KR101505808B1 - Camera module having improved optical axis alignment - Google Patents

Abstract

The present invention relates to a camera module for easily aligning an optical axis. The camera module for easily aligning the optical axis according to the embodiment of the present invention improves the precision of an optical axis alignment by easily controlling and aligning the optical axis by adopting a rotation or slide type optical axis alignment structure. The camera module for easily aligning the optical axis includes a lens, an image sensor, a PCB, and a lens holder.

Description

[0001] The present invention relates to a camera module having improved optical axis alignment,

The present invention relates to a camera module, and more particularly to a camera module in which alignment of an optical axis is facilitated.

In Korean Patent No. 10-0583561 (May 2006, 19), a plurality of alignment holes (not shown) are formed on the edge of each die on a glass wafer on which a photodetector semiconductor device of a wafer level package is mounted. And the holder of the camera lens is inserted and fixed so that the aligned optical axis is not shifted due to an external impact or the like, and the optical axis alignment structure of the lens and the optical detecting semiconductor device of the camera for a mobile phone is described .

In the conventional camera optical axis alignment structure, since the optical axis adjustment or the optical axis adjusted optical axis is simultaneously fixed or combined at least at two positions so as not to be shifted by the external impact, the optical axis alignment accuracy can not be adjusted once the optical axis alignment is performed There was a falling problem. Therefore, the present inventor has made a study on a technique for improving alignment accuracy of an optical axis by aligning and adjusting an optical axis easily through a rotation type optical axis alignment structure.

Korean Patent No. 10-0583561 (2006. 05. 19)

It is an object of the present invention to provide a camera module having an optical axis alignment structure of a rotation type or a slide type which is easy to align and adjust the optical axis.

According to an aspect of the present invention, there is provided a camera module including: a lens; An image sensor for converting an optical signal received by the lens into an electrical image signal; The image sensor is modularized at a central portion of the image sensor, and a rotation axis projection is formed at a center of the outer rotation portion. The rotation axis projection is provided at another position of the outer portion facing the position where the rotation axis projection is formed. A PCB substrate on which grooves are formed; The lens holder is fixed to the lens holder and has a projection insertion groove into which a rotation axis projection formed on the PCB substrate is inserted and a screw engagement groove into which a screw for fixing the PCB substrate inserted into the rotation guide groove formed on the PCB substrate is formed. ; And the like.

According to another aspect of the present invention, there is provided a camera module having an optical axis alignment function, comprising: a lens; An image sensor for converting an optical signal received by the lens into an electrical image signal; The image sensor is modularized at a central portion, and a projection insertion groove, which is a center of rotation, is formed at an outer portion of the image sensor. At another position of the outer portion facing the position where the projection insertion groove is formed, A PCB substrate on which rotation guide grooves are formed; The lens holder being fixed to the lens holder and having a screw hole for engaging a screw inserted into a rotation guide groove formed in the PCB substrate and inserted into a projection insertion groove formed in the PCB substrate, ; And the like.

According to another aspect of the present invention, there is provided a camera module having an optical axis alignment function, comprising: a lens; An image sensor for converting an optical signal received by the lens into an electrical image signal; The image sensor is modularized at a central portion, and a projection guide groove is formed at a position of the outer periphery. A movement guide groove for adjusting the optical axis is formed at another position of the outer portion facing the position where the projection guide groove is formed A PCB substrate; A lens holder fixedly coupled to the lens and having a guide protrusion inserted into a protrusion guide groove formed in the PCB substrate and a screw groove engaged with a screw for fixing the PCB substrate inserted into a movement guide groove formed in the PCB substrate, ; And the like.

The present invention adopts a rotating or sliding type optical axis alignment structure to facilitate alignment and adjustment of the optical axis, thereby improving the alignment accuracy of the optical axis, shortening the working time for precise alignment and adjustment of the optical axis, There is an effect of reducing the defect rate of the optical axis defective item of the module.

1 is a cross-sectional view showing a first embodiment of a camera module in which alignment of an optical axis is easy according to the present invention.
FIG. 2 is a bottom view showing an example of a PCB substrate of a camera module in which the optical axis alignment shown in FIG. 1 is easy.
3 is a cross-sectional view illustrating a camera module according to a second embodiment of the present invention.
FIG. 4 is a bottom view illustrating an example of a PCB substrate of the camera module in which the optical axis alignment shown in FIG. 3 is easy.
5 is a cross-sectional view illustrating a camera module according to a second embodiment of the present invention.
FIG. 6 is a bottom view illustrating an example of a PCB substrate of a camera module having an optical axis alignment shown in FIG.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the like elements throughout.

