KR20200086916A - Anamorphic lens for Cinema - Google Patents

Abstract

The present invention relates to an anamorphic lens for cinema and, more specifically, to an anamorphic lens for cinema, which forms a cylinder lens in front of the diaphragm to easily and smoothly adjust the optical axis and at the same time improve assembly. The anamorphic lens for cinema including a first group lens, a second group lens, and an aperture and a third group lens. A front (front portion) of the aperture is formed with a first group lens consisting of only a spherical lens, a second group lens including a first cylinder lens, a second cylinder lens, and a spherical lens, and a rear of (rear part) of the aperture is formed with a third group lens consisting of an aspherical lens and a spherical lens.

Description

Anamorphic lens for Cinema}

The present invention relates to an anamorphic lens for cinema, and more particularly, to an anamorphic lens for cinema to form a cylinder lens in front of the aperture to easily and smoothly adjust the optical axis and improve assembly.

Generally, this is a lens that shrinks and records an image on a film mounted on a camera. When projecting this recorded image, a lens that does the opposite is mounted on a projector to reproduce the screen normally, and for shooting and projecting widescreen movies. Anamorphic lenses are used.

Such an anamorphic lens includes an spherical lens, an aspherical lens, a cylinder lens, and an aperture, and an optical system that forms an image with different magnifications in the horizontal and vertical directions on an image surface. It is used as a filming and projection lens for cinema scopes.

However, the conventional anamorphic lens has a problem in that it is difficult to manufacture a double-sided cylinder lens.

In addition, conventionally, when the cylinder lenses are dispersedly disposed in the lens group in front of the aperture and the lens group in the rear, assembly is difficult.

In addition, in the conventional anamorphic lens, if the optical axis directions of the cylinder lens are 90 degrees to each other, it is difficult to manufacture a cylinder lens component and it is difficult to find and assemble a rotating eccentricity of a plurality of cylinder lenses.

U.S. Patent No. US8858099

Accordingly, the present invention has been devised to solve the above-mentioned problems, and an object of the present invention is to provide an anamorphic lens for cinema which makes it easy to manufacture an anamorphic lens and facilitates assembly and at the same time achieves quality improvement.

In order to achieve the above object, the present invention is an anamorphic lens for cinema including a first group lens, a second group lens, and an aperture and a third group lens, wherein the front (front part) of the aperture consists only of a spherical lens. A first group lens, a second group lens including a first cylinder lens, a second cylinder lens, and a spherical lens are formed, and a third group lens composed of an aspherical lens and a spherical lens is provided at the rear (back side) of the aperture. It is characterized by being formed.

The first cylinder lens and the second cylinder lens are characterized in that the directions of curvature are all formed in only one direction.

The first cylinder lens and the second cylinder lens are characterized in that, when a double-sided cylinder lens is required, the intermediate surface is designed to be a flat surface (or spherical surface) and bonded using a flat surface (or spherical surface).

The combined focal length of the first group lens and the second group lens is characterized by being configured with an afocal meter so as to be parallel light when passing through the aperture or having a focal length of ±300 mm or more.

As described above, the present invention has an effect of easily manufacturing a double-sided cylinder lens by using the two-sided cylinder lens separately after being manufactured into two lenses.

In addition, the present invention makes it easy to manufacture a double-sided cylinder lens by using a double-sided cylinder lens separately into two lenses, that is, a plane (spherical surface) on one side and a cylinder surface on the other side using a flat (spherical) portion. There is an effect that can be done.

In addition, the present invention has an effect of quickly and conveniently assembling the assembly by not including and matching the optical axis of the cylinder surface during the entire assembly by including all of the cylinder lens in one group lens.

Particularly, by forming the curvature directions of the cylinder lenses in the same direction, it is possible to achieve an effect of conveniently manufacturing and assembling parts.

1 is a view schematically showing the configuration of an anamorphic lens for cinema according to a preferred embodiment of the present invention.
FIG. 2 is a view schematically showing a vertical optical path of the anamorphic lens for cinema of FIG. 1.
FIG. 3 is a view schematically showing an optical path of the anamorphic lens for cinema of FIG. 1.

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

Here, elements having the same function in all the drawings below are omitted by repeated description using the same reference numerals, and terms to be described later are defined in consideration of the functions in the present invention, and this is a uniquely used meaning. It should be interpreted as

1 and 3, the anamorphic lens 100 for cinema according to the present invention includes a first group lens 110 and a second group lens 120 and an aperture 130 and a third group lens 140. It is made by being separated.

