KR20080015973A - Carmera module - Google Patents

Abstract

A camera module is provided to divide a lens unit and a sensor unit in the camera module through a hinge connecting unit and connect the lens unit and the sensor unit only in the operation of a camera, thereby reducing height than an existing module and improving camera capabilities. A camera module(100) comprises a camera housing(30), plural lenses(106), a lens unit(10), an IR(Infrared Rays) filter(121), an image sensor(118), and a sensor unit(20), and a hinge connecting unit(112). The camera housing has a space portion in the inside. The plural lenses are installed in the mounting portion of the camera housing to receive the optical image of a subject. The lens unit includes a barrel(109) for assembling the lenses with the camera housing. The IR filter is configured to block IR incident from the lenses and seal the mounting portion. The image sensor picks up the optical image, in which the IR is blocked through the IR filter, to convert the image signal into an electric signal. The sensor unit includes a PCB(Printed Circuit Board)(115) for performing the digital processing of the image signal outputted from the image sensor. The hinge connecting unit connects the sensor unit and the lens unit so that the lens unit can be rotated on the basis of a side of the sensor unit.

Description

Camera Module {Carmera Module}

1 is a cross-sectional view showing the internal coupling structure of the camera module of the present invention.

2 is an exploded perspective view showing the configuration of a camera module according to the present invention.

<Explanation of symbols on main parts of the drawings>

100-Camera Module 103-Magnet

106-Lens 109-Barrel

112-hinge connections 115-printed circuit boards

118-Image Sensor 121-IR Filter

203-Hinge Knuckles 206-Hinge

209-coupling part 10-lens part

20-sensor unit 30-camera housing

The present invention relates to a camera module.

BACKGROUND ART Compact camera modules, which are generally used in small products such as mobile phones, have recently been in the spotlight due to their various uses such as camera phones for IMT, PDAs, smart phones, and toy cameras.

Such a camera module is manufactured by using an image sensor chip of a CCD or a CMOS, and collects an object through a lens on the image sensor chip so that the image can be displayed as an image of the object on a display medium such as a PC monitor or an LCD display device.

Conventional camera module die attach the image sensor chip of CCD or CMOS on PCB, wire bond the image sensor chip and PCB, attach the plastic housing to protect it from the outside, and then Insert the insertion protrusions of the lens assembly with the threads formed so as to be combined with the threads formed in the insertion hole in which the threads of the insertion holes are formed so as to join the housing and the lens assembly by the screwing method by the threads of these insertion holes and the threads of the insertion protrusions. It is.

At this time, an infrared cut filter (IR cut-off filter) is positioned between the lens provided in the lens assembly and the image sensor chip to block excessive long infrared rays.

The conventional camera module has a problem in that a design value such as a chip ray angle is fixed in consideration of a pixel size at the time of sensor design, and accordingly, there is a limit in lowering the height. In order to compensate for this, a sensor mount method such as a flip chip has been proposed, but there is a problem that a process is difficult and a yield is also lower than that of a wire bonding type.

According to the present invention, the lens module and the sensor unit of the camera module are separated through the hinge connection unit, and the lens unit and the sensor unit are photographed by bonding the lens unit and the sensor unit only at the moment of operation of the camera to reduce the height of the existing module and improve the performance of the lens. The purpose is to provide.

The camera module of the present invention includes a camera housing forming a space therein, a plurality of lenses installed in the mounting portion of the camera housing to receive an optical image of a subject, and a barrel for assembling the lens in the housing. An IR sensor configured to seal the mounting unit at the same time as blocking the infrared ray incident on the lens, and an image sensor for forming an optical image by converting an optical image blocked by the infrared ray through the IR filter into an electrical signal. And a sensor unit including a printed circuit board for digitally processing the image signal output by the image sensor, and a hinge connection unit connecting the sensor unit and the lens unit to rotate the lens unit based on one side of the sensor unit. do.

The hinge connection part is formed to protrude from both ends of the set of hinge knuckles protruding from both ends of the lower side of the lens unit and the lower one side of the sensor unit, and is rotatably coupled between the set of hinge knuckles. It comprises a coupling portion, and the hinge is provided between the hinge knuckle and the coupling portion to be rotatably coupled to the coupling portion.

In this case, the hinge connecting portion is configured to be rotated 180 degrees, a magnet is provided on each side of the sensor unit and the lens unit to be in contact with each other in a coupled state, the magnet is coupled to the sensor unit and the lens unit It plays a role of fixing not to move in the state.

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

1 is a cross-sectional view showing the internal coupling structure of the camera module of the present invention, Figure 2 is an exploded perspective view showing the configuration of the camera module according to the present invention.

The camera module 100 of the present invention is largely composed of a lens unit 10, a sensor unit 20, and a hinge connection unit 112.

