KR20110085137A - Tilt adjusting apparatus for optical element - Google Patents

Abstract

PURPOSE: A slope adjusting device of an optical element is provided to precisely and steadily adjust a slope of the optical device about an optical axis. CONSTITUTION: A main body member(10) includes a screw groove(12) in which screw unites. An optical element supporting plate includes a penetration hole in which screw passes through. The optical element supporting plate unites with the main body member by a screw uniting a screw groove through the penetration hole. A plate spring(40) has a projection which is more projected than a main body to elastically support the optical element support plate.

Description

Tilt adjusting apparatus for optical element

The present invention relates to a device for adjusting the inclination of the optical element, and more particularly, the inclination of the optical element can be adjusted by using a leaf spring fixed at one end of the optical element, thereby minimizing the space required for installation. It relates to a tilt adjusting device.

In an imaging device having an imaging element such as a CD and optical elements such as a lens, the optical elements must be installed in the correct position. For example, when the image pickup device is installed at the rear end of the lens by using a screw, there is a problem in that the positional accuracy of the image pickup surface required for realizing excellent optical performance cannot be secured. The phenomenon that the positional accuracy of the imaging surface of the imaging device becomes poor is mainly caused by the tilting or misalignment of the imaging device with respect to the optical axis.

To solve this problem, the inclination or misalignment of the CCD image pickup device with respect to the optical axis is corrected when the image pickup device is fixed to the support plate or when the support plate with the image pickup device is attached to a barrel having a lens.

U.S. Patent No. 4,972,079 relates to a mounting apparatus of an image pickup device, and a technique of mounting the image pickup device in a positional adjustable position by combining a screw and a compression spring is disclosed. According to this technique, since the support plate for supporting the image pickup device is elastically supported by the compression spring, the position of the image pickup device is adjusted by adjusting the screw. However, such a mounting device requires an additional space for installing the compression spring, and additional components for supporting the compression spring have a problem in that the overall configuration is complicated.

It is an object of the present invention to provide an inclination adjusting device of an optical element capable of precisely and stably adjusting the inclination of the optical element with respect to the optical axis.

Another object of the present invention is to minimize the space required for the installation of the tilt adjustment device of the optical element.

The present invention provides a tilt adjusting device for the optical element, in which the support plate to which the optical element is coupled is coupled to the main body portion using screws, and the support plate is elastically supported by the leaf spring of the main body portion, thereby reducing the overall thickness.

An inclination adjusting device for an optical element according to the present invention includes a main body portion having a screw groove to which the screw is coupled, and a screw hole having a through hole through which the screw is coupled to the main body portion by a screw coupled to the screw groove through the through hole. A plate having an optical element supporting plate, an optical element coupled to the optical element supporting plate, and one end fixed to the main body portion, the other end of which is in contact with the optical element supporting plate and protruding from the main body portion to elastically support the optical element supporting plate. With a spring.

In the present invention, the leaf spring may be integrally formed with the body portion, and the edge of the leaf spring except one end of the leaf spring fixed to the body portion may be spaced apart from the body by a predetermined distance.

In the present invention, the leaf spring may be arranged such that the projection is adjacent to the screw groove.

In the present invention, the main body portion may be provided with a plurality of screw grooves, the leaf spring may be provided with a plurality of corresponding to the number of screw grooves.

In the present invention, the optical element may be an image sensor that takes an image and converts it into an electrical signal.

In the present invention, the optical element may be a lens assembly having at least one lens.

As described above, the inclination adjusting device of the optical element of the present invention is precisely and stably tilted because the plate spring, one end of which is fixed to the main body, is elastically deformed by the pressing force transmitted by the coupling action of the screw. Can be adjusted. In addition, the use of a leaf spring can elastically support the support plate to which the optical elements are coupled, thereby greatly reducing the overall thickness and minimizing the space required for installation.

1 is an exploded perspective view showing a coupling relationship of an inclination adjustment device of an optical element according to an embodiment of the present invention.
FIG. 2 is a perspective view showing the assembled state of the tilt adjusting device of the optical element of FIG. 1. FIG.
FIG. 3 is a perspective view illustrating the rear surface of the inclination adjusting device of the optical element of FIG. 2.
4 is a side cross-sectional view of the tilt adjusting device of the optical element of FIG. 2.
5 is an operating state diagram showing a state of adjusting the inclination of the inclination adjusting device of the optical element of FIG.

Hereinafter, with reference to the embodiments of the accompanying drawings, the configuration and operation of the tilt adjustment device of the optical element according to the present invention will be described in detail.

1 is an exploded perspective view showing a coupling relationship of a tilt adjusting device of an optical element according to an embodiment of the present invention, and FIG. 2 is a perspective view showing an assembled state of the tilt adjusting device of the optical element of FIG. 1.

The inclination adjustment device of the optical element according to the embodiment shown in Figs. 1 and 2 is a device for adjusting the inclination of an image sensor assembly mounted on an imaging device such as a digital camera or a digital camcorder.

The inclination adjusting device of the optical element includes a main body portion 10, a support plate 20 coupled to the main body portion 10 by screws, an image sensor 30 which is an optical element coupled to the support plate 20, and a support plate ( And a leaf spring 40 for elastically supporting 20).

The image sensor 30 is a photoelectric conversion element that converts and outputs external image light incident to an electrical signal such as a charge coupled device (CCD) or a complementary metal oxide semiconductor (CMOS).

