposed in the external environment, so that the glue has the problem of cracking in advance due to falling impact or aging after long-term use, and loses the function of fixing the lens, so that the risk of loosening or falling of the lens still exists.

The electronic device 10 provided by the embodiment of the application comprises a camera module 60. The camera module 60 includes a lens, a lens barrel, a first connecting glue and a second connecting glue. The first connecting glue is arranged in a connecting area of the lens and the lens barrel, and the second connecting glue is arranged on one side of the first connecting glue. The first connecting glue and the second connecting glue are used for connecting the lens and the lens barrel, so that the position stability of the lens is improved, and the lens is not easy to loosen or fall off. The first connecting glue and the second connecting glue can form a connecting surface with a large area, and the connecting stability of the lens and the lens cone is improved. The first connecting glue is located in the lens and the lens barrel, and the second connecting glue covers one side of the first connecting glue, so that the area of the area, exposed to the external environment, of the first connecting glue is small, the first connecting glue is not prone to aging, and the possibility of cracks occurring in advance due to aging of the first connecting glue is reduced.

The following explains an implementation of the camera module 60 provided in the embodiment of the present application.

Fig. 3 schematically shows a partial structure of the camera module 60. Fig. 4 schematically shows a partial sectional structure of the camera module 60. Referring to fig. 3 and 4, the camera module 60 according to the embodiment of the present disclosure includes a lens 61. The lens 61 has a light incoming portion for receiving light. The camera module 60 further includes a lens barrel 62. The lens barrel 62 includes a center hole 621. The lens barrel 62 has opposite end faces in the axial direction of the center hole 621. The center hole 621 penetrates through opposite end surfaces of the lens barrel 62. In some examples, at least part of the lens 61 is located within the lens barrel 62. Illustratively, a portion of the lens 61 extends beyond the barrel 62, while the remainder of the lens 61 is located within the barrel 62.

Fig. 5 schematically shows a partial sectional structure of the lens 61. Referring to fig. 5, the lens 61 includes an outer connection portion 611 provided on an outer surface thereof. The outer connecting portion 611 of the lens 61 is used to connect with the lens barrel 62. Fig. 6 schematically shows a partially sectional structure of the lens barrel 62. Referring to fig. 6, an inner connecting portion 622 is provided on an inner wall of the center hole 621 in the axial direction X of the center hole 621. In some examples, the inner connection portion 622 is disposed in a middle area of the inner wall of the center hole 621 in the axial direction X of the center hole 621. The end surfaces of the lens barrel 62 are spaced apart from the inner connecting portion 622.

The outer connection portion 611 of the lens 61 is connected to the inner connection portion 622 of the lens barrel 62. When the lens 61 and the lens barrel 62 are assembled, the outer connecting portion 611 of the lens 61 may be gradually fitted into the center hole 621 of the lens barrel 62. Then, the outer connection portion 611 of the lens 61 is connected with the inner connection portion 622 of the lens barrel 62. Fig. 7 is an enlarged view of a portion a in fig. 4. Referring to fig. 4 and 7, a first receiving portion 60a may be formed on an inner wall of the center hole 621 between a region of the inner connecting portion 622 on a side facing the light entering portion and the lens 61. The first receiving portion 60a is located outside the connection region M formed by the outer connection portion 611 and the inner connection portion 622 in the axial direction X of the center hole 621.

Referring to fig. 7, the camera module 60 further includes a first connection paste 63. The first connection paste 63 is disposed between the outer connection portion 611 and the inner connection portion 622, so that the area of the first connection paste 63 exposed to the external environment is small. At least part of the outer connection part 611 and at least part of the inner connection part 622 are covered with the first connection paste 63. In some examples, the first connection glue 63 completely covers the outer connection portion 611 and the inner connection portion 622 along the axial direction X of the central hole 621. The lens 61 and the lens barrel 62 are respectively connected with the first connection paste 63, so that the first connection paste 63 is beneficial to improving the connection stability of the lens 61 and the lens barrel 62. When the lens 61 is subjected to the torque, the first connection glue 63 can apply a reaction force to the lens 61, so that the lens 61 is not easy to rotate relative to the lens barrel 62, and the possibility of separation of the outer connection part 611 and the inner connection part 622 caused by the rotation of the lens 61 is reduced.

