KR100925625B1 - Imaging Lens and Manufacturing Method Thereof - Google Patents

Abstract

An imaging lens and a method of manufacturing the same are disclosed. The imaging lens has a first curvature on one of one surface and the other, and includes a transparent substrate including at least one curved portion that becomes a lens surface, and a second curvature formed on at least one curved portion. It includes a lens unit having. Accordingly, it is possible to secure a multiple lens surface on the imaging lens, thereby improving the resolution.

Description

Imaging lens and manufacturing method thereof

TECHNICAL FIELD The present invention relates to an imaging lens and a manufacturing method thereof, and more particularly, to an imaging lens having a multiple lens surface and a manufacturing method thereof.

As the pixel size of an image sensor used in recent years becomes smaller and smaller, an imaging device mounted on an imaging device using such an image sensor is also downsized. Accordingly, there is a great difficulty in assembling each imaging device due to the miniaturization of the imaging devices. In order to solve this problem, fabrication of an imaging device by a replication method such as hot embossing and UV embossing, which can be mass-produced and easy to manufacture on a wafer scale, has been made.

1A to 1C are diagrams for explaining a method of manufacturing a conventional imaging lens. Referring to FIG. 1A, first, a resin 12 for lens for forming a lens is coated on a transparent substrate 11. As shown in FIG. 1B, the resin 12 for lens formed on the transparent substrate 11 is pressed in the arrow direction by using the stamp mold 13.

After that, when the stamp mold 13 is separated from the lens resin 12, the lens resin 12 has the same shape as that of the inner side of the stamp mold 13. 12 ') can be replicated. The same method can be applied to the other surface of the transparent substrate 11 to manufacture the imaging lens 10 as shown in FIG. 1C.

The imaging lens 10 may have up to two curved surfaces on the transparent substrate 11 in the lens portion 12 ′ forming region. That is, since the transparent substrate 11 itself is manufactured in parallel, the lens surface is generated only by the lens portion 12 '. Accordingly, there is a limit to improving optical characteristics (eg, resolution) through the lens surface of the lens portion 12 '. In order to solve this problem, it is possible to secure multiple lens surfaces by stacking a plurality of imaging lenses, but there is a problem that it is difficult to miniaturize an optical device by stacking a plurality of imaging lenses.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object of the present invention is to provide an imaging lens having a maximum of four lens surfaces and a manufacturing method thereof by forming a lens portion on a transparent substrate having first and second curved portions. Is in.

According to one or more embodiments of the present invention, an imaging lens includes a first substrate having a first curvature on one of the one surface and the other surface, and includes at least one curved surface portion that becomes a lens surface. And a lens portion formed on the at least one curved portion and having a second curvature. In this case, the first curvature of the curved portion may be smaller than the second curvature of the lens portion, and the first curvature of the curved portion may be larger than the second curvature of the lens portion.

According to another embodiment of the present invention, an imaging lens includes at least one first curved portion having a first curvature on one surface and a second curved portion on the other surface, and at least one or more lens surfaces having a second curvature on the other surface. A transparent substrate having a second curved portion, a first lens portion formed on the at least one first curved portion, and having a third curvature, and formed on the at least one second curved portion, and having a fourth curvature; It includes two lens parts.

In this case, a first curvature of the first curved portion may be greater than a second curvature of the second curved portion. Alternatively, the first curvature of the first curved portion may be smaller than the second curvature of the second curved portion. The first curvature of the first curved portion may be the same as the second curvature of the second curved portion.

The first curvature of the first curved portion and the second curvature of the second curved portion may be smaller than the third curvature of the first lens portion and the fourth curvature of the second lens portion. Alternatively, the first curvature of the first curved portion and the second curvature of the second curved portion may be greater than the third curvature of the first lens portion and the fourth curvature of the second lens portion.

The third curvature of the first lens unit and the fourth curvature of the second lens unit may be the same or may be different.

In the present invention, the first curved portion and the second curved portion may have a concave curved surface. Alternatively, the first curved portion and the second curved portion may have convex curved surfaces. Alternatively, the first curved portion may have one of the concave and convex shapes, and the second curved surface may have a curved surface different from the first curved portion among the concave and convex shapes.

