KR101587257B1 - Camera module and method of manufacturing method thereof - Google Patents

Abstract

One embodiment of the present invention is a lens barrel having a lens mounted thereon and a sealing member on an outer surface thereof; An upper housing having an opening formed in the lens barrel such that an upper portion of the lens barrel is exposed to the outside and a first screw thread formed in the lower portion; A circuit board mounted with an image sensor for converting an image received through the lens into an electrical signal; A camera module including the circuit board and a lower housing having a second screw thread to be screwed with the first screw thread, and a method of manufacturing the camera module.

Description

[0001] CAMERA MODULE AND METHOD OF MANUFACTURING METHOD THEREOF [0002]

The present invention relates to a camera module and a method of manufacturing the same, and more particularly, to a camera module and a method of manufacturing the camera module.

A camera is an apparatus for photographing an image of a subject. The camera has an analog system for projecting an image captured through a lens onto a film and recording the captured image on an image sensor.

A digital camera can use an image sensor of a charge coupled device (CCD) or a complementary metal-oxide-semiconductor (CMOS) Card or the like, or may be outputted as an image through a display device.

Such a digital camera can be used in various fields such as a mobile terminal, a personal digital assistant (PDA), a tablet PC and a car camera.

For example, when a digital camera is used as a rear camera installed in the rear of a vehicle, the rear camera captures an image of a rear side of the vehicle and simultaneously transmits a captured image to a display device provided in the vehicle.

Therefore, the driver can easily grasp the rear situation of the vehicle through the image displayed on the display device. That is, the rear camera photographs the rear blind spot of the vehicle that can not be seen through a side mirror and a room mirror provided in the vehicle, so that the user can conveniently grasp the rear blind spot of the vehicle.

Such a rear camera eliminates the inconvenience that a driver or a person other than the driver departs from the rear of the vehicle when the driver parks the vehicle, and prevents the occurrence of a contact accident due to the non-recognition of the blind spot .

Waterproofing is very important in the interior of the rear camera due to the incorporation of image sensors and other electronic components. This is because, if the waterproof state of the camera is poor, the camera may malfunction or fail.

1 is a sectional exemplary view of a conventional camera module. The camera module 10 includes a lens barrel 1, a holder 2, a circuit board 4, an upper housing 8 and a lower housing 9 .

First, the lens barrel 1, the holder 2 and the image sensor 3 are manufactured as an integral lens assembly 5 by a bonding agent such as bonding.

Next, the lens assembly 5 is inserted into the upper housing 8. At this time, the upper end of the lens barrel 1 is inserted through the insertion hole 7 formed in the upper housing 8 so as to be exposed to the outside.

The lower housing 9 is moved to the upper housing 8 in a state in which the lens assembly 5 is pressed so that the O-ring member 6 provided in the lens barrel 1 is brought into close contact with the inner surface of the upper housing 8, Lt; / RTI >

At this time, a rubber gasket (G) is provided between the upper housing (8) and the lower housing (9). That is, the rubber gasket G prevents the fluid from penetrating into the camera module 10 through the joint portion between the upper housing 8 and the lower housing 9 from the outside.

The rubber gasket G can be joined to the upper housing 8 and the lower housing 9 by thermal bonding, laser welding, ultrasonic welding or the like using a bonding agent such as epoxy.

However, the method of fusing the upper housing 8 and the lower housing 9 by applying heat to the rubber gasket G has a complicated assembling process.

In addition, when the upper housing 8 and the lower housing 9 are separated from each other for maintenance and replacement of various electronic devices provided in the camera module 10, the rubber gasket G can not be reused, There is a problem that the camera module 10 can not be reassembled after maintenance of the camera module 10.

Technical Solution In order to solve the above problems, a technical object of the present invention is to provide a camera module which is easy to assemble and excellent in waterproofing and a method of manufacturing the camera module.