In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

The terms used throughout the specification of the present invention have been defined in consideration of the functions of the embodiments of the present invention and can be sufficiently modified according to the intentions and customs of the user or operator. It should be based on the contents of.

1 is a cross-sectional view showing a first embodiment of a camera module in which alignment of an optical axis is easy according to the present invention. FIG. 2 is a bottom view showing an example of a PCB substrate of a camera module in which the optical axis alignment shown in FIG. 1 is easy.

1 and 2, a camera module 100 having an easy optical axis alignment according to this embodiment includes a lens 110, an image sensor 120, a PCB substrate 130, a lens holder 140).

The lens 110 receives light by receiving light.

The image sensor 120 converts an optical signal received by the lens 110 into an electrical image signal. For example, the image sensor 120 may be a CMOS image sensor (CIS).

The PCB 130 has a rotation axis projection 131 formed at a center of the image sensor 120 and serving as a center of rotation of the PCB substrate 130 at any position of the periphery thereof, A rotation guide groove 132 for optical axis adjustment is formed at another position of the outer portion. For example, the rotation guide groove 132 may be an arc-shaped groove.

The lens holder 140 includes a projection insertion groove 141 into which the rotation axis protrusion 131 formed on the PCB 130 is inserted and to which the lens 110 is fixed, A screw engagement groove 142 is formed in which the screw 150 for fixing the PCB 130 is inserted.

When the rotation axis projection 131 formed on the PCB substrate 130 is inserted into the projection insertion groove 141 formed in the lens holder 140 to which the lens 110 is fixedly coupled, Is centered on the rotation axis and the lens holder 140 is rotated.

The screw 150 is loosely engaged with the screw coupling groove 142 formed in the lens holder 140 while the screw 150 is inserted through the rotation guide groove 132 formed in the PCB substrate 130, The lens holder 140 and the PCB substrate 130 are screwed into the screw engagement groove 142 so that the lens holder 140 and the PCB substrate 130 are prevented from flowing, (150).

By doing so, the present invention can improve the alignment accuracy of the optical axis by aligning and adjusting the optical axis easily by aligning and adjusting the optical axis by having a rotation type optical axis alignment structure using one axis. Therefore, .

3 is a cross-sectional view illustrating a camera module according to a second embodiment of the present invention. FIG. 4 is a bottom view illustrating an example of a PCB substrate of the camera module in which the optical axis alignment shown in FIG. 3 is easy.

3 and 4, a camera module 200 having an easy optical axis alignment according to this embodiment includes a lens 210, an image sensor 220, a PCB substrate 230, a lens holder 240).

The lens 210 receives light by receiving light.

The image sensor 220 converts an optical signal received by the lens 210 into an electrical image signal. For example, the image sensor 220 may be a CMOS image sensor (CIS).

The PCB 230 has a projection insertion groove 231 formed at a center of the image sensor 220 at a central portion of the PCB 230 for rotation, A rotation guide groove 232 for adjusting the optical axis is formed at another position of the outer periphery opposite to the formed position. For example, the rotation guide groove 232 may be an arc-shaped groove.

The lens holder 240 includes a rotation axis protrusion 241 fixed to the lens 210 and inserted into a projection insertion groove 231 formed in the PCB 230, A screw engagement groove 242 is formed in the guide groove 232 to receive a screw 250 for fixing the PCB 230.

When the rotation axis projection 241 formed in the lens holder 240 to which the lens 210 is fixedly coupled is inserted into the projection insertion groove 231 formed in the PCB substrate 230, the rotation axis projection 241 Is centered on the rotation axis and the lens holder 240 is rotated.

The screw 250 is loosely coupled to the screw engagement groove 242 formed in the lens holder 240 while the screw 250 is inserted through the rotation guide groove 232 formed in the PCB substrate 230, The lens holder 240 and the PCB substrate 230 are screwed into the screw engagement groove 242 so as to align and adjust the optical axis to locate the image that is picked up most clearly while rotating the rotation axis projection 241, (250).

By doing so, the present invention can improve the alignment accuracy of the optical axis by aligning and adjusting the optical axis easily by aligning and adjusting the optical axis by having a rotation type optical axis alignment structure using one axis. Therefore, .