The type of optical element coupled to the support plate 20 is not limited to the image sensor 30, and other types of optical elements such as a lens assembly including lenses or a prism that refracts light may be used.

The main body 10 is a component for coupling to the support plate 20 supporting the image sensor 30 and to a housing (not shown) of the imaging device. The main body 10 may include a material such as synthetic resin or metal. The main body portion 10 is formed with screw grooves 12 into which the screws 51 can be screwed. In addition, the main body 10 has a receiving hole 15 in which the image sensor 30 is accommodated.

The support plate 20 has through-holes 21 through which the screws 51 pass, and may be coupled to the main body portion 10 by the screws 51. The support plate 20 performs a function of supporting the image sensor 30 which is an optical element. The support plate 20 may be coupled to the main body 10, and the coupling angle with respect to the main body 10 may be changed due to the action of the leaf spring 40 and the screw 51. By changing the coupling angle of the support plate 20 with respect to the body portion 10, the coupling angle of the image sensor 30 with respect to the body portion 10 may also be changed.

The leaf springs 40 are installed in the main body 10. In the tilt adjusting device according to the embodiment shown in FIGS. 1 and 2, the leaf springs 40 are integrally formed with the main body 10.

One end 41 of the leaf spring 40 is integrally formed with the body portion 10 and is fixed to the body portion 10. The leaf spring 40 extends substantially parallel from the one end 41 along the extending direction of the main body 10. The other end of the leaf spring 40 is formed with a projection 42 for elastically supporting the support plate 20. The protrusion 42 may contact the support plate 20 by protruding outward from the main body 10.

FIG. 3 is a perspective view illustrating the rear surface of the inclination adjusting device of the optical element of FIG. 2.

A gap 43 of a predetermined interval is formed between the edge of the leaf spring 40 and the body portion 10. Therefore, the edge of the leaf spring 40 except for one end 41 of the leaf spring 40 is spaced apart from the body 10 by a predetermined interval. Since one end 41 of the leaf spring 40 is fixed to the main body 10, when the pressing force is transmitted from the front of the main body 10 to the protrusion 42, the other end of the leaf spring 40 is the main body 10. It may be slightly bent toward the rear of the.

Therefore, according to the inclination adjusting device of the optical element of the above-described configuration, in order to elastically support the support plate 20 having the image sensor 30 to the main body portion 10, an element such as a compression spring that takes up a lot of space is required. Since there is no need to use, there is an advantage that the device for adjusting the tilt of the optical element can be implemented in a very thin.

The present invention is not limited by the formation structure of the leaf springs 40 and the body portion 10, and the above-described configuration by modifying the above-described configuration to attach the plate springs manufactured separately from the body portion 10 to the body portion It can also be used.

4 is a side cross-sectional view of the tilt adjusting device of the optical element of FIG. 2, and FIG. 5 is an operating state diagram illustrating a state of adjusting the tilt of the tilt adjusting device of the optical element of FIG. 4.

4 is a state in which all the screws 51 are screwed to the thread groove 12 of the body portion 10 to the same depth, so that the support plate 20 is placed in a state substantially parallel to the body portion 10. In this state, the angle between the surface Sp of the image sensor 30 and the optical axis Co is represented by θ ₁ .

The leaf spring 40 may be disposed such that the protrusion 42 is adjacent to the screw groove 12. Therefore, when the screw 51 rotates to penetrate the through-hole 21 of the support plate 20 and move deeper into the screw groove 12 of the main body portion 10, the screw 51 acts to engage the screw. The support plate 20 is pressed toward the main body 10.

5 shows that the pressing force acts on the projection 42 by rotating the upper screw 51 in the drawing. As such, when the supporting plate 20 is pressed by the main body 10 and the pressing force is transmitted to the protrusion 42 of the leaf spring 40, the leaf spring 40 moves toward the rear of the main body 10 by a predetermined distance t. Can be bent as much. At this time, the angle that the surface (Sp) of the image sensor 30 constituting the optical axis (Co) is changed to _{θ 2 (θ 2 <θ 1} ). By appropriately rotating the screws 51 in this manner, the inclination of the image sensor 30 with respect to the optical axis can be conveniently, stably and precisely adjusted.

Although the present invention has been described with reference to the above-described embodiments, these are merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible. Therefore, the true technical protection scope of the present invention will be defined by the appended claims.

10: main body 40: leaf spring
12: screw groove 41: first
20: support plate 42: projection
21: through hole 43: play
30: image sensor 51: screw
15: receiving hole

Claims (6)

A main body unit having a screw groove to which the screw is coupled;
An optical element support plate having a through hole through which the screw penetrates and coupled to the main body by the screw coupled to the screw groove through the through hole;
An optical element coupled to the optical element support plate; And
One end is fixed to the main body portion, the other end is in contact with the optical element support plate and a plate spring having a projection protruding from the main body portion to elastically support the optical element support plate; Device. The method of claim 1,
And the leaf spring is integrally formed with the body portion, and the edge of the leaf spring except one end of the leaf spring fixed to the body portion is spaced apart from the body by a predetermined distance. The method of claim 1,
And the leaf spring is arranged such that the protrusion is adjacent to the screw groove. The method of claim 1,
The main body portion is provided with a plurality of screw grooves, and the leaf spring is provided with a plurality of corresponding to the number of the screw grooves, inclination adjusting apparatus of the optical element. The method of claim 1,
And the optical element is an image sensor that picks up an image and converts it into an electrical signal. The method of claim 1,
And the optical element is a lens assembly having at least one lens.

Images