JP2915985B2 - Large aperture medium telephoto lens - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a photographic lens such as an SLR camera, and more particularly to a medium telephoto lens having a large aperture ratio and a relatively wide angle of view.

2. Description of the Related Art Recently, an SLR camera has been required to have a lens system that has high optical performance, a large aperture ratio, and that can easily and quickly perform focusing.

In a so-called medium telephoto lens having a large aperture ratio and a wide angle of view, conventionally, for example, JP-A-59-48723 and JP-A-63-205
No. 625 etc. are provided with high performance.

Further, in recent years, with autofocusing (AF) of cameras, inner focus and rear focus types that perform focusing by moving only a part of lenses inside a lens system have been provided. For example, Japanese Unexamined Patent Publication No.
JP-A-154111 and JP-A-1-154112 disclose an inner-focus type in which a focusing lens group is provided inside a Gaussian-type lens, and JP-A-64-78208 discloses a rear-focusing type in which a rear group of a Gaussian-type lens is moved. Things have been proposed.

[Problems to be Solved by the Invention] However, in a telephoto lens with a large aperture ratio and a relatively wide angle of view, when the inner focus type is used, the entire length of the lens is limited because a space for moving the focus lens group is provided in the lens system. There is a problem that the lens becomes longer and the diameter of the lens must be increased in order to sufficiently take in the peripheral light amount, and the lens becomes larger.

On the other hand, in the case of the rear focus method in which the rear group is moved by a Gaussian type lens, the size of the lens is relatively compact, but the fluctuation of aberration due to the movement of the focus group is large,
There was a problem that it was difficult to obtain a high-performance one.

The present invention has been made to solve the above problems,
It is an object of the present invention to provide a large-diameter medium-telephoto lens suitable for an AF camera, which is compact, has a small aberration variation due to a focus operation, and performs focusing by moving only a lens group at the rear of the lens.

[Means for Solving the Problems] In order to achieve the above object, a large-aperture medium-telephoto lens according to the present invention includes, in order from the object side, at least two positive lenses each having a strong convex surface on the object side, and A front lens group G _F having a positive refractive power as a whole, and a surface S _R1 closest to the object side being convex toward the object side, and having a positive refractive power as a whole. consists of a rear group G _R having, only by moving in the optical axis direction rear group G _R performs focus operation, and (1) 0.5 <f / r R1 <3.5 , however, f: focal length r of the entire system _R1: and satisfies the most radius of curvature of the conditions of the object-side surface S _R1 of the rear group G _R.

In such a large aperture in telephoto lens, in order to enlarge the focus distance is further (2) 0.6 <f _R /f<1.1 proviso f _R: It is desirable to satisfy the focal length condition of the rear group G _R.

In addition, the rear group G _R at the telephoto lens in the large diameter,
(3) 0.8 <f / r _R4 <3.0 where at least one positive lens, a negative lens L _Rn whose image-side surface is concave toward the image side, and at least one positive lens. _R4 : It is desirable to satisfy the condition of the radius of curvature of the image-side surface of the negative lens L _Rn .

The large-diameter medium telephoto lens according to the present invention includes, in order from the object side, at least two positive lenses each having a strong convex surface on the object side and a negative lens having a strong concave surface on the image side. Group G _F having the refractive power of, and the most object-side surface S _R1
Is convex toward the object side, is composed of at least one positive lens, a negative lens L _Rn whose surface on the image side is concave toward the image side, and at least one positive lens. Consists of a rear _group GR having a force, and satisfies the following conditions: (1) 0.5 <f / r _R1 <3.5 (2) 0.6 <f _R /f<1.1 (3) 0.8 <f / r _R4 <3.0 It is characterized by the following.

Figure 13 "action" is a simple basic construction diagram of the present invention, in the present invention, the most object side of the most object-side surface S _R1 (the group later in this group G _R after which moves during focusing In the following, S
_R1 ) is characterized in that the convex surface on the object side is oriented.

On the other hand, as shown in FIG. 14, a rear group of the Gaussian type G _R
Type S _R1 moving is characterized by that a concave surface facing the object side. That is, the feature of the configuration of the Gauss type lens is that the front and rear groups have a symmetrical shape to cancel out aberrations and obtain good performance.

