KR101489305B1 - camera lens centering apparatus and centering method of the same - Google Patents

Abstract

The present invention relates to an apparatus for centering a camera lens and a centering method thereof, and more particularly, to an apparatus for centering a camera lens capable of easily corresponding a central shaft of a lens tube to an optical axis of a lens; and a centering method thereof. The apparatus for centering a camera lens includes a lens tube having a hollow space formed inside; a main reflection member disposed between lenses apart at an upper portion of the lens tube; a pickup member supporting the lens; a vision recording a position of the lens tube located at a lower portion and a position of the lens located at an upper portion through the main reflection member; and a screen unit displaying the image recorded in the vision.

Description

[0001] CAMERA LENS CENTERING APPARATUS AND CENTERING METHOD OF THE SAME [0002]

The present invention relates to a camera lens centering device and a centering method thereof, and more particularly, to a camera lens centering device and a centering method of the camera lens centering device capable of easily matching an optical axis of a lens with a central axis of a lens barrel.

Generally, a compact camera module means a camera module mounted on a small portable device such as a cellular phone or a PDA.

The small-sized camera module is usually photographed by an image sensor chip that converts a light from an object incident through the lens into an electric signal after a plurality of lenses are installed in the lens barrel.

The lens barrel and the lens constituting the conventional small-sized camera module as described above are manufactured as an injection molded product to reduce the manufacturing cost and mass-produced. Each of the lens barrel and the lens manufactured as described above is assembled through a separate assembling process, do.

Conventionally, the positions of the lens and the lens barrel are respectively photographed in order to align the lens and the lens barrel in assembling the lens. In this case, the time for taking the lens and the time for taking the lens barrel are different from each other, The absolute coordinates of the camera are different from each other, and it is not easy to match the concentricity of the lens and the lens barrel.

Since the absolute coordinate values of the camera for photographing the lens and the camera for photographing the lens barrel are different from each other, even if the lenses are assembled by matching the concentricity of the lens barrel with each other, the camera position is constantly changed, there was.

Korean Patent No. 10-0888257

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a camera lens capable of simultaneously photographing a lens and a lens barrel at the same time, photographing the lens and the lens barrel so that absolute coordinates are the same, And a centering device and a centering method thereof.

According to an aspect of the present invention, there is provided a camera lens centering apparatus comprising: a main reflecting member disposed between a lens barrel having a hollow space formed therein and a lens spaced from an upper portion of the lens barrel; A pickup member for supporting the lens; A vision for photographing the position of the lens barrel positioned at the lower portion and the lens located at the upper portion through the main reflection member; And a screen for displaying an image photographed by the vision.

The vision includes a first vision for photographing the position of the barrel through the main reflecting member; And a second vision for photographing the position of the lens through the main reflecting member, and the display unit displays an image photographed in the first and second visions.

Wherein the main reflection member is formed in a transparent hexahedron through which light is transmitted, and a first main reflection surface is formed diagonally inside the main reflection member, and the first vision is formed in the main reflection member through the first main reflection surface, The second vision captures the position of the lens positioned above the main reflecting member through the first main reflecting surface.

A first auxiliary reflection member disposed between the first vision and the main reflection member; And a second auxiliary reflection member disposed between the second vision and the main reflection member, wherein the first vision and the second vision are disposed in parallel, and the first vision includes the first auxiliary reflection member and the second reflection member, Wherein the main reflection member is located at a lower portion of the main reflecting member through a first main reflecting surface and the second vision is located at an upper portion of the main reflecting member through the second auxiliary reflecting member and the first main reflecting surface The position of the lens is photographed.

Alternatively, the present invention may include: a first illuminator for illuminating the barrel with light; And a second illumination unit for irradiating light to the lens, wherein the vision is made by one vision, wherein the vision captures the position of the barrel when the first illumination is turned on and the second illumination is turned off , And photographs the position of the lens when the first illumination is turned off and the second illumination is turned on.