According to an aspect of the present invention, there is provided a lens barrel including a lens and a sealing member on an outer surface thereof. An upper housing having an opening formed in the lens barrel such that an upper portion of the lens barrel is exposed to the outside and a first screw thread formed in the lower portion; A circuit board mounted with an image sensor for converting an image received through the lens into an electrical signal; The camera module further includes a lower housing having a second threaded portion that receives the circuit board and is screwed to the first threaded portion.

In one embodiment of the present invention, the upper housing includes: a first frame coupled with the lens barrel; A second frame connected to an upper end of the first frame to form an outer shape and spaced apart from the first frame to form an insertion space; And an upper extension frame extending downwardly from the second frame, wherein the first screw thread is formed.

In an embodiment of the present invention, a first packing member may be further provided on the upper extension frame, and the first packing member may be tightly coupled to the second screw thread.

According to an embodiment of the present invention, the lower housing includes a body frame forming a housing space for accommodating the circuit board, and a lower extension frame extending upward from the body frame, wherein the second screw thread is formed .

According to an embodiment of the present invention, a second packing member may be further provided at a lower portion of the lower extension frame, and the second packing member may be tightly coupled to the first screw thread.

According to an embodiment of the present invention, the lower extension frame may include a first extension frame extending to an upper portion of the body frame and a coupling space portion spaced apart from the first extension frame, A third screw thread is formed on the first extension frame and a fourth screw thread is formed on the second extension frame to be screwed on the upper housing.

According to an embodiment of the present invention, the fixing member provided on the circuit board may be seated and supported in a position fixing groove formed on the inner surface of the second frame.

In one embodiment of the present invention, the first frame includes a first connection portion forming the opening hole and formed with a threaded portion; A second connection portion provided at a lower portion of the first connection portion, the second connection portion closely contacting the sealing member; A third connection part forming a step at a lower portion of the second connection part and having a lower end coupled to the circuit board; The inclined portion may connect the second connection portion and the third connection portion.

An embodiment of the present invention includes: a lens barrel and an upper housing; The lower end of the first frame of the upper housing is coupled to the circuit board; The upper extension frame of the upper housing and the lower extension frame of the lower housing are screwed together.

In one embodiment of the present invention, in the step of joining the upper housing and the lower housing, the first screw thread formed on the upper housing is tightly coupled to the second packing member provided on the lower housing, The second thread may be tightly coupled with the first packing member of the upper housing.

Effects of the camera module and the manufacturing method thereof according to the present invention will be described as follows.

First, according to the present invention, since the upper housing and the lower housing are screwed together, it is easy to assemble the camera module. In addition, the upper housing and the lower housing are screwed together, thereby preventing the infiltration of fluid into the accommodation space of the camera module.

Secondly, according to the present invention, the upper extension frame and the lower extension frame are provided with respective packing members so that airtightness can be maintained.

That is, the first packing member provided on the upper extension frame is tightly coupled to the second screw thread formed on the lower extension frame, and the second packing member provided on the lower extension frame is tightly coupled with the first screw thread formed on the upper extension frame, It is possible to prevent the fluid from penetrating into the joint portion between the housing and the lower housing.

Third, according to the present invention, the lower extension frame includes the first extension frame and the second extension frame, so that double waterproofing can be performed.

That is, the first extension frame and the upper extension frame are primarily waterproofed by screwing, and the inner surface of the second extension frame and the upper extension frame are subjected to secondary waterproofing through screwing .

Fourthly, according to the present invention, a position fixing groove is formed on the inner surface of the second frame, and the circuit board can be coupled to the upper housing in a horizontal state.

That is, when the circuit board is coupled to the upper housing, the fixing member is seated and supported in the position fixing groove to prevent the circuit board from tilting.

Fifth, according to the present invention, since the first connecting portion is screwed to the first lens fixing portion and the second connecting portion is tightly coupled to the sealing member, the waterproofing treatment of the camera module can be performed in a double manner.