The first group lens 110 is a group of focusing lenses and includes a plurality of first lenses 111, second lenses 112, and third lenses 113 having a convex surface, a concave surface, or a convex surface and a concave surface. It is made, each lens 111, 112, 113 is formed only in a spherical shape.

The first group lens 110 having such a configuration serves to smoothly connect to the image acquisition unit 300 by moving according to a distance change of the object 200. Since the first group lens 110 is generally applied, a detailed description will be omitted.

The second group lens 120 is disposed on one side of the first group lens 110 to differently form an aspect ratio of an image of the object 200 transmitted through the first group lens 110. , A first cylinder lens 121, a spherical lens 122, and a second cylinder lens 123.

That is, according to the present invention, both the first cylinder lens 121 and the second cylinder lens 123 are disposed in front (front part) of the aperture 130 and a spherical lens as a rear (back part) of the aperture 130 and It is preferable to arrange a lens group consisting of aspherical lenses 141 and 143.

This is difficult to assemble when the cylinder lens is dispersedly disposed in the lens group in front of the aperture 130 and the lens group in the rear.

That is, for convenience of assembly, the front and rear parts of the aperture 130 should be pasted after the respective parts are assembled. At this time, if the cylinder lens is dispersedly disposed at the front and rear parts of the aperture 130, the optical axis must be found and adjusted while rotating the lens to align the optical axis of the cylinder lens (to eliminate rotational eccentricity of the cylinder lenses).

Therefore, it is extremely difficult to find and fit the optical axis of the cylinder surface inside each group lens in order to compositely assemble the group lenses separately assembled.

Therefore, the first cylinder lens 121 and the second cylinder lens 123 should all be included in one group lens, and if the optical axis directions of the cylinder lens are 90 degrees apart from each other, it is difficult to manufacture the cylinder lens parts. , It can also solve the difficult problem of finding and assembling the rotational eccentricity of multiple cylinder lenses.

To this end, if both the first cylinder lens 121 and the second cylinder lens 123 are arranged in front of the aperture 130 and the curvature (or optical axis) directions are all set in the same direction, the parts are manufactured and It is easy to assemble and can improve performance.

This cylinder lens (cylinder lens) is a lens that uses a cylindrical surface parallel to the axis of the cylinder as a refracting surface, and both sides have a cylindrical surface, and when parallel rays are incident, light collects on a straight line parallel to the cylindrical axis and one primary line Make a line.

And the double-sided cylinder lens has three eccentrics (① Decenter ② Tilt ③ Twist) as shown in the figure below.

Here, the above ① Decenter is the case where the difference in the thickness of the periphery in the curvature direction of the two sides of the double-sided cylinder, ② Tilt is the case where the difference in the thickness of the periphery in the plane direction of the two sides of the cylinder, ③ Twist is the two-sided cylinder It is rotated.

In addition, it is preferable that the first cylinder lens 121 and the second cylinder lens 123 have a structure in which all curvature directions are formed only in the same direction.

In addition, the first cylinder lens 121 and the second cylinder lens 123 are double-sided cylinder lenses, and each of the two-sided cylinder lenses is divided into two cylinder lenses, that is, only one surface is a cylinder lens and the other surface is a spherical surface (or a flat surface). After designing and manufacturing, it is preferable to manufacture by bonding using a spherical surface (or a flat surface).

In addition, even if the joint surface is a plane, the plane is regarded as a part of a spherical surface due to design characteristics. The reason is that both the spherical surface and the plane are regarded as axial rotational symmetry. In general, all surfaces are designed as spherical surfaces, and if the radius of curvature of the spherical surface is greater than 1 m during design, it is designed as a forced surface for convenience of production.

However, it is advantageous in manufacturing that the joining surface is spherical rather than flat. That is, when placed flat, the Tilt eccentricity is not removed while joining.

Accordingly, the curvature direction of the cylinder lens is formed in a structure composed of only one direction, and the intermediate surface is designed to be a spherical surface (or a flat surface), and can be easily fabricated by joining using the intermediate surface.

In addition, the first group lens 110 and the second group lens 120 according to the present invention is configured to be parallel light when passing through the aperture 130, that is, to configure the front portion of the aperture 130 to be an afocal meter It is possible to reduce aberration sensitivity when assembling and combining the front and rear groups of the aperture 130 respectively.