The main reflecting member is formed in a transparent hexahedron through which light is transmitted. A second main reflecting surface is formed diagonally inside the main reflecting member. The second main reflecting surface transmits a part of light, And a third auxiliary reflecting member is disposed in a direction opposite to the vision with respect to the main reflecting member, the vision includes light reflected through the second main reflecting surface, reflection reflected by the second main reflecting surface, And is then reflected by the third auxiliary reflection member to capture light transmitted through the second main reflection surface.

According to the illumination of the first illumination and the second illumination, the vision captures one of the position of the barrel and the position of the lens through the reflection of the second main reflection surface, Reflection of the slope, reflection of the third auxiliary reflection member, and transmission of the second main reflection surface.

The display unit displays the first image obtained by photographing the position of the barrel and the second image obtained by photographing the position of the lens in a superimposed manner.

The control unit controls the position of the lens by moving the pick-up member so that the optical axis of the lens coincides with the central axis of the lens barrel taken in the vision.

According to another aspect of the present invention, there is provided a centering method for a camera lens centering device, comprising: a main reflecting member disposed between a lens barrel having a hollow space formed therein and a lens spaced from an upper portion of the lens barrel; A pickup member for supporting the lens; A vision for photographing the position of the lens barrel positioned at the lower portion and the lens located at the upper portion through the main reflection member; A center axis of the lens barrel and an optical axis of the lens barrel, the center axis of the barrel being photographed by the vision and displayed through the screen unit, And the position of the lens is adjusted by using the pick-up member so as to coincide with each other.

According to the camera lens centering device and the centering method of the present invention as described above, the following effects can be obtained.

Since the lens and the lens barrel are simultaneously photographed at the same time in the first vision and the second vision by the main reflecting member, the absolute coordinates of the lens and the lens barrel can be photographed with the same optical axis. To be centered.

This can improve the uniform assembly and assembly speed and efficiency of the lens.

1 is a configuration diagram of a camera lens centering device according to a first embodiment of the present invention;
2 is a front view schematically showing a camera lens centering device according to a first embodiment of the present invention.
3 is a plan view schematically showing a first image of a barrel taken by a first vision according to the first embodiment of the present invention and a second image of a lens photographed by the second vision,
4 is an explanatory view showing a process of aligning the central axis of the lens barrel and the optical axis of the lens according to the first embodiment of the present invention,
5 is a configuration diagram of a camera lens centering device according to a second embodiment of the present invention.
6 is a flowchart illustrating an operation of the camera lens centering device according to the second embodiment of the present invention.

First Embodiment

2 is a front view of a camera lens centering device according to a first embodiment of the present invention, and FIG. 3 is a front view of the camera lens centering device according to the first embodiment of the present invention. FIG. 4 is a plan view schematically showing a first image of the lens barrel taken by the first vision according to the first embodiment of the present invention and a second image of the lens taken by the second vision, And the optical axis of the lens is aligned with the center axis of the lens barrel.

1 and 2, a camera lens centering device according to the present invention includes a main reflecting member 10, a pickup member 20, a first vision 31, a second vision 32, A screen unit 40, and the like.

The main reflecting member 10 is disposed between a lens barrel 71 having a hollow space formed therein and a lens 72 spaced from the upper portion of the lens barrel 71.

The main reflecting member 10 transmits the position of the lens barrel 71 located at the lower side to the first vision 31 and transmits the position of the lens 72 located at the upper side to the second vision 32 do.

Although not shown in the drawing, the main reflecting member 10 is connected to the first and second visions 31 and 32 through a separate bracket or the like.

In this embodiment, the main reflecting member 10 is formed in a transparent hexahedron through which light is transmitted.

A first main reflecting surface 11 is formed in the main reflecting member 10 in a diagonal direction.

The pick-up member 20 supports the lens 72 such that the lens 72 is spaced apart from the upper part of the main barrel 71 and the main reflecting member 10.

The pick-up member 20 has a structure capable of moving in the horizontal direction. A more detailed structure of the pick-up member 20 is sufficient by using the structure of a conventional known pick-up device, and a detailed description thereof will be omitted.

