KR100539618B1 - Optical parts and manufacturing method thereof - Google Patents

Abstract

SUMMARY OF THE INVENTION The present invention provides a method for manufacturing an optical member that can easily and accurately manufacture an optical member having a plurality of concentric elliptical grooves without changing the cutting direction of the cutting tool.

In the manufacturing method of the optical member 1 which forms the concentric plurality of elliptical grooves 10 and 10 by the cutting by the cutting tool 3 on the surface of the rotating base material 2, the cutting tool 3 The cutting tool 3 is fixed to the cutting tool 3 so that the cutting direction of the cutting tool 3 coincides with the tangential direction of the elliptical groove 10 to be formed at the cutting point on the substrate 2. It is cut to a predetermined depth while moving in the direction parallel to the rotation surface 2a of the base material 2 in synchronization with the rotation of the substrate.

Description

Method for manufacturing optical member {OPTICAL PARTS AND MANUFACTURING METHOD THEREOF}

The present invention relates to a method for manufacturing an optical member such as a Fresnel lens, and more particularly, to a method for manufacturing an optical member that can be easily manufactured by an optical member having a plurality of highly concentric elliptical grooves.

At present, in an optical member, for example, a Fresnel lens, a plurality of concentric circular grooves are generally formed. However, as also shown in Fig. 4 (c) of Japanese Patent Laid-Open No. 2000-131510, there is also a Fresnel lens in which a plurality of concentric elliptical grooves are formed. Such a Fresnel lens having a plurality of elliptical grooves can be used as a member for generating or canceling astigmatism in an optical pickup device or the like, or for changing the shape of a beam such as beam shaping. A Fresnel lens having a plurality of elliptical grooves can be formed into a thinner plate than a cylindrical lens or a toric lens currently used for generating or canceling astigmatism in an optical pickup device. Can be miniaturized. From this, it is thought that the demand of the optical member which has a plurality of concentric elliptical grooves will increase in the future.

By the way, when the groove is formed in the optical member, the shape of the groove requires very high precision. For example, in the case of a Fresnel lens that processes light having a wavelength of about 0.5 μm, the error in the depth direction of the groove needs to be within ± several tens of nm. When such a groove is formed in such an optical member or a cutting tool such as a bite in a mold for molding the optical member, the cutting direction of the blade tip is directed toward the tangential direction of the curve at the cutting point. It is important to maintain the accuracy of the shape. This is because if the cutting direction of the blade tip does not face the tangential direction, the parts other than the blade tip come into contact with the optical member or the metal mold to cut, so that the desired groove shape is not obtained.

In the case of forming a circular groove, since the diameter is constant, when the optical member or the mold is rotated to fix the cutting tool at a fixed position, the cutting direction of the blade edge and the tangential direction of the circle naturally coincide. However, in the case of forming the elliptical groove, since the diameter varies from place to place, it is necessary to relatively move in the tangential direction of the elliptical groove to form the cutting direction of the blade tip. For this reason, forming an elliptical groove in an optical member or a metal mold | die is very difficult compared with the case of forming a circular groove.

As a method of forming an elliptical groove, the cutting direction of the blade edge at the cutting point is always in the tangential direction while the cutting tool is fixed as the optical member or the mold is fixed, and the cutting tool is moved in the shape of the elliptical trace on the optical member or the mold. You can always consider how to change it. On the contrary, a method of forming an elliptical groove by rotating the optical member or the mold and moving the cutting tool while always changing the cutting direction of the blade tip so as to always face the tangential direction of the ellipse may be considered.

However, it is difficult to always change the cutting direction of the blade tip toward the tangential direction of the elliptical groove at the time of cutting, and it is difficult to say that it is a realistic manufacturing method. Moreover, even if it is going to form an elliptical groove in an optical member or a metal mold by such a method, it is difficult to form an elliptical groove with high precision.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and to provide an optical member manufacturing method which can easily and accurately manufacture an optical member having a plurality of concentric elliptical grooves without changing the cutting direction of the cutting tool. The purpose.

MEANS TO SOLVE THE PROBLEM In order to solve the said subject, the manufacturing method of the optical member which concerns on this invention is a manufacturing method of the optical member which forms the concentric multiple elliptical groove by the cutting process by a cutting tool on the surface of a rotating base material, The cutting tool is fixed in a direction parallel to the rotation plane of the substrate in synchronization with the rotation of the substrate so that the cutting direction of the cutting tool is fixed so that the tangential direction of the elliptical groove to be formed at the cutting point on the substrate coincides with the cutting direction of the cutting tool. It is characterized by cutting to a predetermined depth while moving.

Moreover, the manufacturing method of the optical member which concerns on this invention WHEREIN: In the XY coordinate system which makes the center of the elliptical groove of a base material into origin, the time when the long axis and short axis of oval groove correspond with the X axis and Y axis, respectively, is 0 degree or When the rotation angle of the base material is about 18 degrees, the a and b are the major axis radius and the minor axis radius of the elliptical groove, and x and y are the positions of the cutting points by the cutting tools, respectively. The position of the cutting point is expressed by the following equation (1)

The cutting tool is moved so as to satisfy the relationship.

