KR101979805B1 - Lens Inspection Device - Google Patents

Abstract

The present invention provides a lens flare inspection device and a lens flare inspection method. The lens flare inspection device comprises: a shade case provided with a mounting space; a lighting unit which is mounted on an upper portion of the shade case, has a lighting case formed in a curved surface or a semispherical shape, and includes a plurality of light sources mounted in the light case; a sensor module which is mounted in a mounting space of the shade case, has one or more lenses seated on an upper portion thereof, and includes a camera mounted on a lower portion thereof to acquire an image photographed by the lenses; and an image processing unit to determine whether the lenses are defective in accordance with the image acquired by the camera of the sensor module. The lens flare inspection device and the lens flare inspection method can clearly determine an acquired image since the light of the plurality of light sources mounted in the lighting case enter perpendicularly in accordance with the shape of the lenses.

Description

Lens Inspection Device [0002]

The present invention relates to a lens flare inspection apparatus capable of inspecting a flare (light blur) of a lens.

Generally, a mobile device is equipped with a camera for easy user shooting, and a lens for condensing light is an essential component of such a camera.

The lens is produced by a mass-produced company and then subjected to a defect inspection on the lens and then supplied to the manufacturer.

That is, the mass-producers will inspect the black spots, scratches, stains, coating defects, etc. of the lenses that may occur during the production stage of the lenses before providing them to the manufacturer.

However, in the past, when a defect of a lens is manually inspected by a person directly through a microscope, the number of lenses that can be inspected is limited and objectivity of inspection is deteriorated.

In order to overcome such a problem, a lens inspection apparatus having an optical fiber ring illuminator or the like attached to an optical microscope has been developed. However, due to the position of the illumination, interference occurs in the lens, There was a problem that the inspection could not be performed.

Korean Registered Patent No. 10-1192331 (registered on October 11, 2012) Korean Registered Patent No. 10-1580595 (registered on December 21, 2015) Korean Registered Patent No. 10-1580177 (registered on Dec. 18, 2015)

SUMMARY OF THE INVENTION The present invention has been made in view of the above circumstances, and it is an object of the present invention to provide an image display apparatus in which a plurality of light sources are mounted in an interior of an illumination case according to the shape of a lens and images of the lens are acquired at various angles, The present invention provides a lens flare inspection apparatus capable of performing a lens flare inspection.

It is also an object of the present invention to provide a lens flare inspection apparatus capable of inspecting an entire area or a partial area of a lens that is seated on an upper portion of a sensor module by arranging a light source mounted inside the illumination case in a radial manner.

A lens inspection apparatus according to an embodiment of the present invention includes a light shielding case having a mounting space; An illumination unit mounted on an upper portion of the light-shielding case and having an illumination case formed in a curved or hemispherical shape, and a plurality of light sources mounted in the illumination case; A sensor module mounted on a mounting space of the light-shielding case, on which one or more lenses are mounted, and a camera for acquiring an image of the lens taken by the sensor module; And an image processor for determining whether the lens is defective according to an image obtained through a camera of the sensor module.

And the light source may be radially mounted to the illumination case.

In addition, the light source may be spaced apart from the illumination case according to the shape of the lens, and light generated from the light source may be incident on the lens in a direction perpendicular to the lens.

In addition, the light source may be mounted at a distance from the illumination case according to the shape of the lens, and the light source may be installed at a position where the generated light enters the camera through the lens and the lens in the same line.

The illumination unit may include a module mounting hole radially formed in a circumferential direction inside the illumination case, and the module mounting hole may include a light source module having a plurality of light sources selectively mounted thereon.

In addition, the image processing unit may sequentially illuminate a light source centered on a light source located at the center of the illumination case to obtain a sensor image for each position, and then, in a state in which the sensor images are superimposed, .

The apparatus for inspecting a lens flare according to the present invention is characterized in that a plurality of light sources are mounted in the interior of the illumination case according to the shape of the lens and an image of the lens is taken at various angles to clearly determine the flare of the lens have.

Further, the lens flare testing apparatus according to the present invention can inspect the entire area of the lens placed on the upper part of the sensor module by radially arranging the light source mounted inside the illumination case, There is an effect that can be.