The first vision 31 and the second vision 32 are each composed of a camera or the like.

3 (a), the first vision unit 31 photographs the position of the lens barrel 71 positioned at the lower side through the main reflecting member 10 as a first image, 32 photographs the position of the lens 72 located above the main reflecting member 10 as a second image as shown in FIG. 3 (b).

More specifically, the first vision 31 is disposed on the main reflecting member 10 through the first main reflecting surface 11 formed on the main reflecting member 10, The position of the lens 72 positioned above the main reflecting member 10 through the first main reflecting surface 11 is referred to as a second image 32, .

The lens barrel 71 and the lens 72 are disposed on the main reflecting member 10 through one of the first main reflecting surfaces 11 diagonally formed on the main reflecting member 10, The first and second visions 31 and 32 of the main reflecting member 10 are formed by two main reflecting members 10 and the first and second visions 31 and 32 are separated from each other through the main reflecting member 10, 71 and the lens 72 may be photographed.

The screen unit 40 displays the images photographed by the first and second visions 31 and 32 as a monitor and the like.

The display unit 40 may display the first image photographed by the first vision unit 31 and the second image photographed by the second vision unit 32, The second images may be superimposed on each other.

As described above, by displaying the first image and the second image superimposed on each other, it is possible to better understand whether the first image (image of the barrel) and the second image (image of the lens) are mutually coincident.

The present invention may further include a first auxiliary reflection member 51, a second auxiliary reflection member 52, a control unit 60, and the like.

The first auxiliary reflection member 51 is disposed between the first vision 31 and the main reflection member 10 and the second auxiliary reflection member 52 is disposed between the second vision 32 and the main reflection member 10, (10).

1, when the first and second visions 31 and 32 are disposed in parallel with each other, the first vision 31 is disposed between the first auxiliary reflecting member 51 and the first auxiliary reflecting member 51, And the second vision unit 32 photographs the position of the lens barrel 71 located under the main reflecting member 10 through the main reflecting surface 11 and the second auxiliary reflecting member 52 and the first So that the position of the lens 72 located above the main reflecting member 10 is photographed through the main reflecting surface 11.

The first auxiliary reflecting member 51 and the second auxiliary reflecting member 52 are not shown in the drawing but may be attached to the main reflecting member 10 through a separate bracket or the like so that the first and second auxiliary reflecting members 51, 2 < / RTI >

The first vision 31 and the second vision 32 may directly face the main reflecting member 10 without the first auxiliary reflecting member 51 and the second auxiliary reflecting member 52 have.

The controller 60 controls the pick-up member 20 that supports the lens 72.

4, the control unit 60 determines whether the first image photographed by the first vision 31, that is, the central axis C1 of the lens barrel 71 and the second image captured by the second vision 32, The position of the lens 72 is adjusted by moving the pick-up member 20 so that the second image, that is, the optical axis C2 of the lens 72 is aligned.

Hereinafter, a centering method using the camera lens centering device of the present invention having the above-described configuration will be described.

The lens 72 is disposed on the upper side of the lens barrel 71 by using the pickup member 20 in a state where the lower portion of the lens barrel 71 is fixed.

The main reflecting member (10) is disposed between the lens barrel (71) and the lens (72).

At this time, the main reflecting member 10, the first auxiliary reflecting member 51, and the second auxiliary reflecting member 52 are connected to the first and second visions 31 and 32 through separate brackets The main reflecting member 10 may be disposed between the lens barrel 71 and the lens 72.

Although the interval between the lens barrel 71 and the lens 72 is shown to be somewhat large in the figure, the distance between the lens barrel 71 and the lens 72 is narrow, so that the assembly speed can be increased, .

3 (a), when the main reflection member 10 is disposed between the lens barrel 71 and the lens 72 as shown in FIGS. 1 and 2, The second vision unit 31 photographs the position of the barrel 71 through the first main reflecting surface 11, that is, the first image, and the second vision unit 32, as shown in FIG. 3 (b) 1, that is, the second image, through the first main reflecting surface 11. [

That is, in the present invention, the positions of the lens barrel 71 and the lens 72 can be photographed at the same time.