Moreover, the manufacturing method of the optical member which concerns on this invention is a manufacturing method of the optical member shape | molded by the metal mold | die which formed the several concentric elliptical groove by the cutting process by the cutting tool on the surface of a rotating metal mold | die. The cutting tool is synchronized with the rotation of the mold and moved in a direction parallel to the mold rotating surface so that the cutting direction of the mold is fixed so that the tangential direction of the elliptical groove to be formed at the cutting point on the mold coincides with the cutting direction of the cutting tool. It is characterized in that it is molded by a mold formed by cutting to a predetermined depth to form a plurality of concentric elliptical grooves.

Moreover, the manufacturing method of the optical member which concerns on this invention WHEREIN: In the XY coordinate system which makes the center of the oval groove of a metal mold | die origin, (theta) is 0 degree or the time when the long axis and short axis of an elliptical groove correspond with the X axis and Y axis, respectively. When the angle of rotation of the mold around the origin of 18 degrees, a and b are the major axis radius and minor axis radius of the elliptical groove, respectively, and x and y are the positions of the cutting point by the cutting tool, respectively. The position of the cutting point is given by the following equation (2)

The cutting tool is moved so as to satisfy the relationship.

EMBODIMENT OF THE INVENTION Hereinafter, embodiment of the manufacturing method of the optical member which concerns on this invention is described, referring an accompanying drawing. 1 is a perspective view showing a cutting state of a Fresnel lens substrate by a bite, FIGS. 2 and 3 are views showing a positional relationship between a Fresnel lens substrate (0 degree of rotation angle and 30 degrees) and a bite, respectively. Is a perspective view of a Fresnel lens having a plurality of concentric elliptical grooves.

In this embodiment, as shown in FIG. 4, the manufacturing method of the Fresnel lens 1 which has several concentric elliptical grooves 10 and 10 is shown. As shown in FIG. 1, the Fresnel lens board | substrate 2 which has an oval-shaped outer shape which consists of transparent acrylic resins, for example is hold | maintained by the chuck (not shown) of a shelf. At this time, the center of the elliptical groove 10 to be formed on the Fresnel lens substrate 2 and the rotation axis 21 of the shelf coincide with each other, and the rotation surface 2a of the Fresnel lens substrate 2 and the shelf The Fresnel lens board | substrate 2 is hold | maintained so that the rotating shaft 21 may orthogonally cross.

In addition, although the manufacturing method of the Fresnel lens 1 is shown here, this invention is not limited to this, It is widely applicable when manufacturing the optical member which has an elliptical groove.

After holding the Fresnel lens substrate 2 by the chuck of a lathe, the bite 3 which is a cutting tool is set. Here, the cutting edge 3a of the bite 3 is always kept in a constant cutting direction, here always at right angles to the horizontal line 22. Next, the main axis (not shown) to which the chuck is connected is rotated in the direction of the arrow 23, so that the bite 3 is in the direction of the arrow 24 perpendicular to the rotational surface 2a of the Fresnel lens substrate 2. The cutting is performed so that the predetermined groove width and the predetermined groove depth are made.

The bite 3 is cut in the direction of the arrow 24 perpendicular to the rotational surface 2a and the bite 3 is moved parallel to the rotational surface 2a in synchronization with the rotation of the Fresnel lens substrate 2. Let's do it. Specifically, in the XY coordinate system whose origin is the center of the elliptical groove 10 on the Fresnel lens substrate 2, θ is the point where the long axis and short axis of the elliptical groove 10 coincide with the X and Y axes, respectively. Is the rotation angle of the Fresnel lens substrate 2 around the origin of 0 degrees or 180 degrees, and a and b are the major axis radius and minor axis radius of the elliptical groove 10, respectively, and x and y are Assuming that the cutting point is positioned by the cutting edge 3a of the bite 3, the cutting point is represented by the following equation (3).

The byte 3 is moved to satisfy the relation of.

2 and 3 show examples of the positional relationship between the Fresnel lens substrate 2 and the bite 3. Here, as an example, the case where the elliptical groove 10 of 3 mm long and 1.5 mm short is formed is shown. The ellipse of the appearance of the Fresnel lens substrate 2 is 4 mm long and 2 mm short. 25 shows the locus of the cutting point by the cutting edge 3a of the bite 3.

2 and 3, for example, when the Fresnel lens substrate 2 is rotated 30 degrees, the elliptical groove 10 on the Fresnel lens substrate 2 naturally rotates, but the rotation In synchronism, the bite 3 is moved so that the cutting point by the blade edge 3a of the bite 3 moves on the trajectory 25 from 25a in FIG. 2 to 25b in FIG. 3. In this manner, while the Fresnel lens substrate 2 is rotated 180 degrees, the bite 3 is continuously moved so that the blade tip 3a of the bite 3 moves one revolution on the trajectory 25 clockwise. The elliptical groove 10 is formed.