Sixth, according to the present invention, an inclined portion is provided between the second connecting portion and the third connecting portion, so that the closing member can be easily moved to the second connecting portion along the inclined portion, thereby achieving close contact. Thus, the upper housing and the lens barrel can be easily assembled.

It should be understood that the effects of the present invention are not limited to the above effects and include all effects that can be deduced from the detailed description of the present invention or the configuration of the invention described in the claims.

1 is a cross-sectional exemplary view of a conventional camera module.
2 is a perspective view of a camera module according to an embodiment of the present invention.
3 is an exploded perspective view of a camera module according to an embodiment of the present invention.
4 is a cross-sectional view taken along line II of Fig.
FIG. 5 is an assembling flowchart of a camera module according to an embodiment of the present invention.
6 is an assembled view of an upper housing and a lower housing according to another embodiment of the present invention.
7 is a cross-sectional view of a camera module according to another embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described with reference to the accompanying drawings. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. In order to clearly illustrate the present invention, parts not related to the description are omitted, and similar parts are denoted by like reference characters throughout the specification.

Throughout the specification, when a part is referred to as being "connected" to another part, it includes not only "directly connected" but also "indirectly connected" . Also, when an element is referred to as "comprising ", it means that it can include other elements, not excluding other elements unless specifically stated otherwise.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a perspective view of a camera module according to an embodiment of the present invention, FIG. 3 is an exploded perspective view of a camera module according to an embodiment of the present invention, and FIG. 4 is a sectional view taken along line I-I of FIG.

2 to 4, the camera module 1000 may include a lens barrel 100, an upper housing 200, a circuit board 300, and a lower housing 400. The lens barrel 100 is equipped with a lens, and the outer surface thereof is provided with a sealing member 130.

The lens barrel 100 may include a first lens fixing part 110 and a second lens fixing part 120. That is, the first lens fixing part 110 supports and fixes the lens positioned above the lens barrel 100, and the second lens fixing part 120 supports the lens positioned below the lens barrel 100 Respectively.

The first lens fixing part 110 and the second lens fixing part 120 are connected and the second lens fixing part 120 is positioned below the first lens fixing part 110. [

A screw thread is formed on the outer surface of the first lens fixing part 110 and a screw thread corresponding to the screw thread formed on the first lens fixing part 110 is formed in the opening hole 201 of the upper housing 200, The lens fixing part 110 and the upper housing 200 may be screwed together.

Accordingly, the first lens fixing part 110 and the upper housing 200, which are screwed together, are configured to primarily block the infiltration of fluid (liquid, gas) from the outside into the interior of the upper housing 200.

A screw thread is formed on the outer surface of the second lens fixing part 120 and a thread is formed on a binding member (not shown) provided in the upper housing 200 to bond with the second lens fixing part 120 Needless to say, the member (not shown) may be screwed.

The structure in which the first lens fixing part 110 and the upper housing 200 are screwed together will be described as an example.

A sealing fixation groove 111 is formed in the lower portion of the first lens securing portion 110 along the periphery of the first lens securing portion 110. The sealing member 130 is inserted into the sealing fixation recess 111, do.

When the sealing member 130 is detachable from the sealing fixing groove 111 and the sealing member 130 is broken or aged, the user can selectively replace the sealing member 130. At this time, the sealing member 130 may be integrally coupled to the sealing fixing groove 111.

Here, the sealing member 130 may be made of an elastic material, and an O-ring, which is a rubber for packing, may be used.

The sealing member 130 is tightly coupled to the second connection portion 212 through interference fit to block the fluid from moving from the outside to the inside of the upper housing 200. That is, the sealing member 130 secondarily blocks gas or liquid from penetrating into the inside of the upper housing 200 through the gap where the lens barrel 100 and the upper housing 200 are coupled.