The first and second images photographed in this way are displayed externally through the screen unit 40 and are superimposed on each other as shown in FIG.

If the center axis C1 of the lens barrel 71 as the first image and the optical axis C2 of the lens 72 as the second image are mutually inconsistent as shown in Fig. 4 (a) The position of the lens 72 is moved in the horizontal direction by using the pick-up member 20 while viewing the screen unit 40 so that the center axis of the lens barrel 71 C1 and the optical axis C2 of the lens 72 coincide with each other.

Thus, the position of the lens 72 to be assembled to the lens barrel 71 can be adjusted more accurately.

When the pick-up member 20 is automatically operated, the controller 60 operates the pick-up member 20 so that the optical axis C2 of the lens 72 is aligned with the central axis of the lens barrel 71, (C1).

When the main reflecting member 10 is adjusted between the lens 72 and the lens barrel 71 so that the center axis C1 of the lens barrel 71 is aligned with the optical axis C2 of the lens 72, .

Then, the lens 72 is inserted into the lens barrel 71 by using the pick-up member 20 to be assembled.

The present invention can confirm the absolute coordinate values of the lens 72 and the lens barrel 71 assembled in real time through the correction of the position of the lens 72, It can be centered easily with the center axis C1.

Second Embodiment

FIG. 5 is a configuration diagram of a camera lens centering device according to a second embodiment of the present invention, and FIG. 6 is an operation and a degree of a camera lens centering device according to a second embodiment of the present invention.

5 and 6, the camera lens centering device of the present invention includes a main reflecting member 10, a pickup member 20, a vision 30, a third auxiliary reflecting member 53, A display unit 40, a first illumination unit 81, a second illumination unit 82, a control unit 60, and the like.

The main reflecting member 10 is disposed between a lens barrel 71 having a hollow space formed therein and a lens 72 spaced from the upper portion of the lens barrel 71.

The main reflecting member 10 transmits the position of the lens 72 located at the upper or the lower position of the lens barrel 71 to the vision 30.

Although not shown in the drawing, the main reflecting member 10 is connected to and supported by the vision 30 through a separate bracket or the like.

In this embodiment, the main reflecting member 10 is formed in a transparent hexahedron through which light is transmitted.

A second main reflecting surface (12) is formed diagonally inside the main reflecting member (10).

The second main reflecting surface 12 has a characteristic of transmitting a part of incident light and reflecting a part of light.

The pickup member 20 supports the lens 72 so that the lens 72 is spaced apart from the upper portion of the main barrel 71 and the main reflecting member 10, , And a detailed description thereof will be omitted.

The vision 30 is a camera or the like and photographs the position of the lens barrel 71 located at the lower portion and the position of the lens 72 located at the upper portion through the main reflecting member 10.

In the present embodiment, the vision 30 is different from the first embodiment.

The vision 30 reflects the light reflected by the second main reflection surface 12 and the third auxiliary reflection member 53 after being reflected by the second main reflection surface 12, Reflected by the second main reflection surface 12 and captures light transmitted through the second main reflection surface 12.

The third auxiliary reflection member 53 is disposed in a direction opposite to the vision 30 with respect to the main reflection member 10.

The third auxiliary reflecting member 53 reflects the light reflected by the second main reflecting surface 12 back to the main reflecting member 10.

The light reflected by the third auxiliary reflection member 53 is transmitted through the second main reflection surface 12 of the main reflection member 10 and enters the vision 30 located on the opposite side.

The display unit 40 displays the image photographed by the vision unit 30 and displays a first image obtained by photographing the position of the lens barrel 71 and a second image obtained by photographing the position of the lens 72 2 images are superimposed and displayed.

The screen unit 40 is the same as the first embodiment, and a detailed description thereof will be omitted.