By moving the bite 3 in synchronization with the rotation of the Fresnel lens substrate 2 in this manner, the bite 3a of the bite 3 is always directed in a constant cutting direction while the bite 3a of the bite 3 always faces a constant cutting direction. The tangential direction of the elliptical groove 10 in the cutting direction of the cutting point and the cutting point always matches, and it is possible to form the elliptical groove 10 with high precision.

Similarly, the above operation is further repeated by the desired number of grooves to obtain a Fresnel lens 1 having a plurality of concentric elliptical grooves 10, 10 as shown in FIG.

In the above, embodiment of the manufacturing method of the optical member which concerns on this invention was described. In the above embodiment, a Fresnel lens is taken as an example, and a method of directly manufacturing an optical member having a plurality of concentric elliptical grooves by means of a cutting tool is shown. However, it is also possible to form a plurality of concentric elliptical grooves in a mold for molding such an optical member, and to mold the optical member by this mold. In this case, the elliptical groove of the optical member to be molded and the elliptical groove inverted the irregularities are formed in the mold. The formation method of the elliptical groove with respect to a metal mold | die is the same as that of the said embodiment. The cutting tool is not limited to the bite, but an optimum one is appropriately selected according to the cutting target.

According to the method of manufacturing the optical member according to the present invention, the cutting tool is fixed such that the cutting direction of the cutting tool is fixed so that the tangential direction of the elliptical groove to be formed at the cutting point on the substrate or the mold coincides with the cutting direction of the cutting tool. Is cut to a predetermined depth while moving in the direction parallel to the rotation surface of the substrate or the mold in synchronization with the rotation of the substrate or the mold, so that the cutting direction and the tangential direction can be matched without changing the cutting direction of the cutting tool. It is possible to manufacture an optical member having a plurality of concentric elliptical grooves which are easy and accurate. Alternatively, a mold having a plurality of easily and highly accurate concentric elliptical grooves can be formed, and an optical member having a plurality of highly accurate concentric elliptical grooves can be manufactured using this mold.

In addition, according to the manufacturing method of the optical member according to the present invention, since the cutting tool is moved on the basis of a relation expressed by a mathematical formula, the cutting tool can be accurately moved by a numerical control lathe or the like.

1 is a perspective view showing a cutting state of a Fresnel lens substrate by a bite,

2 is a diagram showing a positional relationship between a Fresnel lens substrate (rotation angle O degree) and a bite;

3 is a view showing a positional relationship between a Fresnel lens substrate (rotation angle 30 degrees) and a bite;

4 is a perspective view of a Fresnel lens having a plurality of concentric elliptical grooves.

※ Explanation of code in main part of drawing

1 Fresnel lens 2 Fresnel lens substrate

2a: rotating surface 3: bytes

10: oval groove

Claims (4)

In the manufacturing method of the optical member for forming a plurality of concentric elliptical grooves by the cutting tool by the cutting tool on the surface of the rotating substrate, The cutting tool is synchronized with the rotation of the substrate so that the cutting direction of the cutting tool is fixed so that the tangential direction of the elliptical groove to be formed at the cutting point on the substrate coincides with the cutting direction of the cutting tool. The manufacturing method of the optical member characterized by cutting to a predetermined depth, moving in the direction parallel to a rotating surface. The method of claim 1, In the XY coordinate system whose origin is the center of the elliptical groove of the substrate, the substrate is rotated about the origin of 0 degrees or 18 degrees at the point where θ is the long axis and the short axis of the elliptical groove, respectively, the X axis and the Y axis. A and b are the major axis radius and the minor axis radius of the elliptical groove, and x and y are the positions of the cutting points by the cutting tool, respectively. One) (Equation 1) The manufacturing method of the optical member, characterized in that for moving the cutting tool to satisfy the relationship. In the manufacturing method of the optical member which is shape | molded by the metal mold | die which formed the several concentric elliptical groove by the cutting process by the cutting tool on the surface of a rotating metal mold | die, The cutting tool is synchronized with the rotation of the mold so that the cutting direction of the cutting tool is fixed so that the tangential direction of the elliptical groove to be formed at the cutting point on the mold coincides with the cutting direction of the cutting tool. A method of manufacturing an optical member, characterized in that it is molded by a mold having a plurality of concentric oval grooves formed by cutting to a predetermined depth while moving in one direction. The method of claim 3, wherein In the XY coordinate system whose origin is the center of the elliptical groove of the mold, rotation of the mold about the origin of 0 degrees or 18 degrees at the point where θ is the long axis and the short axis of the elliptical groove coincides with the X axis and the Y axis, respectively. A and b are the major axis radius and the minor axis radius of the elliptical groove, and x and y are the positions of the cutting points by the cutting tool, respectively. 2) (Equation 2) The manufacturing method of the optical member, characterized in that for moving the cutting tool to satisfy the relationship.