As described above, the camera module 1000 is firstly blocked by the threaded structure of the first lens fixing part 110 and the upper housing 200 with respect to the fluid penetrating from the outside to the accommodation space part S side , And the second interlocking member 130 is provided at the lower portion of the first lens fixing portion 110.

The camera module 1000 prevents external fluids from penetrating into the interior of the upper housing 200 through the primary and the secondary so that various devices provided in the interior of the upper housing 200 are infiltrated by the infiltrated fluid Thereby preventing a malfunction from occurring.

The second lens fixing part 120 is further provided with a non-slip part 121. The non-slip part 121 prevents slipping of the second lens fixing part 120 during rotation and smooth rotation of the second lens fixing part 120. [

The upper housing 200 has an opening 201 for exposing an upper portion of the lens barrel 100 to the outside and forms a receiving space S for accommodating the lens barrel 100.

The upper housing 200 is coupled with the lower housing 400 to protect various devices provided in the housing space S from the outside.

Specifically, the upper housing 200 may include a first frame 210, a second frame 220, and an upper extension frame 240.

An upper portion of the first frame 210 is formed with an opening hole 201 to be screwed to the lens barrel 100 and the lower portion thereof is coupled to the circuit board 300. The circuit board 300 may be attached to the first frame 210 after bonding agent (epoxy or the like) is applied to the lower end surface of the first frame 210. Alternatively, (300) may be fastened to the first frame (210).

The image sensor 310 mounted on the circuit board 300 is an image sensing element that converts an optical image of a subject into an electrical signal and outputs the electrical signal. The image sensor 310 is a charge coupled device (CCD) or a complementary metal oxide semiconductor -Oxide-Semiconductor (CMOS)).

An IR filter unit (not shown) may be further mounted on the upper portion of the image sensor 310. The infrared (IR) filter unit blocks infrared rays incident through the lens, .

The image of the subject detected by the image sensor 310 may be stored in a storage medium such as a memory card or output through a display device (not shown). That is, the connector 330 connected to the lower part of the image sensor 310 by the electric wire 340 is connected to an external device (e.g., a display device provided in the vehicle interior) As shown in FIG.

The second frame 220 forms the outer shape of the upper housing 200 and is connected to the upper end of the first frame 210. At this time, the second frame 220 is separated from the first frame 210 so that the insertion space 221 is formed between the first frame 210 and the second frame 220.

Here, a position fixing groove 222 may be formed on the inner surface of the second frame 220 to support the fixing member 320 coupled to the circuit board 300.

In other words, one end of the fixing member 320 is inserted into the insertion space 221 and is seated in the position fixing groove 222 formed in the second frame 220 to be coupled to the upper housing 200, (300).

The position fixing grooves 222 are formed on the same horizontal line along the inner circumference of the second frame 220 to prevent the circuit board 300 from being coupled to the second frame 220 in an inclined state. Therefore, the optical axis adjustment between the lens and the image sensor 310 can be accurately performed.

Here, the fixing member 320 may be a plate spring, and the fixing member 320 having an elastic force may be stably supported and fixed to the second frame 220.

The upper extension frame 240 extends downward from the second frame 220 and is screwed to the lower extension frame 420 of the lower housing 400. That is, a first screw thread 241 is formed on the upper extension frame 240 and a second screw thread 421 is formed on the lower extension frame 420 so that the upper extension frame 240 and the lower extension frame 420 are screwed Bonding can be achieved.

At this time, the first screw thread 241 and the second screw thread 421 have a corresponding shape.

The upper housing 200 may further include a separation preventing part 230 and the separation preventing part 230 may be provided at an upper end of the upper housing 200.

An airtight member (not shown) may further be provided on the upper surface of the seating portion 112 on which the lower surface of the departure preventing portion 230 or the departure preventing portion 230 is seated. Therefore, the hermetic member is tightly coupled between the separation preventing part 230 and the seating part 112 to block the infiltration of the fluid from the outside into the accommodation space S side.