In the second embodiment, the first illumination 81 and the second illumination 82 are configured differently from the first embodiment.

The first illumination (81) is disposed adjacent to the barrel (71) to irradiate the barrel (71) with light.

The second illumination (82) is disposed adjacent to the lens (72) to irradiate the lens (72) with light.

It is difficult to simultaneously capture the position of the lens barrel 71 and the position of the lens 72 with one vision 30.

Therefore, when the position of the barrel 71 is to be photographed, the first illumination 81 for illuminating the barrel 71 is turned on and the second illumination 82 is turned off.

When the position of the lens 72 is to be photographed, the first illumination light 81 is turned off and the second illumination light 82 illuminating the lens 72 is turned on.

At this time, it is preferable that the lens barrel 71 and the lens 72 are arranged in a somewhat dark place.

The vision 30 is moved in the direction of the first illumination 81 and the illumination of the second illumination 82 in accordance with the position of the lens barrel 71 and the position of the lens 72, (12) and the other one is reflected through the second main reflection surface (12), the reflection of the third auxiliary reflection member (53) and the second main reflection surface (12) Take a picture.

In this embodiment, the position of the lens barrel 71 is photographed through the reflection of the second main reflecting surface 12, and the position of the lens 72 is detected by the reflection of the second main reflecting surface 12 3 reflection through the auxiliary reflection member 53 and transmission through the second main reflection surface 12.

The control unit 60 moves the pickup member 20 so that the center axis C1 of the lens barrel 71 captured by the vision 30 and the optical axis C2 of the lens 72 coincide with each other, The position of the lens 72 is adjusted.

Also, the controller 60 controls the first illumination 81 and the second illumination 82 to be turned on and off as well.

Hereinafter, a centering method using the camera lens centering device of the present invention having the above-described configuration will be described.

The lens 72 is disposed on the upper side of the lens barrel 71 by using the pickup member 20 in a state where the lower portion of the lens barrel 71 is fixed.

The main reflecting member (10) is disposed between the lens barrel (71) and the lens (72).

The main reflecting member 10 is connected to the vision 30 via a separate bracket and the main reflecting member 10 may be disposed between the lens barrel 71 and the lens 72. [ have.

5, in a state where the main reflecting member 10 is disposed between the lens barrel 71 and the lens 72, the first illumination 81, as shown in FIG. 6 (a) And the second light 82 is turned off.

The light emitted from the first illumination light 81 illuminates the barrel 71 and the light reflected by the barrel 71 is reflected by the second main reflection surface 12, (30).

Therefore, the vision 30 can acquire the first image of the position of the barrel 71.

At this time, since the second illumination 82 is turned off, the lens 72 does not receive light from the lens 72, so that the vision 30 captures only the position of the lens barrel 71, And transmits it to the screen unit 40.

In order to photograph the position of the lens 72, the first illumination 81 is turned off and the second illumination 82 is turned on as shown in FIG. 6 (b).

The light emitted from the second illumination light 82 illuminates the lens 72 and the light reflected by the lens 72 is reflected by the second main reflection surface 12, Is incident on the vision (30) through reflection of the auxiliary reflection member (53) and transmission of the second main reflection surface (12).

Accordingly, the vision 30 can acquire a second image of the position of the lens 72.

At this time, since the first illumination light 81 is turned off in the lens barrel 71, light is not introduced into the lens barrel 71, so that the vision 30 captures only the position of the lens 72, And transmits it to the screen unit 40.

The first and second images photographed in this way are displayed externally through the screen unit 40 and are superimposed on each other as shown in FIG.

The method of aligning the center axis C1 of the lens barrel with the optical axis C2 of the lens is the same as that described in the first embodiment, and a detailed description thereof will be omitted.

As described above, in the second embodiment, the position of the lens barrel 71 and the position of the lens 72 are photographed through one vision 30 in comparison with the first embodiment, and the center axis C1 of the lens barrel The optical axis C2 of the lens can be adjusted to coincide with each other.