Referring to fig. 4 and 7, the camera module 60 further includes a second connection paste 64. The second connection paste 64 is disposed in the first receiving portion 60 a. The second connection paste 64 connects the lens 61 and the lens barrel 62. The second connection paste 64 is located on a side of the first connection paste 63 facing the light intake portion in the axial direction X of the center hole 621. The second connection paste 64 is positioned at one side of the connection region M formed by the outer connection parts 611 and the inner connection parts 622. The second connection paste 64 covers the first connection paste 63, which is beneficial to further reducing the area of the region of the first connection paste 63 exposed to the external environment. In some examples, the first connection paste 63 and the second connection paste 64 are connected. When the lens 61 is subjected to the torque, the second connection glue 64 can also apply a reaction force to the lens 61, so that the lens 61 is not easy to rotate relative to the lens barrel 62. The first connection paste 63 and the second connection paste 64 can jointly adhere the lens 61 and the lens barrel 62 to effectively fix the position of the lens 61 and improve the connection stability of the lens 61 and the lens barrel 62.

In the camera module 60 according to the embodiment of the present application, the lens 61 and the lens barrel 62 are connected by the outer connecting portion 611 and the inner connecting portion 622. A first connection paste 63 is disposed between the outer connection part 611 and the inner connection part 622, and a second connection paste 64 is disposed at one side of the first connection paste 63. The first connecting glue 63 and the second connecting glue 64 can fix the position of the lens 61, so that the connecting stability and reliability of the lens 61 and the lens barrel 62 are effectively improved, and the possibility that the lens 61 is loosened or falls off is reduced. Because the first connecting glue 63 is located between the outer connecting part 611 and the inner connecting part 622 and the second connecting glue 64 covers the first connecting glue 63, the area of the contact area between the first connecting glue 63 and the external environment is small, so that the first connecting glue 63 is not easy to age in advance, the possibility that the first connecting glue 63 cracks and fails in connection due to the fact that the first connecting glue 63 ages in advance is reduced, and the first connecting glue 63 can be ensured to play a role in fixing the position of the lens 61 for a long time.

In some implementations, the second connection paste 64 is an annular structure surrounding the lens 61. The second connection glue 64 may completely cover the first connection glue 63 at one side of the first connection glue 63, so that an area of the first connection glue 63 facing the light inlet portion is not in direct contact with the external environment, and the area of the contact area of the first connection glue 63 and the external environment is further reduced. In addition, the second connection glue 64 can connect the lens 61 and the lens barrel 62 in the whole circumferential direction of the lens 61, which is beneficial to increasing the connection area of the lens 61 and the second connection glue 64 and the connection area of the lens barrel 62 and the second connection glue 64, and further improving the connection strength of the lens 61 and the lens barrel 62.

In some realizable ways, fig. 8 schematically shows a partial cross-sectional structure of the camera module 60. Fig. 9 is an enlarged view of fig. 8 at B. Referring to fig. 8 and 9, the lens 61 includes an annular receiving groove 612 provided at an outer surface. The annular receiving groove 612 is disposed on a side of the outer connection portion 611 facing the light inlet portion. The first receiving portion 60a communicates with the annular receiving groove 612. A portion of the second connection paste 64 is positioned in the annular receiving groove 612. The second connection glue 64 can apply a constraint force along the axial direction X of the central hole 621 to the lens 61 through the part located in the annular accommodation groove 612, so that the impact resistance of the lens 61 is improved, and the possibility that the lens 61 moves along the axial direction X of the central hole 621 when the camera module 60 is subjected to an impact force is reduced. Correspondingly, when the camera module 60 receives an impact force, the second connection glue 64 can be constrained by the lens 61, so that the second connection glue 64 is not easy to move along the axial direction X of the central hole 621. In addition, the annular receiving groove 612 can receive a part of the second connection glue 64, so that the amount of the second connection glue 64 can be increased, and the possibility that the bonding strength of the second connection glue 64 is smaller due to the smaller amount of the second connection glue 64 is reduced. Moreover, the portion of the second connection glue 64 located in the annular receiving groove 612 is not directly exposed to the external environment, which is beneficial to reducing the area of the region of the second connection glue 64 exposed to the external environment, thereby being beneficial to reducing the possibility that the second connection glue 64 is easy to age.