1 is a configuration diagram showing a lens flare testing apparatus according to the present invention;
FIG. 2 is a partial cross-sectional view showing a light-shielding case constituting the lens flare testing apparatus according to the present invention, an installation state of a lighting unit, and a sensor module.
3 (a) to 3 (c) are views showing an embodiment of a lighting unit constituting a lens flare testing apparatus according to the present invention.
4 is a view showing an embodiment of an image processing unit constituting a lens flare testing apparatus according to the present invention.
5 and 6 are views showing still another embodiment of an image processing unit constituting a lens flare testing apparatus according to the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention and the manner of achieving them will become apparent with reference to the embodiments described in detail below with reference to the accompanying drawings. The present invention may, however, be embodied in many different forms and should not be construed as being limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. And is provided to fully convey the scope of the invention to those skilled in the art, and the present invention is defined by the claims.

It is to be understood that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. In the present specification, the singular form includes plural forms unless otherwise specified in the specification. It is noted that " comprises, " or " comprising, " as used herein, means the presence or absence of one or more other components, steps, operations, and / Do not exclude the addition.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram of a lens flare testing apparatus according to the present invention. FIG. 2 is a block diagram of a lens flare testing apparatus according to an embodiment of the present invention. Shielding case, the illumination unit, and the sensor module.

The lens flare testing apparatus 100 of the present invention includes a light shield case 200, an illumination unit 300, a sensor module 400, and an image processing unit 500.

The light-shielding case 200 has a predetermined size and is prevented from leaking or entering the outside of the light.

The light-shielding case 200 may be formed in various shapes according to the environment, purpose, etc. In the present invention, the light-shielding case 200 is formed in a rectangular box shape, for example.

In addition, the light-shielding case 200 formed in a rectangular box shape is formed with a mounting space 210 therein, a traveling passage 220 formed on one side thereof, and an illumination mounting hole 230 formed on the upper side thereof.

That is, the light-shielding case 200 has a mounting space 210 formed therein for receiving the sensor module 400 and the lens R, And a lighting fixture hole 230 is formed on the upper portion of the lighting fixture 300 so as to mount the illumination unit 300.

The illumination unit 300 is mounted on the upper part of the light shield case 200.

The light-shielding case 200 includes an illumination case 310 formed in a curved or hemispherical shape and a plurality of light sources 320 mounted in the interior of the illumination case 310.

That is, the illumination unit 300 forms a curved or hemispherical shape of the illumination case 310 so that the play of the lens R mounted on the upper part of the sensor module 400 can be easily performed, A plurality of light sources 320 are mounted inside the light sources 310.

At this time, the plurality of light sources 320 mounted on the illumination case 310 may be spaced apart from each other at a predetermined interval, and may be radially formed.

That is, the light source 320 can be radially mounted inside the illumination case 310 to inspect the entire area of the lens R, and the light source 320 can be fully illuminated, sequentially illuminated, The entire region or the selected region of the lens R can be easily inspected through one.

In addition, the conventional lens inspection apparatus can not inspect the flare of the lens mounted on the sensor module at once because the illumination unit is formed of a flat plate. Therefore, after inspecting a certain portion, On the other hand, in the case of the present invention, there is an advantage that the flare of the lens can be inspected through the light source 320 radially mounted on the illumination case 310, without lighting the sensor module through the entire or sequential lighting.

The light source 320 may be spaced apart from the illumination case 310 according to the shape of the lens R mounted on the sensor module 400. At this time, the light source 320 is mounted at a position where the generated light is incident on the lens R in the vertical direction.

That is, the light source 320 is mounted on the illumination case 310 at a position where the generated light is collinearly incident on the camera C via the lens R and the lens R.

In addition, since the light source 320 is mounted on the illumination case 310 such that an image viewed through the camera C mounted on the sensor module 400 is vertically incident on the light source 320 when the lens R is projected, And it is also possible to check the surface or internal defect of the lens R having various flare elements.

3 (c), a module mounting hole 312 is formed radially in a circumferential direction inside the illumination case 310, and the module mounting hole 312 is provided with a plurality of The light source module 330 in which the light sources 320 are selectively mounted can be mounted.

That is, the illumination unit 300 selectively mounts the light source module 330 having the plurality of light sources 320 mounted thereon according to the shape of the lens R, to the illumination case 310.

The sensor module 400 is installed in a mounting space 210 of the light shield case 200.