The first frame 210 may include a first connection part 211, a second connection part 212, and a third connection part 213. The first connection part 211 is located on the upper part of the first frame 210 and forms an opening hole 201 and is screwed to the first lens fixing part 110.

The second connection portion 212 is provided below the first connection portion 211, and the sealing member 130 is closely contacted.

At this time, the height h2 of the second connection portion 212 is set not to be twice or more as high as the height h1 of the closure member 130.

Therefore, when the lens barrel 100 is coupled to the upper housing 200, it is possible to minimize the interval in which the sealing member 130 is forcedly engaged with and coupled with the second connection portion 212. This is because when the manufacturer joins the lens barrel 100 and the upper housing 200, the sealing member 130 is constrained to the second connection portion 212 and minimizes the movement of the lens barrel 100 and the upper housing 200, (200) is easily connected.

The third connection portion 213 is provided at a lower portion of the second connection portion 212 and is formed to form a step from the second connection portion 212. That is, the inner diameter of the third connection part 213 is larger than the inner diameter of the second connection part 212, so that the lens barrel 100 can move freely in the inner space of the third connection part 213. Accordingly, the first lens fixing part 110 can be easily engaged with the opening hole 201 in a state of being inserted into the accommodation space S.

At this time, an inclined portion 214 is provided between the second connection portion 212 and the third connection portion 213 so that when the lens barrel 100 and the upper housing 200 are coupled, the sealing member 130 is inclined 214 to the second connection portion 212 smoothly.

In other words, when the lens barrel 100 is coupled to the upper housing 200, the inclined portion 214 gradually increases the urging force of the closure member 130 and the closure member 130 to the second connection portion 212 . Accordingly, the sealing member 130 is smoothly moved to the second connection portion 212, and the second connection portion 212 can be interference fit.

Meanwhile, the lower housing 400 forms a receiving space S together with the upper housing 200. The lower housing 400 is coupled to the upper housing 200 with the circuit board 300 therein to protect various devices provided in the housing space S from the outside.

The lower housing 400 may be integrally coupled to the upper housing 200 through a screw connection.

Specifically, the lower housing 400 may include a body frame 410 forming a receiving space S and a lower extension frame 420 extending upward from the body frame 410.

A second screw thread 421 is formed on the lower extension frame 420 and a first screw thread 241 is formed on the upper extension frame 240 so that the upper extension frame 240 and the lower extension frame 420 are screw- Can be achieved. That is, the upper housing 200 and the lower housing 400 can be screwed together.

Therefore, compared to the conventional method of applying heat to the rubber gasket G to fuse the upper housing and the lower housing, the assembly is simple and the manufacturing time of the camera module 1000 can be shortened.

Also, when repairing and replacing various electronic devices provided inside the camera module 1000, the upper housing 200 and the lower housing 400 can be easily separated.

The upper extension frame 240 and the lower extension frame 420 have a threaded structure so that even if a separate gasket (not shown) is interposed between the upper housing 200 and the lower housing 400, Processing is possible. That is, as the upper extension frame 240 and the lower extension frame 420 are screwed together, it is possible to prevent the fluid from penetrating into the accommodation space S from the outside.

The upper extension frame 240 and the lower extension frame 420 are screwed to each other so that the upper and lower housings 200 and 400 are connected to each other in a straight line. Therefore, it is possible to manufacture the camera module 1000 having a simple shape.

In other words, the lower end of the upper extension frame 240 abuts against the upper end of the body frame 410 and is engaged so as not to generate a gap between the upper extension frame 240 and the body frame 410.

Accordingly, it is possible to fundamentally prevent the external fluid from being guided to the gap between the upper extension frame 240 and the lower extension frame 420.

The upper extension frame 240 is provided on the outer side of the lower extension frame 420 and surrounds the lower extension frame 420 and is screwed to the lower extension frame 420.