The first lens unit and the second lens unit may be made of any one of an epoxy resin, a silicone resin, and a polyimide resin.

On the other hand, the manufacturing method of the imaging lens according to an embodiment of the present invention, having a first curvature on any one surface and the other surface of the transparent substrate, forming at least one curved surface to be a lens surface, And forming a lens portion having a second curvature on the at least one curved portion. In this case, forming at least one curved portion having a first curvature on one surface of the transparent substrate may form the curved portion by using any one of an etching method and a pressing method.

The forming of the lens unit may include applying a lens resin to a surface on which at least one curved portion of the transparent substrate is formed, and pressing and curing a stamp mold on a surface of the transparent substrate on which the resin resin is coated. The method may include forming a lens unit on the curved portion, and separating the stamp mold from a surface of the transparent substrate on which the lens portion is formed.

According to another aspect of the present invention, there is provided a method of manufacturing an imaging lens, which has a first curvature on one surface on a transparent substrate, forms at least one first curved portion that becomes a lens surface, and has a second curvature on the other surface. Forming at least one second curved portion to be a lens surface, forming a first lens portion having a third curvature on the at least one or more first curved portions, and forming at least one second curved portion on the at least one second curved portion Forming a second lens portion having a four curvature.

In this case, the forming of the first lens unit may include applying a resin for a lens to one surface on which at least one first curved portion of the transparent substrate is formed, on one surface of the transparent substrate to which the resin for resin is applied. Compressing and curing a first stamp mold to form a first lens portion on the first curved portion, and separating the first stamp mold from one surface of the transparent substrate on which the first lens portion is formed. have.

The forming of the second lens unit may include applying the resin for the lens to the other surface on which at least one second curved portion of the transparent substrate is formed, and forming the second lens on the other surface of the transparent substrate to which the resin for resin is applied. And pressing and curing the 2 stamp mold to form a second lens portion on the second curved portion, and separating the second stamp mold from the other surface of the transparent substrate on which the second lens portion is formed. .

The first curvature of the first curved portion and the second curvature of the second curved portion may be smaller than the third curvature of the first lens portion and the fourth curvature of the second lens portion. Alternatively, the first curvature of the first curved portion and the second curvature of the second curved portion may be greater than the third curvature of the first lens portion and the fourth curvature of the second lens portion.

The third curvature of the first lens unit and the fourth curvature of the second lens unit may be the same or different.

In the manufacturing method, the first curved portion and the second curved portion may have a concave curved surface. Alternatively, the first curved portion and the second curved portion may have convex curved surfaces. The first curved portion may have a curved surface of any one of a concave shape and a convex shape, and the second curved surface may have a curved surface different from the first curved portion among the concave shape and the convex shape.

Forming at least one first curved portion having a first curvature on one surface on the transparent substrate, and forming at least one second curved portion having a second curvature on the other surface may be any one of an etching method and a pressing method. The first curved portion and the second curved portion may be formed by using.

According to the present invention, by forming a lens portion on a transparent substrate having a curved portion, it is possible to manufacture an imaging lens having a multiple lens surface. Accordingly, in the case where the lens portions are formed on both surfaces of the transparent substrate, as the maximum four curved surfaces function as the lens surface, the resolution of the imaging lens can be improved.

Further, by forming multiple lens surfaces on one transparent substrate, it is not necessary to use multiple lenses, so that the overall size of the imaging lens can be reduced.

Hereinafter, with reference to the accompanying drawings will be described in detail the present invention.

2A to 2D are diagrams for describing a method of manufacturing an imaging lens, according to an exemplary embodiment. Referring to FIG. 2A, first, a transparent substrate 110 including at least one curved portion 111 having a first curvature is formed on one of one surface and the other surface. Specifically, by using an etching method (wet or dry etching method) or a pressing method on a transparent substrate such as a glass substrate, it is possible to form a curved portion 111 having a concave shape on either surface.

Next, as shown in FIG. 2B, the lens resin 120 is coated on a surface on which at least one curved portion 111a of the transparent substrate 110 is formed. In this case, the lens resin 120 may be made of a thermosetting resin or an ultraviolet curable resin.