In some examples, the annular receiving groove 612 is located within the central bore 621 of the lens barrel 62. The opening of the annular receiving groove 612 faces the inner wall of the center hole 621. The annular receiving groove 612 is located lower than the end surface of the lens barrel 62 in the axial direction X of the center hole 621.

In some realizable manners, referring to fig. 9, a second accommodating portion 60b is formed on the inner wall of the central hole 621 between a region of the inner connecting portion 622 on the side facing away from the light inlet portion of the lens 61 and the lens 61. When the first connecting glue 63 overflows, the second accommodating portion 60b can accommodate the overflowing first connecting glue 63, so that the overflowing first connecting glue 63 can be positioned between the lens 61 and the lens barrel 62, and cannot directly flow to the inner wall of the central hole 621 and be directly exposed to the inner wall of the lens barrel 62, and the possibility that the lens barrel 62 and other structural components are in an unnecessary bonding state due to the fact that the first connecting glue 63 directly exposed to the inner wall is bonded to other structural components adjacent to the lens barrel 62 in the camera module 60 is reduced.

In some examples, the first and

second receptacles

60a and 60b may each be annular.

In some realizable manners, along the axial direction X of the central hole 621, the surface of the second connection glue 64 facing the light intake portion is lower than the end surface of the lens barrel 62 facing the light intake portion, so that the second connection glue 64 is not easy to be adhered to other structural members outside the lens barrel 62.

In some examples, along the axial direction X of the central hole 621, when the surface of the second connection glue 64 facing the light inlet portion is lower than the end surface of the lens barrel 62 facing the light inlet portion with the height of the lens barrel 62 unchanged, the amount of the second connection glue 64 is relatively reduced. In the embodiment of providing the annular receiving groove 612 on the lens 61, the amount of the second connection glue 64 can be increased, which is beneficial to reducing the possibility that the amount of the second connection glue 64 is less because the second connection glue 64 is lower than the end surface of the lens barrel 62.

In some examples, referring to fig. 9, the central bore 621 includes a first bore segment 621a and a second bore segment 621 b. The diameter of the first hole section 621a is smaller than that of the second hole section 621 b. The first and

second hole sections

621a and 621b are located on a side of the inner connection portion 622 facing the light intake portion. The first and

second hole sections

621a and 621b may form a first receiving portion 60a with the lens 61. The second hole section 621b is disposed on a side of the first hole section 621a facing away from the inner connection portion 622. At least a portion of the second connection paste 64 is disposed between the first hole section 621a and the lens 61.

In some realizable ways, as shown in fig. 8 and 9, a portion of the lens 61 is disposed beyond an end face of the barrel 62. The lens 61 includes a housing 61a and a lens 61 b. The housing 61a may have a cylindrical structure. The lens 61b is disposed in the housing 61 a. The housing 61a may be used to hold the lens 61b and may protect the lens 61 b. In some examples, the plurality of lenses 61b may be aligned along the axial direction X of the central hole 621. The housing 61a of the lens 61 is an integrally molded structure. The outer connection portion 611 of the lens 61 is provided to the housing 61 a. A part of the housing 61a is disposed beyond an end face of the lens barrel 62. The portion of the housing 61a provided with the outer connecting portion 611 is located within the center hole 621 of the lens barrel 62.

In some realizable manners, referring to fig. 9, the outer connection portion 611 and the inner connection portion 622 are both threaded sections, that is, both the outer connection portion 611 and the inner connection portion 622 are threaded, so that the connection structure of the outer connection portion 611 and the inner connection portion 622 can be simple, and the connection stability of the two can be ensured. The first connection glue 63 fills the thread gap between the outer connection part 611 and the inner connection part 622, so that on one hand, the connection area between the lens 61 and the lens barrel 62 and the first connection glue 63 can be increased, the connection strength is improved, and the lens 61 and the lens barrel 62 have higher impact resistance; on the other hand, the first connection paste 63 can fill the thread play between the outer connection part 611 and the inner connection part 622, so that the possibility that the lens 61 is easily rotated relative to the lens barrel 62 to be loosened due to the large thread play between the outer connection part 611 and the inner connection part 622 can be reduced.