The lower extension frame 420 may be provided on the outer side of the upper extension frame 240 so as to surround the upper extension frame 240 and may be screwed to the upper extension frame 240.

Meanwhile, a first packing member 245 may be further provided on the upper extension frame 240.

The first packing member 245 is provided along the inner circumference of the upper extension frame 240. At this time, the first packing member 245 is provided on the upper portion of the upper extension frame 240. When the first thread 241 and the second thread 421 are coupled to each other, only the end of the second thread 421 is pressed against the first packing member 245 and tightly coupled.

This is to minimize the interval in which the second thread 421 is forcedly engaged with the first packing member 245 so that the upper housing 200 and the lower housing 400 can be screwed together easily.

The first packing member 245 is inserted and fixed in the first packing seating groove 242 formed in the upper extension frame 240 and the first packing member 245 is detachably attached to the first packing seating groove 242 . Accordingly, when the first packing member 245 is damaged or replaced, it is needless to say that the user can easily remove and replace or repair the first packing member 245 from the first packing seating groove 242.

The first packing member 245 may be further provided with a first fixing protrusion 246 so that the first packing member 245 can be stably coupled to the first packing receiving groove 242. [ At this time, the first packing member 245 is made of a rubber material and can be tightly coupled to the second screw thread 421.

Here, the first packing member 245 may be bonded to the first packing receiving groove 242 and may be integrally coupled with the first packing receiving groove 242, instead of being detached from the first packing receiving groove 242.

A second packing member 425 may be further provided on the lower portion of the lower extension frame 420 to correspond to the first packing member 245 and the second packing member 425 may be provided on the lower extension frame 420 May be provided along the outer periphery.

The second packing member 425 is provided at a lower portion of the lower extension frame 420 so that only the end portion of the first screw thread 241 when the first screw thread 241 and the second screw thread 421 are coupled, And can be tightly fitted and tightly coupled to the member 425. This is to facilitate the screwing of the upper housing 200 and the lower housing 400.

The second packing member 425 is detachably coupled to the second packing seating groove 422 formed in the lower extension frame 420. The second packing member 425 has the same configuration as the first packing member 245, and a detailed description thereof will be omitted.

The first packing member 245 and the second packing member 425 are provided on the upper side surface of the upper extension frame 240 and the lower side surface of the lower extension frame 420, The end portions of the upper housing 200 and the lower housing 400 may be engaged with each other.

That is, the outer surface of the upper housing 200 and the outer surface of the lower housing 400 may be connected in a straight line. Therefore, it is possible to manufacture the camera module 1000 having a simple shape.

For example, the first packing member 245 is provided on the lower end surface of the upper extension frame 240, and the second packing member 425 is provided on the upper surface of the lower extension frame 420, The upper housing 200 and the lower housing 400 are not completely in contact with each other due to the thickness of the first packing member 245 or the second packing member 425 and the minute gap . Therefore, there is a problem that the camera module 1000 is inferior in appearance.

As described above, the camera module 1000 is simple to assemble through the screw connection of the upper housing 200 and the lower housing 400, is simple, and can perform excellent waterproof processing.

FIG. 5 is an assembling flowchart of a camera module according to an embodiment of the present invention. 5, the assembly process of the camera module 1000 will be described. First, the lens barrel 100 is inserted into the accommodation space S of the upper housing 200.

The first lens fixing part 110 of the lens barrel 100 inserted into the lower part of the upper housing 200 is screwed into the opening hole 201. In step S100,

At this time, the manufacturer rotates the second lens fixing part 120 while holding the non-slip part 121 formed on the second lens fixing part 120 to rotate the first lens fixing part 110 and the opening hole 201, Can be screwed together.

The inclined portion 214 is formed at the connection portion between the second connection portion 212 and the third connection portion 213 so that when the lens barrel 100 and the upper housing 200 are coupled, 214 to be smoothly guided to the second connection portion 212, thereby making interference fit with the second connection portion 212. That is, the sealing member 130 is tightly coupled to the second connection portion 212.