Thereafter, as shown in FIG. 2C, the stamp mold 130 is pressed and cured on the surface of the transparent substrate 210 to which the lens resin 120 is coated, and the lens unit 120 is formed on the curved portion 111. Form '). As illustrated in FIG. 2D, the stamp mold 130 may be separated from the transparent substrate 110 on which the lens unit 120 ′ is formed. In this case, the stamp mold 130 is for forming the lens portion 120 ', and a concave pattern is formed at a position corresponding to the curved portion 111 inside. Accordingly, as the lens resin 120 is replicated by the concave pattern of the stamp mold 130, the lens part 120 ′ may be formed. In this case, the lens portion 120 ′ has a curved surface 1a having a second curvature on the boundary surface with the outside.

The imaging lens 100 manufactured according to the above-described method includes two curved surfaces 111 and 1a having a first curvature and a second curvature. Accordingly, even if the lens portion is formed only on one surface of the transparent substrate, two curved surfaces 111 and 1a may be used as the lens surface to improve the resolution of the imaging lens 100.

3A to 3G are views for explaining a method of manufacturing an imaging lens according to another exemplary embodiment of the present invention. Referring to FIG. 3A, first, at least one first curved portion 211a having a first curvature on one surface and a transparent having at least one second curved portion 211b having a second curvature on the other surface The substrate 210 is formed. Specifically, a concave first curved portion 211a and a convex second curved portion 211b are formed by using an etching method (wet or dry etching method) or a pressing method on a transparent substrate such as a glass substrate. It becomes possible. In the case of using the etching method, only the region where the first curved portion 211a is to be formed is etched on one surface of the transparent substrate, and the etching is performed by excluding only the region where the second curved portion 211b is to be formed on the other surface. The substrate 210 can be manufactured.

In the case of using the pressing method, the transparent substrate shown in FIG. 3A is pressed by pressing one surface of the transparent substrate with a pressing mechanism having a convex curved portion, and pressing the other surface of the transparent substrate with a mechanism having the concave curved portion formed. 210 can be manufactured. Meanwhile, the shapes of the first curved portion 211a and the second curved portion 211b manufactured on the transparent substrate 210 are not limited to those shown in FIG. 3A, and a detailed description thereof will be described later.

Thereafter, as illustrated in FIG. 3B, the lens resin 220a is coated on one surface of the at least one first curved portion 211a of the transparent substrate 210. In this case, the lens resin 220a may be formed of a thermosetting resin or an ultraviolet curable resin.

Meanwhile, as shown in FIG. 3C, the first stamp mold 230a is pressed and cured on one surface of the transparent substrate 210 to which the resin for resin 220a is applied to form an image on the first curved portion 211a. The first lens unit 220a 'is formed on the substrate. As illustrated in FIG. 3D, the first stamp mold 230a may be separated from one surface of the transparent substrate 210 on which the first lens unit 220a 'is formed. In this case, the first stamp mold 230a is for forming the first lens portion 220a ', and a concave pattern is formed at a position corresponding to the first curved portion 211a. Accordingly, as the lens resin 220a is replicated by the concave pattern of the first stamp mold 230a, the first lens part 220a ′ may be formed. In this case, the first lens unit 220a 'has a curved surface 2a having a third curvature on the boundary surface with the outside.

Next, referring to FIG. 3E, the structure shown in FIG. 3D is rotated up and down so that the other surface of the transparent substrate 210 on which the second curved portion 211b is formed faces upward. Then, the lens resin 220b is coated on the other surface of the transparent substrate 210 on which the second curved portion 211b is formed. In this case, the lens resin 220b is preferably the same resin as the lens resin 220a shown in Fig. 3B.

Thereafter, as shown in FIG. 3F, the second stamp mold 230b is pressed and cured on one surface of the transparent substrate 210 to which the lens resin 220b is applied to form the second curved portion 211b. The second lens unit 220b 'is formed on the substrate. In addition, the second stamp mold 230b may be separated from the other surface of the transparent substrate 210 on which the second lens unit 220b 'is formed. In this case, the second stamp mold 230b is for forming the second lens portion 220b ', and a concave pattern is formed at a position corresponding to the second curved portion 211b. Accordingly, as the lens resin 220b is replicated by the concave pattern of the second stamp mold 230b, the second lens part 220b 'may be formed. In this case, the second lens unit 220b 'has a curved surface 2b having a fourth curvature on the boundary surface with the outside.