That is, the conventional method of assembling the lens is to assemble the entire lens including the aperture 130 at a time or to assemble the front and rear groups of the aperture 130, respectively, and then combine them to find and match the optical axis of the front and rear groups of the aperture 130 You have to do extra work.

However, in order to facilitate assembly, if the optical system in front of the iris 130 is designed as a focusless optical system, the combined focal length of the first group lens 110 and the second group lens 120 is parallel light when passing through the iris 130. do.

Therefore, this configuration makes it easy to assemble by reducing the sensitivity of performance when assembling. That is, even if the optical axis is not found and matched, the performance is easily achieved.

In addition, when the optical system is completely out of focus, it is not affected by performance even if it is about 300 seconds (5 minutes), which is about 10 times larger than the normal optical axis shift eccentric tolerance (Decenter) of 30 seconds. Even if it is about 10 times larger than 0.03mm, the performance is not affected.

In other words, if it is difficult to design with a completely focusless lens by design, if the design is at least a focal length of ±300mm or more, the eccentric tolerance is increased to about 3 minutes, and performance is not affected.

The diaphragm/aperture 130 is disposed between the second group lens 120 and the third group lens 140 to control the size of the hole to control the amount of light passing through the lens.

The third group lens 140 is disposed between a pair of aspherical lenses 141 and 143 arranged on the other side of the aperture 130 and the aspherical lenses 141 and 143 It is composed of a spherical lens 142 to smoothly form an image of the object 200 passing through the aperture 130 to the image acquisition unit 300.

In addition, the present invention is difficult to find the cause when performance does not come out after assembly when using a spherical lens, an aspherical lens, or a cylinder lens.

Because spherical lenses are easy to manufacture, almost all products are produced by conventional manufacturing methods, but aspherical and cylindrical lenses are difficult to manufacture, it is difficult to know where there is an error in case of defects.

Therefore, in order to ascertain the cause of the manufacturing error of the aspherical lens or the manufacturing error of the cylinder lens, both the first cylinder lens 121 and the second cylinder lens 123 are disposed in the front part of the aperture 130, and the front part is used as a focusless lens. It is designed so that the design resolution performance can be corrected only.

In addition, all of the aspherical lenses 141 and 143 are arranged at the rear portion of the aperture 130 and are designed as a focusing system, so that the design resolution performance is corrected only with the rear portion.

Therefore, in this way, it is easy to grasp whether it is a problem of a cylinder lens or an aspherical lens when an assembly error occurs.

In addition, according to the present invention, the sensitivity of performance during assembly is reduced by such a configuration, so that the assembly is convenient and the performance can be easily exhibited, and the manufacture of parts can be easily achieved.

The present invention described above is not limited by the above-described embodiments and the accompanying drawings, and various substitutions, modifications, and changes to other equivalent embodiments are possible without departing from the technical spirit of the present invention. It will be apparent to those skilled in the art to which the present invention pertains.

100: anamorphic lens for cinema 110: first group lens
111: first lens 112: second lens
113: third lens 120: second group lens
121: first cylinder lens 122: spherical lens
123: second cylinder lens 130: aperture
140: group 3 lens 141,143: aspheric lens
142: spherical lens 200: object
300: image acquisition unit

Claims (4)

In the anamorphic lens for cinema comprising a first group lens and a second group lens and aperture and a third group lens,
A front group (front part) of the aperture is formed of a first group lens composed of only a spherical lens, a second group lens including a first cylinder lens, a second cylinder lens, and a spherical lens, and the rear (back part) of the aperture. As an anamorphic lens for cinema, characterized in that a third group lens formed of an aspherical lens and a spherical lens is formed. According to claim 1,
The first cylinder lens and the second cylinder lens is an anamorphic lens for cinema, characterized in that the direction of curvature is formed only in one direction. According to claim 1,
The first cylinder lens and the second cylinder lens is an anamorphic lens for cinema, characterized in that when a double-sided cylinder lens is required, the intermediate surface is designed to be a flat surface (or spherical surface) and bonded using a flat surface (or spherical surface). According to claim 1,
The anatomical lens for cinema is characterized in that the combined focal length of the first group lens and the second group lens is composed of an afocal meter so as to be parallel light when passing through the aperture or that the focal length is greater than or equal to ±300 mm.

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