In some examples, the outer connection portion 611 and the inner connection portion 622 are the same size along the axial direction X of the central hole 621. The first connection paste 63 is pressed by the outer connection parts 611 and the inner connection parts 622. The first connection paste 63 may completely cover the outer connection parts 611 and the inner connection parts 622.

In some examples, a circle of the first connection paste 63 is disposed along the circumferential direction of the lens 61 in a region of the outer connection portion 611 away from the light entrance portion of the lens 61, or a circle of the first connection paste 63 is disposed along the circumferential direction of the lens barrel 62 in a region of the inner connection portion 622 close to the light entrance portion of the lens 61. Then, as the outer connection part 611 is gradually screwed into the inner connection part 622, the outer connection part 611 and the inner connection part 622 may press the first connection paste 63 so that the first connection paste 63 may spread out, and thus the first connection paste 63 may cover the outer connection part 611 and the inner connection part 622.

In some implementations, the camera module 60 includes a Voice Coil Motor (VCM). The voice coil motor includes a housing. The lens barrel 62 is disposed within the housing. The voice coil motor can drive the lens 61 and the lens barrel 62 to move along the optical axis direction synchronously, so that focusing is realized to obtain a clear image. The optical axis direction may refer to a direction in which light enters the light entrance portion.

In some examples, the first connection glue 63 may include, but is not limited to, acrylic glue and a modified system thereof, epoxy glue and a modified system thereof, polyurethane glue, or a silicone glue system. The first connecting glue 63 is made of glue with high viscosity or high thixotropic index, so that in the process of connecting the outer connecting portion 611 and the inner connecting portion 622, the first connecting glue 63 is not easy to overflow due to too high fluidity, and the possibility of bonding the overflow glue with the lens 61 and other structural members except the lens barrel 62 is reduced. Illustratively, the camera module 60 may include a voice coil motor. The voice coil motor comprises a spring plate connected to the shell. The lens barrel 62 is connected with the elastic sheet. When the lens barrel 62 moves along the optical axis, the lens barrel 62 can drive the elastic sheet to actuate. Since the first connection glue 63 is not easy to flow, the first connection glue 63 is not easy to overflow to flow to the elastic sheet and adhere to the elastic sheet. The thixotropic index refers to a value represented by a ratio of viscosity measured at a low rotation speed and a high rotation speed under the same condition. The larger the thixotropic index is, the higher the thixotropy of the glue is, and conversely, the smaller the thixotropic index is, the lower the thixotropy of the glue is.

Illustratively, the viscosity of the first connecting glue 63 is greater than 20000 CPS. The value of the thixotropic index of the first connecting glue 63 is greater than 4.

In some realizable modes, after the outer connecting part 611 and the inner connecting part 622 are connected, the first connecting glue 63 is located between the lens 61 and the lens barrel 62. The first connection glue 63 may be cured by baking or natural curing. The natural curing method may include, but is not limited to, moisture, anaerobic curing, solvent evaporation, and the like.

In some examples, the material of the first connection paste 63 and the material of the second connection paste 64 are the same. After the second connection paste 64 is set in the first receiving portion 60a, the first connection paste 63 and the second connection paste 64 are simultaneously subjected to curing treatment. Illustratively, the viscosity of the first connecting glue 63 is the same as the viscosity of the second connecting glue 64. The value of the thixotropic index of the first connection paste 63 is the same as that of the second connection paste 64.

In other examples, the material of the first connection paste 63 and the material of the second connection paste 64 are different. The second connection paste 64 may be UV paste. After the curing process of the first connection paste 63 is completed, the second connection paste 64 is set in the first receiving portion 60 a. Then, the second connection paste 64 is irradiated with UV light to cure the second connection paste 64. Since the first connection paste 63 is cured in advance and then the second connection paste 64 is set and cured, the second connection paste 64 is not easily interfered with the first connection paste 63.