The image pickup device 200 illustrated in FIG. 3F has the first lens portion 220a ′ compared to the first curvature of the first curved portion 211a and the second curvature of the second curved portion 211b. The fourth curvature and the fourth curvature of the second lens unit 220b 'are large. In addition, the first curvature and the second curvature may be the same, and the first curvature may be larger or smaller than the second curvature. In addition, the third curvature and the fourth curvature may also be the same, and the third curvature may be larger or smaller than the fourth curvature.

The imaging lens 200 manufactured according to the above method includes four curved surfaces 211a, 211b, 2a, and 2b having first to fourth curvatures. Accordingly, four curved surfaces 211a, 211b, 2a, and 2b are used as the lens surface, thereby improving the resolution of the imaging lens 200.

4A and 4B illustrate a transparent substrate according to various embodiments applicable to the present invention. The transparent substrate 310 illustrated in FIG. 4A has a first curved portion 311a having a first curvature having a concave shape on one surface thereof, and a second curved portion 311b having a second curvature having a convex shape on the other surface thereof. ) Is formed. That is, both the first curved portion 311a and the second curved portion 311b may be formed in a concave shape. In this case, the first curvature of the first curved portion 311a and the second curvature of the second curved portion 311b may be different or may be the same. This may be achieved by adjusting the degree of etching or the degree of pressing of the first curved portion 311a and the second curved portion 311b when the transparent substrate 310 is manufactured.

In addition, the transparent substrate 410 illustrated in FIG. 4B has a first curved portion 411a having a first curvature having a convex shape on one surface thereof, and a second curved portion having a second curvature having a convex shape on the other surface thereof. 411b is formed. In this case, the first curvature of the first curved portion 411a and the second curvature of the second curved portion 411b may be different or may be the same.

Meanwhile, in the transparent substrates 210, 310, and 410 illustrated in FIGS. 3A, 4A, and 4B, at least one first curved portion 211a, 311a, and 411a has a first curvature. Curvatures of each of the at least one first curved portion 211a, 311a, and 411a may be implemented differently. In addition, the curvature of each of the at least one second curved portion 211b, 311b, and 411b in the transparent substrates 210, 310, and 410 shown in FIGS. 3A, 4A, and 4B may also be implemented differently.

5A to 5C are diagrams illustrating an imaging lens manufactured using the transparent substrate illustrated in FIGS. 4A and 4B. FIG. 5A is a diagram illustrating an embodiment of an imaging lens manufactured using the transparent substrate 310 illustrated in FIG. 4A. Referring to FIG. 5A, the imaging lens 300 may include a transparent substrate 310 having a concave first curved portion 311a and a second curved portion 311b and a first formed on the first curved portion 311a. And a second lens part 320b formed on the first lens part 320a and the second curved part 311b. In this case, the first lens part 320a and the second lens part 320b may be formed in a convex shape on the transparent substrate 310. The imaging lens 300 illustrated in FIG. 5A may be manufactured using the same method as the method illustrated in FIGS. 3B to 3G, except that different types of transparent substrates 310 are used.

In the imaging lens 300, the first curved portion 311a has a first curvature, and the second curved portion 311b has a second curvature. In addition, the first lens unit 320a has a curved surface 3a having a third curvature, and the second lens unit 320b has a curved surface 3b having a fourth curvature. In this case, the first curvature and the second curvature of the first curved portion 311a and the second curved portion 311b are the third and fourth curvatures of the first lens portion 320a and the second lens portion 320b. It can be implemented smaller than the curvature.

FIG. 5B is a diagram illustrating another embodiment of an imaging lens manufactured using the transparent substrate 310 shown in FIG. 4A. Referring to FIG. 5B, the imaging lens 500 may include a transparent substrate 310 having a concave first curved portion 311a and a second curved portion 311b and a first formed on the first curved portion 311a. And a second lens part 330b formed on the first lens part 330a and the second curved surface part 311b. In this case, the first lens unit 330a and the second lens unit 330b are formed in a concave shape on the transparent substrate 310. This may be implemented by applying a lens resin (not shown) on the transparent substrate 310 and then pressing a stamp mold (not shown) having a convex pattern.