However, in the Gauss type lens, when the rear group is moved for focusing, the symmetry of the front and rear groups is broken, and the aberration fluctuates. In particular, the off-axis marginal rays, as shown in FIG. 14, by the movement of the focus of the rear group G _R, the incident height of the S _R1 is changed. That is, since S _R1 is concave toward the object, the off-axis marginal ray and S _R1
The angle formed with the normal of the lens greatly changes, and therefore, causes a variation in magnitude. When focusing from infinity to a short distance, the off-axis marginal ray generates an inner coma.

In the present invention, since S _R1 is convex toward the object side, as shown in FIG.
Because the angle between people line _R1 is small, the rear group G _R is moved by the focus, even off-axis marginal rays vary the incident height of the S _R1, the change in the angle formed with the normal line of the S _R1 Is relatively small, and fluctuation of aberration due to focus operation can be reduced.

Therefore, S _R1 is that shown whether the proper if the plane of extent of the curvature radius of the condition (1). As you extremely small radius of curvature r _RQ of S _R1, even convex toward the object side S _R1, moving the rear group G _R is in focus, changes the incident height of the off-axis marginal rays change in the angle between the normal of S _R1 when increases, aberration variation increases.
That is, when focusing from infinity to a short distance, off-axis marginal rays generate outward coma. Therefore, it is unacceptable to reduce r _R1 beyond the upper limit of the condition (1) in terms of aberration fluctuation.

Conversely, when the radius of curvature r _R1 of S _R1 is increased to approach a plane, aberration variation due to focusing can be reduced. However, as the condition (2) after the group G _R to be described later, somewhat strong positive because of the need to have a refractive power, positive loosely only the radius of curvature r _R1 of S _R1 other positive aspects When the refractive power of (1) is borne, aberration correction becomes unbalanced, and negative spherical aberration is likely to occur. Further, since the rear lens group G _R performs focusing by moving in the lens system, in order to secure a moving space must be compact itself. Therefore, it is desirable that S _R1 has a strong positive refractive power. Therefore, it is loosely r _R1 than the lower limit of the condition (1) is not acceptable in terms of compactness of the aberration correction and the rear group G _R.

Next, the condition (2) relates to a positive refractive power having a rear group G _R will be described. The focus of the rear group G _R, since a lens group that moves for focusing inside the lens system, but the rear group G _R must be kept by providing a space to move in the lens system, the rear group G _R If the distance f _R is larger than the upper limit of the condition (2), in a limited moving space, the closest accessible subject distance cannot be reduced due to mechanical restrictions. that a large moving space of G _R is the increasing the size of the lens system. The focal length f _R of the rear group G _R Therefore, increasing beyond the condition (2) is unacceptable from the point of closest object distance or the entire lens system compact.

To be smaller than the lower limit of the condition (2) the focal length f _R of the rear group G _R Conversely, shorter closest photographing distance, but is advantageous for miniaturization of the lens system, an object of the present invention the lens for SLR camera, since it is necessary to secure a certain back focus, for group G _R also back focus secured after, it is necessary to increase a certain focal length. Thus reducing the focal process f _R of the group G _R after exceeding the lower limit of the condition (2) is undesirable.

Further, the group G _R after the invention, it is preferable aberration me front group G _F coupled with is well corrected configuration. In the present invention therefore, as shown in Example, a rear group G _R, and preparative riblets types and their development, in order to obtain better performance, it is desirable to satisfy the condition (3). At r _R1 defined by the above condition (1), since it has a positive refractive power, a negative spherical aberration is generated. Therefore, G _{R in} the rear group
In corrects the negative spherical aberration, it is necessary to provide a satisfactorily keep the surface performance of the group G _R later. If the condition for this is (3) and r _R4 is relaxed beyond the lower limit, negative spherical aberration due to S _R1 remains, which is not desirable. Conversely, making r _R4 tighter than the upper limit value is not desirable because it causes high-order spherical aberration.

In the above description, the use of the large-diameter medium telephoto lens of the present invention in the rear focus type focus operation has been described. However, the rear focus type is not particularly used. Of course, it is also possible to use it in a method of performing operations.