Fig. 10 schematically shows a flowchart of a method of manufacturing the camera module 60. Referring to fig. 10, an embodiment of the present application further provides a method for manufacturing a camera module 60, which includes:

step S10: providing a lens 61, the lens 61 including an outer connection portion 611 provided to an outer surface;

step S20: a circle of first connecting glue 63 is arranged on the outer connecting part 611 in a region far away from the light inlet part of the lens 61 along the circumferential direction of the lens 61;

step S30: providing a lens barrel 62, wherein the lens barrel 62 comprises a central hole 621, and an inner connecting part 622 is arranged on the inner wall of the central hole 621 along the axial direction X of the central hole 621;

step S40: connecting the outer connecting part 611 of the lens 61 with the inner connecting part 622 of the lens barrel 62, wherein the outer connecting part 611 and the inner connecting part 622 extrude the first connecting glue 63;

step S50: the outer connecting part 611 of the lens 61 is connected with the inner connecting part 622 of the lens barrel 62, a first accommodating part 60a is formed between the area of the inner connecting part 622 facing the light inlet part of the lens 61 and the lens 61 on the inner wall of the central hole 621, and at least part of the outer connecting part 611 and at least part of the inner connecting part 622 are covered by the first connecting glue 63;

step S60: a second connection paste 64 is provided in the first receiving portion 60a, the second connection paste 64 covers the first connection paste 63, and the second connection paste 64 connects the lens 61 and the lens barrel 62.

Fig. 11 schematically shows a flowchart of a method of manufacturing the camera module 60. Referring to fig. 11, the embodiment of the present application further provides another method for manufacturing a camera module 60, which includes:

step S20: providing a lens barrel 62, wherein the lens barrel 62 comprises a central hole 621, an inner connecting part 622 is arranged on the inner wall of the central hole 621 along the axial direction X of the central hole 621, and a circle of first connecting glue 63 is arranged on the inner connecting part 622 in the area close to the light inlet part of the lens 61 along the circumferential direction of the lens barrel 62;

step S30: connecting the outer connecting part 611 of the lens 61 with the inner connecting part 622 of the lens barrel 62, wherein the outer connecting part 611 and the inner connecting part 622 extrude the first connecting glue 63;

step S40: the outer connecting part 611 of the lens 61 is connected with the inner connecting part 622 of the lens barrel 62, a first accommodating part 60a is formed between the inner wall of the central hole 621 and the lens 61 in the area of the inner connecting part 622 facing the light inlet part of the lens 61, and at least part of the outer connecting part 611 and at least part of the inner connecting part 622 are covered by the first connecting glue 63;

step S50: a second connection paste 64 is provided in the first receiving portion 60a, the second connection paste 64 covers the first connection paste 63, and the second connection paste 64 connects the lens 61 and the lens barrel 62.

In some realizable manners, when the outer connection portion 611 and the inner connection portion 622 press the first connection paste 63, the first connection paste 63 may spread out in the axial direction X of the central hole 621.

In some realizable modes, after the outer connecting part 611 and the inner connecting part 622 of the lens barrel 62 are connected, the first connecting glue 63 between the outer connecting part 611 and the inner connecting part 622 is cured. Then, the second connection paste 64 is set in the first housing portion 60a, and the second connection paste 64 is subjected to curing treatment.

In some realizable manners, after the second connection paste 64 is disposed in the first receiving portion 60a, the first connection paste 63 and the second connection paste 64 are simultaneously subjected to a curing process. In some examples, the material of the first connection glue 63 is the same as the material of the second connection glue 64, so that the first connection glue 63 and the second connection glue 64 can be cured by the same curing process, which is beneficial to reducing the curing process steps and the difficulty of the curing process.

In the description of the embodiments of the present application, it should be noted that unless otherwise explicitly stated or limited, the terms "mounted," "connected," and "connected" are to be construed broadly and may include, for example, a fixed connection, an indirect connection through an intermediate medium, a connection between two elements, or an interaction between two elements. The specific meanings of the above terms in the embodiments of the present application can be understood by those of ordinary skill in the art according to specific situations.

Reference throughout this specification to apparatus or components, in embodiments or applications, means or components must be constructed and operated in a particular orientation and therefore should not be construed as limiting the present embodiments. In the description of the embodiments of the present application, "a plurality" means two or more unless specifically stated otherwise.