The lens barrel 100 is screwed to the first connection part 211 and the sealing member 130 is coupled to the second connection part 212 by interference fit, Thereby preventing the infiltration of the fluid.

Next, the lower end of the first frame 210 is coupled with the circuit board 300. The circuit board 300 may be attached to the first frame 210 after bonding agent (epoxy or the like) is applied to the lower end surface of the first frame 210. Alternatively, (300) may be fastened to the first frame (210). (S200)

When the first frame 210 and the circuit board 300 are coupled to each other, the fixing member 320 provided on the circuit board 300 is inserted into the position fixing groove 222 formed on the inner side of the second frame 220 As shown in FIG. That is, the position fixing grooves 222 are formed on the same horizontal line inside the second frame 220 to prevent the circuit board 300 from being coupled to the second frame 220 in an inclined state. Therefore, the optical axis adjustment between the lens and the image sensor 310 can be accurately performed.

Next, the upper housing 200 is coupled with the lower housing 400 to protect various equipments provided in the housing space S from the outside. The upper extension frame 240 provided on the upper housing 200 is screwed to the lower extension frame 420 provided on the lower housing 400 so that the upper housing 200 and the lower housing 400 are screw- (S300).

The end of the first screw thread 241 formed on the upper housing 200 is tightly coupled to the second packing member 425 of the lower housing 400 and the second thread 421 formed on the lower housing 400 Is tightly engaged with the first packing member 245 provided in the upper housing 200 to enhance the waterproofing effect. (S400)

The camera module 1000 can be easily assembled by screwing the upper housing 200 and the lower housing 400 together.

FIG. 6 is a perspective view of an upper housing and a lower housing according to another embodiment of the present invention, and FIG. 7 is a cross-sectional view of a camera module according to another embodiment of the present invention. Members referred to by the same reference numerals as the members shown in Figs. 2 to 4 have the same configuration and function, and a detailed description thereof will be omitted.

As shown in FIGS. 6 and 7, the lower extension frame 420 'may include a first extension frame 426 and a second extension frame 427.

The first extension frame 426 extends to the top of the body frame 410.

The second extension frame 427 is spaced apart from the first extension frame 426 to form an engagement space 401 and extends to the top of the body frame 410.

That is, the first extension frame 426 and the second extension frame 427 form a pair and form a coupling space portion 401 into which the upper extension frame 240 is inserted.

The first extension frame 426 is spaced apart from the second extension frame 427 and is provided outside the second extension frame 427.

On the other hand, the upper extension frame 240 extends to the lower portion of the second frame 220 to be inserted into the engagement space portion 401.

The upper extension frame 240 may be screwed to the first extension frame 426 and the second extension frame 427 while being inserted into the engagement space portion 401.

In other words, the first threads 241 'formed on the inner side and the outer side of the upper extension frame 240 respectively have the third thread 428 and the second extension frame 427 formed on the inner side of the first extension frame 426, Respectively, so that the upper housing 200 and the lower housing 400 'can be screwed to each other.

The first screw thread 241 'formed on the outer side of the upper extension frame 240 corresponds to the third screw thread 428 and the first screw thread 241' formed on the inner side of the upper extension frame 240 So that the upper housing 200 and the lower housing 400 'can be screwed together.

A second packing member 425 may be further provided under the first extension frame 426 and the second extension frame 427. A first packing member 245 may be provided on the upper extension frame 240, May be further included. At this time, the first packing member 245 may be provided on the inner side surface and the outer side surface of the upper extension frame 240, respectively.

The lower extension frame 420 'and the upper extension frame 240 having the first extension frame 426 and the second extension frame 427 improve the waterproofing effect of the camera module 1100.