The lens unit 10 includes a camera housing 30, a lens 106, and the like.

The lens 106 is inserted into the mounting portion of the camera housing 30 to receive an optical image of the subject.

The camera housing 30 forms a space in which the image sensor 118, the PCB 115, and the lens 106 can be inserted, and a barrel 109 for assembling the lens 106 to the housing 109. It includes.

The sensor unit 20 includes an IR filter 121, an image sensor 118, and a printed circuit board 115.

The IR filter 121 blocks infrared rays included in the optical image incident on the lens 106. That is, since the image sensor 118, which is a normal image pickup device, can detect near-infrared wavelengths and infrared wavelength bands unlike human eyes, the screen color tends to be red-toned during imaging, and thus an IR filter is used to block the wavelength range. (IR Cut Off Filter) 121 is installed between the lens unit 10 and the image sensor 118, the optical image collected through the lens unit 10 by the IR filter 121 is the infrared ray is blocked. It is imaged in the image sensor 118 in a state.

The image sensor 118 forms an optical image blocked by infrared rays through the IR filter 121 and converts the optical image into an electrical signal. Also, the image sensor 118 includes a pixel area (not shown) including a plurality of pixels and a plurality of electrodes (not shown) that are input / output terminals of the pixel area. In this case, the plurality of electrodes are electrically connected to the electrodes of the printed circuit board 115 using wire bonding equipment, respectively.

The printed circuit board 115 is provided with a predetermined electrical pattern and a plurality of electrodes (not shown).

The hinge connection unit 112 connects the sensor unit 20 and the lens unit 10 so that the lens unit 10 can be rotated based on the sensor unit 20 and one side of the sensor unit 20. That is, as shown in FIG. 2, the hinge connection portion 112 protrudes from both ends of the lower side of the lens unit 10 so as to face each other, and a pair of hinge knuckles 203 and both sides of the lower side of the sensor unit 20. Protrudingly formed at the end, the coupling portion 209 and the coupling portion 209 which is rotatably coupled between a set of hinge knuckles are installed between the hinge knuckle 203 and the coupling portion 209 to be rotatably coupled. Consists of a hinge 206, the hinge connection portion 112 is configured to be rotated 180 degrees.

A magnet 103 is provided on each side surface of the sensor unit 20 and the lens unit 10 that are in contact with each other in a state where the sensor unit 20 and the lens unit 10 are rotated and coupled, and the magnet 103 has the sensor unit 20 and the lens unit 10. Plays a role of fixing not to move in the combined state. At this time, the magnet provided in the sensor unit 20 and the magnet provided in the lens unit 10 are preferably of different polarities.

The rotation by the hinge connection part 112 is such that the lens unit 10 of the camera is temporarily rotated 180 degrees and placed on the sensor unit 20 only when the camera is photographed. Thus, the lens unit 10 and the sensor unit 20 By dividing the camera module, the problem of deterioration of the lens is solved by using the existing wire bonding process as it is, so that the yield can be stably lowered by half without difficulty.

As mentioned above, although this invention was demonstrated to the several example, this invention is not limited to a specific Example. Those skilled in the art will appreciate that various modifications and changes can be made without departing from the spirit of the invention.

According to the present invention, the lens unit and the sensor unit of the camera module are separated through the hinge connection unit, and the lens unit and the sensor unit are photographed by bonding only the moment of operation of the camera, thereby lowering the height of the existing module and improving the performance of the lens.

Claims (4)

A lens housing including a camera housing forming a space therein, a plurality of lenses installed in a mounting portion of the camera housing so as to receive an optical image of a subject, and a barrel for assembling the lens into the housing; An IR filter configured to block infrared rays incident to the lens and to seal the mounting unit; an image sensor for forming an optical image by converting an optical image blocked by infrared rays through the IR filter into an electrical signal; and the image sensor A sensor unit including a printed circuit board for digitally processing an image signal output by the sensor; Hinge connection unit for connecting the sensor unit and the lens unit so that the lens unit can rotate relative to one side of the sensor unit Camera module comprising a. According to claim 1, The hinge connecting portion, A set of hinge knuckles protruding to face each other at both ends of the lower one side of the lens unit; A coupling part protruding from both ends of the lower side of the sensor part, the coupling part being rotatably coupled between the pair of hinge knuckles, Hinge that is installed between the hinge knuckle and the coupling portion to be rotatably coupled to the coupling portion Camera module comprising a. The method of claim 1, The hinge connection unit is a camera module configured to rotate 180 degrees. The method of claim 1, And a magnet is provided at each side of the sensor unit and the lens unit which are in contact with each other in a state where the sensor unit and the lens unit are coupled to each other, and the magnet serves to fix the sensor unit and the lens unit so as not to move.

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