KR20070107845A - Camera lens decreasing aberration - Google Patents

Abstract

A camera lens for decreasing aberration is provided to correct the aberration of transmitted light efficiently by having a plurality of thin films which has reflectivity different depending on a bend radius of a lens body, thereby having advantages of both a spherical lens and an aspheric lens. A camera lens for decreasing aberration includes a lens body(1). A plurality of thin film layers(2) are attached on a surface of the lens body. The thin film layers have various refractive indexes to compensate aberration of transmitted light. The thin film layers are attached on a surface of the lens body by arranging with a concentric circle shape. Each refractive index of the thin film layers attached at a center portion of the lens body is higher than that of thin film layers attached at a periphery portion of the lens body.

Description

Camera lens decreasing aberration for reducing aberration

1 is a side view schematically showing a refraction of light passing through a conventional spherical lens.

2 is a side view schematically showing the refraction of light passing through the conventional aspherical lens.

3 is a perspective view showing the configuration of a lens for a camera module according to an embodiment of the present invention.

4 is a side view schematically showing the refraction of light passing through the lens for the camera module according to an embodiment of the present invention.

* Description of symbols on main parts of the drawings *

10-Lens for Camera Module 1-Lens

2-film layer

The present invention relates to a lens for a camera module.

In general, the camera module is provided with a camera lens as an important factor affecting the image quality as much as a CCD, such a camera lens is used by using one convex lens or a combination of several convex and concave lenses.

Such a camera lens is an object that forms an optical image by smoothly processing a surface of a transparent material to collect or diverge light from an object, and may be classified into a spherical lens and an aspheric lens.

1 is a side view schematically showing the refraction of light passing through the conventional spherical lens, Figure 2 is a side view schematically showing the refraction of light passing through the conventional aspherical lens.

As shown in FIG. 1, the spherical lens 100 is formed by grinding the surface of the lens finely into spherical surfaces. Since the spherical lens 100 is most used because it is easy to process and inexpensive to manufacture, the spherical lens 100 has light When passing through the lens, an aberration occurs that focuses at a shorter distance than light passing through the periphery of the lens, making it difficult to expect the sharpness of the picture.

In order to solve this problem, the limited one is an aspherical lens.

As shown in FIG. 2, the aspherical lens 200 may mean that the surface of the lens is not spherical, and the focal lens may be more accurately focused than the spherical lens by adjusting the thickness and the bending rate of the lens to reduce aberration.

However, although the conventional aspherical lens 100 can reduce aberrations compared to the spherical lens 100, the refractive index is limited, and processing is very difficult, resulting in a high manufacturing cost.

Accordingly, the present invention has been made to solve the above-mentioned conventional problems, it is an object of the present invention to provide a lens for a camera module for aberration reduction to have both the advantages of the spherical lens and the advantages of the aspherical lens.

The present invention comprises a lens body and a plurality of thin film layers attached to the surface of the lens body and configured to have different refractive indices according to the bending radius of the lens body to correct aberration of transmitted light. do.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings such that those skilled in the art may easily implement the present invention.

3 is a perspective view showing a configuration of a lens for a camera module according to an embodiment of the present invention, Figure 4 is a side view schematically showing the refraction of light passing through the lens for the camera module according to an embodiment of the present invention.

As shown in FIG. 3, the camera module lens 10 includes a thin film layer 2 formed on a surface of the lens body 1 to correct aberration of transmitted light. It is composed.

Since the lens body 1 is easy to process and inexpensive, spherical lenses which are generally used are used, and aspherical lenses may be used according to embodiments.

In the present invention, the lens body 1 is shown as being composed of a convex spherical lens, but is not limited to this, it is of course applicable to concave spherical lenses.

A predetermined thin film layer 2 is formed on the surface of the lens body 1 for the purpose of correcting aberration of transmitted light.

This is part of the characteristics of the present invention, that is, since the spherical lens has a spherical surface, the focal position of the light passing through the central part and the peripheral part is changed, and thus aberration occurs.

Therefore, the aberration can be corrected by forming a plurality of thin film layers 2 configured to have different indices (refractive indexes) on the surface of the lens body 1 to correct this.

As shown in FIG. 1, the thin film layer 2 is formed in an arrangement of concentric circles according to the radius of curvature of the lens body 1, and the refractive index of each thin film layer 2 is It is desirable to form in an array that is gradually lowered toward the periphery from the center.

In addition, the thin film layer 2 may be formed of various organic compounds, vinyl, synthetic resins, or a combination thereof, and may be thin filmed by vacuum deposition on the surface of the lens body 1.

In the lens 10 for the camera module configured as described above, as shown in FIG. 4, the thin film layer 2 deposited on the surface of the lens body 1 has a high index at the center portion and a gradually lower index toward the periphery portion. Since the transmitted light can reduce aberrations due to different refractive indices of the thin film layer 2 deposited on the center and periphery of the lens body 1, the focus can be corrected accordingly. will be.

In the above description, the embodiment in which the thin film layer 2 is formed in the spherical lens has been described. However, the present invention can also be applied to an aspherical lens.

That is, by forming a thin film layer having different refractive indices on the surface of the aspherical lens in the form as described above, it is possible to improve aberration.

As mentioned above, although this invention was demonstrated in detail using the preferable embodiment, the scope of the present invention is not limited to a specific embodiment, Comprising: It should be interpreted by the attached Claim. In addition, those skilled in the art should understand that many modifications and variations are possible without departing from the scope of the present invention.

As described above, according to the lens for a camera module according to the present invention, by depositing a plurality of thin film layers configured to have different refractive indices on the surface of the lens body can be expected to be more efficient than conventional aspherical lenses, spherical lens Because of the use of the present invention, the design freedom is improved and the manufacturing cost is low.

Claims (6)

With the lens body, A lens for a camera module for reducing aberration, comprising a plurality of thin film layers attached to a surface of the lens body and configured to have different refractive indices according to the bending radius of the lens body to correct aberration of transmitted light. . The method of claim 1, The plurality of thin film layer is a lens for a camera module for aberration reduction that is attached to the surface of the lens body in the form of concentric circles. The method of claim 2, The thin film layer is a lens for a camera module for reducing aberration that is configured such that the refractive index is gradually lowered toward the peripheral portion from the center of the lens body. The method of claim 1, The thin film layer is a camera module lens for aberration reduction that is vacuum deposited on the surface of the lens body. The method of claim 1, The lens body is a lens for a camera module for reducing aberration that is composed of a spherical lens. The method of claim 1, The lens body is a lens for a camera module for reducing aberration that is composed of aspherical lens.

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