In other words, the first threads 241 'formed on the outer surfaces of the third thread 428 of the first extension frame 426 and the upper extension frame 240 are subjected to a primary waterproofing process, The fourth screw thread 429 of the upper extension frame 427 and the first screw thread 241 'formed on the inner surface of the upper extension frame 240 are subjected to a secondary waterproof treatment to achieve a double waterproof treatment.

The second packing member 425 is combined with the first thread 241 'to perform a third waterproofing process and the first packing member 245 is connected to the third thread 428 and the fourth thread 429, Respectively, so that the fourth waterproof process can be performed.

As described above, since the camera module 1100 is waterproofed for the fourth time, the fluid can be prevented from penetrating into the joint portion between the upper housing 200 and the lower housing 400 '.

It will be understood by those skilled in the art that the foregoing description of the present invention is for illustrative purposes only and that those of ordinary skill in the art can readily understand that various changes and modifications may be made without departing from the spirit or essential characteristics of the present invention. will be. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive. For example, each component described as a single entity may be distributed and implemented, and components described as being distributed may also be implemented in a combined form.

The scope of the present invention is defined by the appended claims, and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be construed as being included within the scope of the present invention.

100: lens barrel 200: upper housing
210: first frame 214:
220: second frame 222: position fixing groove
240: upper extension frame 245: first packing member
300: Circuit board 400, 400 ': Lower housing
420, 420 ': lower extension frame 425: second packing member
426: first extension frame 427: second extension frame
1000, 1100: Camera module

Claims (10)

A lens barrel equipped with a lens and having a sealing member on its outer surface;
An upper housing having an opening formed in the lens barrel such that an upper portion of the lens barrel is exposed to the outside and a first screw thread formed in the lower portion;
A circuit board mounted with an image sensor for converting an image received through the lens into an electrical signal; And,
And a second threaded lower housing which receives the circuit board and is screwed with the first screw thread,
The upper housing includes: a first frame coupled with the lens barrel; A second frame connected to an upper end of the first frame to form an outer shape and spaced apart from the first frame to form an insertion space; And wherein the first threaded portion is formed and has an upper extension frame extending downwardly from the second frame. delete The method according to claim 1,
A first packing member is further provided on the upper portion of the upper extension frame, and the first packing member is tightly coupled to the second screw thread. The method according to claim 1,
The lower housing comprises:
A body frame forming a housing space for accommodating the circuit board;
Wherein the second threaded portion is formed and includes a lower extension frame extending upwardly from the body frame. 5. The method of claim 4,
And a second packing member is further provided at a lower portion of the lower extension frame, and the second packing member is tightly coupled to the first screw thread. 5. The method of claim 4,
The lower extension frame includes:
A first extension frame extending to an upper portion of the body frame;
A second elongated frame spaced apart from the first elongated frame to form an engaging space and extending to an upper portion of the body frame,
Wherein a third screw thread is formed on the first extension frame and a fourth screw thread is formed on the second extension frame to be screwed into the upper housing. The method according to claim 1,
And a fixing member provided on the circuit board is seated and supported in a position fixing groove formed on an inner surface of the second frame. The method according to claim 1,
Wherein the first frame comprises:
A first connecting portion forming the opening hole and formed with a thread;
A second connection portion provided at a lower portion of the first connection portion, the second connection portion closely contacting the sealing member;
A third connection part forming a step at a lower portion of the second connection part and having a lower end coupled to the circuit board; And,
And an inclined portion connecting the second connection portion and the third connection portion. A method of manufacturing a camera module according to claim 1,
A lens barrel and an upper housing are screwed together;
The lower end of the first frame of the upper housing is coupled to the circuit board;
The upper extension frame of the upper housing and the lower extension frame of the lower housing being threaded; And,
The first screw thread formed on the upper housing is tightly coupled to the second packing member provided on the lower housing and the second screw thread formed on the lower housing is engaged with the upper housing, Wherein the first packing member is in close contact with the first packing member. delete

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