Here, the shape and structure of the sensor module 400 are not limited to those shown in the drawings, and known sensor modules may be used, and a detailed description thereof will be omitted.

At least one lens R is mounted on the upper part of the sensor module 400 and a camera C for capturing an image of the lens R is mounted on the lower part.

The image processing unit 500 is mounted at a distance from the light shield case 200.

The image processing unit 500 determines whether the flare of the lens R is defective according to an image acquired by the camera C of the sensor module 400. [

The image processing unit 500 sequentially illuminates the light source 320 around the light source 320 located at the center of the illumination case 310 to check the amount of change of the sensor R, The flare for any one of the assembly consistency, the assembled state for each lens, and the reflection is detected.

Specifically, the image processing unit 500 sequentially illuminates the light source 320 around the light source 320 located at the center of the illumination case 310 to acquire sensor images for each position, The flare of the sensor R can be confirmed through the portion excluding the overlapped portion.

At this time, the light source 320 may sequentially light up along the curved surface or the circle diameter instead of the center to acquire the sensor image for each position of the lens R. [

 4 to 6, data on the amount of change in the light source 320 positioned at the center of the illumination case 310 may be displayed on a screen so that data other than flare detection according to light reflection can be obtained .

The operation of the lens flare testing apparatus will now be described.

First, a mounting space 210 is formed in a rectangular box shape, a traveling path 220 is formed on one side, and a light-shielding case 200 having an illumination mounting hole 230 formed thereon.

The lighting case 310 is formed in a curved or hemispherical shape by the lighting mounting hole 230 of the light shielding case 200 and a plurality of light sources 320 radially mounted in the lighting case 310 The lighting unit 300 is mounted.

At this time, the light source 320 is mounted at a position where the generated light is incident on the lens R in the vertical direction.

Next, at least one lens R is mounted on an upper portion of the mounting space 210 of the light-shielding case 200 and a sensor C on which a camera C for capturing an image of the lens R is mounted. The module 400 is mounted.

When the image processing unit 500 for determining whether the flare of the lens R is defective according to the image acquired by the camera C of the sensor module 400 to one side of the light shielding case 200 is mounted, The assembling of the semiconductor device 100 is completed.

Here, the assembling procedure of the lens flare testing apparatus can be assembled differently from the above.

Next, a lens flare inspection method using the lens flare testing apparatus 100 will be described.

First, the lens R is mounted on the upper part of the sensor module 400, and the lens R is disposed at the center of the mounting space 210 of the light-shielding case 200, and power is supplied to the illumination unit 300.

Here, the illumination unit 300 sequentially lights the light source 320 radially mounted on the illumination case 310.

The camera C of the sensor module 400 acquires an image transmitted through the lens R of the sensor module 400 and supplies the acquired image to the image processing unit 500. The image processing unit 500 transmits the image C, the overlapped portions are excluded, and the flare of the sensor R is confirmed.

 The foregoing description is merely illustrative of the technical idea of the present invention and various changes and modifications may be made without departing from the essential characteristics of the present invention.

Therefore, the embodiments described in the present invention are not intended to limit the scope of the present invention, but are intended to be illustrative, and the scope of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas which are equivalent or equivalent thereto should be interpreted as being included in the scope of the present invention.

100: Lens flare test device
200: Shading case
300:
400: Sensor module
500:

Claims (6)

A light shielding case having a mounting space;
An illumination unit mounted on an upper portion of the light-shielding case, the illumination case being formed in a curved or hemispherical shape, and a plurality of light sources radially installed in the illumination case;
A sensor module mounted on a mounting space of the light-shielding case, on which one or more lenses are mounted, and a camera for acquiring an image of the lens taken by the sensor module; And
And an image processor for determining whether the lens flare is defective according to an image acquired through a camera of the sensor module,
The light source is installed at a distance from the illumination case according to the shape of the lens, and the light source is installed at a position where the generated light enters the camera through the lens and the lens,
The illumination unit may include a module mounting hole formed radially in a circumferential direction inside the illumination case, the module mounting hole may include a light source module having a plurality of light sources selectively mounted thereon,
The image processing unit sequentially illuminates a light source centered on a light source located at the center of the illumination case to acquire sensor images for each position, and then checks the flare of the sensor through the portion excluding the overlapped portions in a state where the sensor images are superimposed The lens flare test device.
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