In the imaging lens 500, the first curved portion 311a has a first curvature, and the second curved portion 311b has a second curvature. In addition, the first lens unit 330a has a curved surface 3c having a third curvature on the boundary surface with the outside, and the second lens portion 330b has a curved surface 3d with a fourth curvature on the boundary surface with the outside Has In this case, the first curvature and the second curvature of the first curved portion 311a and the second curved portion 311b are the third and fourth curvatures of the first lens portion 330a and the second lens portion 330b. It can be implemented larger than the curvature.

FIG. 5C is a diagram illustrating an embodiment of an imaging lens manufactured using the transparent substrate 410 illustrated in FIG. 4B. Referring to FIG. 5C, the imaging lens 400 may include a transparent substrate 410 having a convex first curved portion 411a and a second curved portion 411b, and an agent formed on the first curved portion 411a. And a second lens portion 420b formed on the first lens portion 420a and the second curved portion 411b. In this case, the first lens unit 420a and the second lens unit 420b are formed in a convex shape on the transparent substrate 410. The imaging lens 400 illustrated in FIG. 5C may be manufactured using the same method as the method illustrated in FIGS. 3B to 3G except that the transparent substrate 410 having a different shape is used.

In the imaging lens 400, the first curved portion 411a has a first curvature, and the second curved portion 411b has a second curvature. In addition, the first lens unit 420a has a curved surface 4a having a third curvature on the boundary surface with the outside, and the second lens portion 420b has a curved surface 4b having a fourth curvature on the boundary surface with the outside Has In this case, the first curvature and the second curvature of the first curved portion 411a and the second curved portion 411b are the third and fourth curvatures of the first lens portion 420a and the second lens portion 420b. It can be implemented smaller than the curvature.

As shown in FIGS. 3G and 5A to 5C, the imaging lenses 200, 300, 400, and 500 provided in the present invention have a maximum of four curved surfaces, and the four curved surfaces function as lens surfaces. Accordingly, by implementing the imaging lens having a multiple lens surface, it is possible to improve the resolution of the imaging lens. In addition, since it is possible to manufacture a high resolution imaging device using a smaller number of imaging lenses, the size of the imaging device can be reduced.

While the above has been shown and described with respect to preferred embodiments of the invention, the invention is not limited to the specific embodiments described above, it is usually in the technical field to which the invention belongs without departing from the spirit of the invention claimed in the claims. Various modifications can be made by those skilled in the art, and these modifications should not be individually understood from the technical spirit or the prospect of the present invention.

1A to 1C are views for explaining a manufacturing method of a conventional imaging lens,

2A to 2D are views for explaining a method of manufacturing an imaging lens according to an embodiment of the present invention;

3A to 3G are views for explaining a method of manufacturing an imaging lens according to another embodiment of the present invention;

4A and 4B illustrate a transparent substrate according to various embodiments applicable to the present invention, and

5A to 5C are diagrams illustrating an imaging lens manufactured using the transparent substrate illustrated in FIGS. 4A and 4B.

Explanation of symbols on the main parts of the drawings

100, 200, 300, 400, 500: imaging lens

110: transparent substrate

111: curved portion 211a: first curved portion

211: second curved portion 120 ': lens portion

220a ': first lens unit 220b': second lens unit

Claims (29)