The terms "first," "second," "third," "fourth," and the like in the description and in the claims of the embodiments of the application and in the drawings described above, if any, are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the application described herein are capable of operation in sequences other than those illustrated or otherwise described herein.

Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

The term "plurality" herein means two or more. The term "and/or" herein is merely an association describing an associated object, meaning that three relationships may exist, e.g., a and/or B, may mean: a exists alone, A and B exist simultaneously, and B exists alone. In addition, the character "/" herein generally indicates that the former and latter related objects are in an "or" relationship; in the formula, the character "/" indicates that the preceding and following related objects are in a relationship of "division".

It is to be understood that the various numerical references referred to in the embodiments of the present application are merely for descriptive convenience and are not intended to limit the scope of the embodiments of the present application.

It should be understood that, in the embodiment of the present application, the sequence numbers of the above-mentioned processes do not mean the execution sequence, and the execution sequence of each process should be determined by its function and inherent logic, and should not constitute any limitation to the implementation process of the embodiment of the present application.

Claims

1. The utility model provides a module of making a video recording which characterized in that includes at least:

a lens including an outer connection part disposed on an outer surface;

the lens cone comprises a central hole, an inner connecting part is arranged on the inner wall of the central hole along the axial direction of the central hole, the outer connecting part is connected with the inner connecting part, and a first accommodating part is formed between the area, on the side, facing the light inlet part of the lens, of the inner connecting part on the inner wall and the lens;

the first connecting glue is arranged between the outer connecting part and the inner connecting part, and at least part of the outer connecting part and at least part of the inner connecting part cover the first connecting glue;

and the second connecting glue is arranged in the first accommodating part, is connected with the lens and the lens cone, and is positioned on one side, facing the light inlet part, of the first connecting glue in the axial direction, and covers the first connecting glue.

2. The camera module of claim 1, wherein the second connection glue is an annular structure surrounding the lens.

3. The camera module according to claim 1, wherein the lens includes an annular receiving groove formed in the outer surface, the annular receiving groove is formed on a side of the outer connecting portion facing the light inlet portion, the first receiving portion communicates with the annular receiving groove, and a portion of the second connecting paste is located in the annular receiving groove.

4. The camera module of claim 3, wherein the annular receiving groove is located within the central bore.

5. The camera module according to any one of claims 1 to 4, wherein a second accommodating portion is formed between a region of the inner wall on a side of the inner connecting portion facing away from the light entrance portion of the lens and the lens.

6. The camera module according to claim 1, wherein a surface of the second connection paste facing the light intake portion is lower than an end surface of the lens barrel facing the light intake portion in the axial direction.

7. The camera module of claim 6, wherein the central hole comprises a first hole section and a second hole section, the first hole section has a smaller diameter than the second hole section, the first hole section and the second hole section are both located on a side of the inner connecting portion facing the light inlet portion, the second hole section is disposed on a side of the first hole section facing away from the inner connecting portion, and at least a portion of the second connecting glue is disposed between the first hole section and the lens.

8. The camera module according to any one of claims 1 to 4, wherein the lens comprises a housing and a lens, the lens is disposed in the housing, the housing is of an integrally formed structure, and the external connection portion is disposed on the housing.

9. The camera module of any one of claims 1-4, wherein the outer connecting portion and the inner connecting portion are both threaded segments.

10. The camera module of any one of claims 1 to 4, wherein the camera module comprises a voice coil motor, the voice coil motor comprises a housing, and the lens barrel is disposed in the housing.

11. A method for manufacturing a camera module is characterized by comprising the following steps:

12. The manufacturing method according to claim 11, wherein after the second connection paste is set in the first housing portion, the first connection paste and the second connection paste are simultaneously subjected to curing treatment.

13. A method for manufacturing a camera module is characterized by comprising the following steps:

14. The manufacturing method according to claim 13, wherein after the second connection paste is set in the first housing portion, the first connection paste and the second connection paste are simultaneously subjected to curing treatment.

15. An electronic apparatus comprising the camera module according to any one of claims 1 to 10.