The camera lens centering device and the centering method thereof according to the present invention are not limited to the above-described embodiments, and various modifications can be made within the scope of the technical idea of the present invention.

10: main reflecting member, 11: first main reflecting surface, 12: second main reflecting surface,
20: pickup member,
30: vision, 31: first vision, 32: second vision,
40:
51: first auxiliary reflecting member, 52: second auxiliary reflecting member, 53: third auxiliary reflecting member,
60:
C1: central axis of the lens barrel, C2: optical axis of the lens.
71: barrel, 72: lens,
81: first illumination, 82: second illumination

Claims (10)

A main reflecting member disposed between the lens barrel in which an empty space is formed and the lens spaced from the upper portion of the lens barrel;
A pickup member for supporting the lens;
A vision for photographing the position of the lens barrel positioned at the lower portion and the lens located at the upper portion through the main reflection member;
And a display unit for displaying an image photographed by the vision unit. The method according to claim 1,
The above-
A first vision for photographing the position of the barrel through the main reflecting member;
And a second vision for photographing the position of the lens through the main reflecting member,
Wherein the display unit displays the images photographed in the first and second visions. The method of claim 2,
Wherein the main reflecting member is formed in a transparent hexahedron through which light is transmitted,
A first main reflecting surface is formed in the main reflecting member in a diagonal direction,
The first vision captures the position of the barrel positioned below the main reflecting member through the first main reflecting surface,
Wherein the second vision images the position of the lens positioned above the main reflection member through the first main reflection surface. The method of claim 3,
A first auxiliary reflection member disposed between the first vision and the main reflection member;
And a second auxiliary reflection member disposed between the second vision and the main reflection member,
Wherein the first and second visions are arranged in parallel,
The first vision captures the position of the barrel positioned below the main reflecting member through the first auxiliary reflecting member and the first main reflecting surface,
Wherein the second vision images the position of the lens positioned above the main reflection member through the second auxiliary reflection member and the first main reflection surface. The method according to claim 1,
A first illuminator for illuminating the barrel with light;
And a second illuminator for illuminating the lens with light,
The vision is made up of one,
Wherein the vision captures the position of the barrel when the first illumination is turned on and the second illumination is turned off and photographs the position of the lens when the first illumination is turned off and the second illumination is turned on A camera lens centering device. The method of claim 5,
Wherein the main reflecting member is formed in a transparent hexahedron through which light is transmitted,
A second main reflecting surface is formed in the main reflecting member in a diagonal direction,
The second main reflecting surface transmits a part of light and reflects a part of light,
A third auxiliary reflection member is disposed in a direction opposite to the vision with respect to the main reflection member,
Wherein the vision reflects light reflected by the second main reflection surface and light reflected by the second main reflection surface and then reflected by the third auxiliary reflection member and transmitted through the second main reflection surface, And the camera lens centering device. The method of claim 6,
According to the illumination of the first illumination and the second illumination, the vision captures one of the position of the barrel and the position of the lens through the reflection of the second main reflection surface, And the second main reflection surface is reflected by the third auxiliary reflection member, and the second main reflection surface transmits the reflection. The method according to claim 2 or 5,
The display unit includes:
Wherein a first image of the position of the barrel is photographed and a second image of the position of the lens is superimposed on the image. The method according to claim 2 or 5,
Further comprising a control unit for controlling the pick-up member,
Wherein,
And the position of the lens is adjusted by moving the pick-up member so that the center axis of the lens barrel photographed by the vision coincides with the optical axis of the lens. A main reflecting member disposed between the lens barrel in which an empty space is formed and the lens spaced from the upper portion of the lens barrel; A pickup member for supporting the lens; A vision for photographing the position of the lens barrel positioned at the lower portion and the lens located at the upper portion through the main reflection member; And a screen for displaying an image photographed by the vision, the centering method comprising:
Wherein the position of the lens is adjusted using the pick-up member so that the center axis of the barrel, which is photographed by the vision and displayed through the screen unit, coincides with the optical axis of the lens.

Images