A transparent substrate having a first curvature on one of one surface and the other surface, and including at least one curved portion that becomes a lens surface; And, And a lens unit formed on the at least one curved surface unit and having a second curvature. The method of claim 1, The first curvature of the curved portion is smaller than the second curvature of the lens portion. The method of claim 1, The first curvature of the curved portion is larger than the second curvature of the lens portion. A transparent substrate having a first curvature on one surface and at least one first curved portion serving as a lens surface, and a second curvature on the other surface and comprising at least one second curved portion serving as a lens surface; A first lens part formed on the at least one first curved part and having a third curvature; And, And a second lens portion formed on the at least one second curved portion and having a fourth curvature. The method of claim 4, wherein The first curvature of the first curved portion is greater than the second curvature of the second curved portion. The method of claim 4, wherein The first curvature of the first curved portion is smaller than the second curvature of the second curved portion. The method of claim 4, wherein And the first curvature of the first curved portion is the same as the second curvature of the second curved portion. The method of claim 4, wherein The first curvature of the first curved portion and the second curvature of the second curved portion, And a third curvature of the first lens unit and a fourth curvature of the second lens unit. The method of claim 4, wherein The first curvature of the first curved portion and the second curvature of the second curved portion, And a third curvature of the first lens unit and a fourth curvature of the second lens unit. The method of claim 4, wherein And a third curvature of the first lens unit and a fourth curvature of the second lens unit are the same. The method of claim 4, wherein And the third curvature of the first lens portion and the fourth curvature of the second lens portion are different. The method of claim 4, wherein And the first curved portion and the second curved portion have a concave curved surface. The method of claim 4, wherein And the first curved portion and the second curved portion have a convex curved surface. The method of claim 4, wherein And the first curved portion has one curved surface among concave and convex shapes, and the second curved portion has a curved surface different from the first curved portion among concave and convex shapes. The method of claim 4, wherein The first lens unit and the second lens unit, An imaging lens comprising any one of a thermosetting resin and an ultraviolet curable resin. Forming at least one curved portion having a first curvature on one of the one surface and the other surface of the transparent substrate, the at least one curved surface being a lens surface; And, And forming a lens portion having a second curvature on the at least one curved surface portion. The method of claim 16, Forming at least one curved portion having a first curvature on one surface of the transparent substrate, The curved part is formed using either an etching method or a pressing method, The manufacturing method of the imaging lens characterized by the above-mentioned. The method of claim 16, Forming the lens unit, Applying a resin for a lens to a surface on which at least one curved portion of the transparent substrate is formed; Forming a lens part on the curved part by pressing and curing a stamp mold on a surface of the transparent substrate to which the resin for resin is coated; And, And separating the stamp mold from the surface of the transparent substrate on which the lens portion is formed. Forming at least one first curved portion having a first curvature on one surface and serving as a lens surface, and forming at least one second curved portion having a second curvature on the other surface and serving as a lens surface; Forming a first lens portion having a third curvature on the at least one first curved portion; And, And forming a second lens portion having a fourth curvature on the at least one second curved portion. The method of claim 19, Forming the first lens unit, Coating a resin for a lens on one surface of at least one first curved portion of the transparent substrate; Pressing and curing a first stamp mold on one surface of the transparent substrate to which the resin for resin is applied to form a first lens unit on the first curved portion; And separating the first stamp mold from one surface of the transparent substrate on which the first lens unit is formed. The method of claim 19, Forming the second lens unit, Applying a resin for a lens to the other surface on which at least one second curved portion of the transparent substrate is formed; Pressing and curing a second stamp mold on the other surface of the transparent substrate on which the resin for resin is applied to form a second lens portion on the second curved portion; And separating the second stamp mold from the other surface of the transparent substrate on which the second lens unit is formed. The method of claim 19, The first curvature of the first curved portion and the second curvature of the second curved portion, And a third curvature of the first lens portion and a fourth curvature of the second lens portion. The method of claim 19, The first curvature of the first curved portion and the second curvature of the second curved portion, And a third curvature of the first lens portion and a fourth curvature of the second lens portion. The method of claim 19, The third curvature of the first lens unit and the fourth curvature of the second lens unit are the same. The method of claim 19, The third curvature of the first lens portion and the fourth curvature of the second lens portion are different. The method of claim 19, And the first curved portion and the second curved portion have a concave curved surface. The method of claim 19, And the first curved portion and the second curved portion have a convex curved surface. The method of claim 19, The first curved portion has a curved surface of any one of concave and convex shapes, and the second curved surface has a curved surface different from the first curved portion among the concave and convex shapes. . The method of claim 19, Forming at least one first curved portion having a first curvature on one surface on the transparent substrate, and forming at least one second curved portion having a second curvature on the other surface, The first curved portion and the second curved portion are formed using any one of an etching method and a pressing method.

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