5 is a cross-sectional view illustrating a camera module according to a second embodiment of the present invention. FIG. 6 is a bottom view illustrating an example of a PCB substrate of a camera module having an optical axis alignment shown in FIG.

5 and 6, a camera module 300 having an easy optical axis alignment according to this embodiment includes a lens 310, an image sensor 320, a PCB substrate 330, a lens holder 340).

The lens 310 receives light by receiving light.

The image sensor 320 converts an optical signal received by the lens 310 into an electrical image signal. For example, the image sensor 320 may be a CMOS image sensor (CIS).

The PCB substrate 330 is formed with a protrusion guide groove 331 formed at a central position of the image sensor 320 at a position outside the protrusion guide groove 331, A movement guide groove 332 for optical axis adjustment is formed at another position of the outer portion. For example, the projection guide groove 331 and the movement guide groove 332 may be grooves cut in a linear shape.

The lens holder 340 includes a guide protrusion 341 fixed to the lens 310 and inserted into a protrusion guide groove 331 formed in the PCB 330, A screw engagement groove 342 is formed in the guide groove 332 to which a screw 350 for fixing the PCB substrate 330 is coupled.

The guide protrusion 341 formed on the lens holder 340 to which the lens 310 is fixedly coupled is inserted into the protrusion guide groove 331 formed in the PCB substrate 330 and the PCB substrate 330 The screw 350 is loosely coupled to the screw engagement groove 342 formed in the lens holder 340 while the screw 350 is inserted through the movement guide groove 332 formed in the lens holder 340, The optical axis is aligned or adjusted by finding the position where the image to be picked up is most clear, and then the screw 350 is tightened to the screw engagement groove 342 so that the lens holder 340 and the PCB substrate 330 do not flow.

By doing so, since the optical axis alignment and adjustment of the optical axis alignment structure of the present invention can be easily performed by aligning and adjusting the optical axis, it is possible to improve the alignment accuracy of the optical axis, do.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. .

INDUSTRIAL APPLICABILITY The present invention is industrially applicable in the field of camera optical axis alignment technology and its application field.

100, 200, 300: Camera module
110, 210, 310: lens
120, 220, 320: image sensor
130, 230, 330: PCB substrate
131, 241: rotation axis projection
132, 232: rotation guide groove
140, 240, 340: lens holder
141, 231: projection insertion groove
142, 242:
150, 250, 350: screws

Claims (3)

A lens;
An image sensor for converting an optical signal received by the lens into an electrical image signal;
The image sensor is modularized at a central portion, and a rotation axis projection is formed at a position of the rotation axis at any position of the outer periphery, and a rotation guide A PCB substrate on which grooves are formed;
The lens holder is fixed to the lens holder and has a projection insertion groove into which a rotation axis projection formed on the PCB substrate is inserted and a screw engagement groove into which a screw for fixing the PCB substrate inserted into the rotation guide groove formed on the PCB substrate is formed. ;
Wherein the optical axis of the camera module is substantially perpendicular to the optical axis of the camera module. A lens;
An image sensor for converting an optical signal received by the lens into an electrical image signal;
The image sensor is modularized at a central portion, and a projection insertion groove serving as a center of rotation is formed at a position of the outer periphery, and at another position of the outer portion different from the position where the projection insertion groove is formed, A PCB substrate on which rotation guide grooves are formed;
The lens holder being fixed to the lens holder and having a screw hole for engaging a screw inserted into a rotation guide groove formed in the PCB substrate and inserted into a projection insertion groove formed in the PCB substrate, ;
Wherein the optical axis of the camera module is substantially perpendicular to the optical axis of the camera module. A lens;
An image sensor for converting an optical signal received by the lens into an electrical image signal;
The image sensor is modularized at a central portion, and a projection guide groove is formed at an outer portion of the image sensor. A movement guide groove for adjusting the optical axis is formed at another position of the outer portion different from the position where the projection guide groove is formed A PCB substrate;
A lens holder fixedly coupled to the lens and having a guide protrusion inserted into a protrusion guide groove formed in the PCB substrate and a screw groove engaged with a screw for fixing the PCB substrate inserted into a movement guide groove formed in the PCB substrate, ;
Wherein the optical axis of the camera module is substantially perpendicular to the optical axis of the camera module.

Images