"Examples" Hereinafter, Examples 1 to 6 of the present invention will be described.

Where f: focal length of the entire system F _NO : aperture ratio ω: half angle of view r: radius of curvature of each lens surface d: lens thickness or lens interval n: refractive index of d-line of each lens ν: each lens Abbe number f _B : Back focus.

In the case of feeding whole, it does not change the interval of the front group G _F and the rear group G _R.

As discussed, "Effect of the Invention" above, by only G _R group after According to the present invention is moved a large aperture ratio in a telephoto lens of a rear focus performing focus constitutes satisfies a predetermined condition It can be provided with high performance (compact, good performance at both infinity (A) and short distance (B) as shown in the attached aberration diagrams) with compactness and little variation in aberration due to focus operation. Further, even in the case where the whole operation is performed, a compact, high-performance, large-diameter, medium-telephoto lens can be provided.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1, FIG. 3, FIG. 5, FIG. 7, FIG. 9, FIG.
BRIEF DESCRIPTION OF THE DRAWINGS It is lens sectional drawing of Example 1,2,3,4,5,6 of this invention, respectively. 2, 4, 6, 8, 10, and 12,
In each aberration diagram of Examples 1, 2, 3, 4, 5, 6 of the present invention,
10A is an aberration diagram at infinity, and FIG. 10B is an aberration diagram at a photographing magnification of 1/10 during rear focus. FIG. 13 is a simple basic configuration diagram of the present invention. FIG. 14 is a simple basic configuration diagram of a conventionally known Gaussian type.

Claims (3)

(57) [Claims] 1. A front group having, in order from the object side, at least two positive lenses having a strong convex surface facing the object side and a negative lens having a strong concave surface facing the image side, and having a positive refractive power as a whole.
G _F, and the most object side convex surface S _R1 is toward the object side, is constituted by a rear group G _R having a positive refractive power as a whole, the rear group G _R
Only performs focusing operation by moving in the optical axis direction, and (1) 0.5 <f / r R1 <3.5 , however, f: the focal point of the entire system distance r _R1: the most object-side surface of the rear lens group G _R S _R1 a telephoto lens that satisfies the radius of curvature of the conditions, after a further group G _R comprises at least one positive lens, a negative lens L _Rn concave surface on the image side toward the image side, at least one (3) 0.8 <f / r _R4 <3.0, where r _R4 : radius of curvature of the image-side surface of the negative lens L _Rn. . 2. A front group having, in order from the object side, at least two positive lenses having a strong convex surface facing the object side and a negative lens having a strong concave surface facing the image side, and having a positive refractive power as a whole.
G _F, and the most object side convex surface S _R1 is toward the object side, is constituted by a rear group G _R having a positive refractive power as a whole, the rear group G _R
(1) 0.5 <f / r _R1 <3.5 (2) 0.6 <f _R /f<1.1 where f: focal length of the entire system r _R1 : rear group a telephoto lens that satisfies the radius of curvature of the conditions of G surface closest to the object side of the _R S _R1, after a further group G _R comprises at least one positive lens, the image side surface is toward the image side concave and a negative lens L _Rn of consists of at least one positive lens, and (3) 0.8 <f / r R4 <3.0 However r _R4: satisfying the radius of curvature of the condition of the image-side surface of the negative lens L _Rn A large-diameter medium telephoto lens characterized by that. 3. A front group having, in order from the object side, at least two positive lenses having a strong convex surface facing the object side and a negative lens having a strong concave surface facing the image side, and having a positive refractive power as a whole.
G _F , and the most object side surface S _R1 is convex toward the object side, and at least one positive lens, and the image side surface is a negative lens L _Rn concave toward the image side; become from the positive lens is composed of a rear group G _R having a positive refractive power as a whole, (1) 0.5 <f / r R1 <3.5 (2) 0.6 <f R /f<1.1 (3) 0.8 <f / r _R4 <3.0 However, f: the focal point of the entire system distance r _R1: rear group G curvature of the surface S _R1 on the most object side of the _R radius f _R: focus of the rear group G _R distance r _R4: the negative lens L _Rn A large-diameter medium telephoto lens that satisfies the conditions of the radius of curvature of the image-side surface.