KR100497041B1 - Zoom lens with adapter lens for near-field photography - Google Patents

Abstract

The present invention relates to a zoom lens in which an adapter lens is coupled for near field photography, and sequentially from an object side, a first lens group having positive refractive power, a second lens group having negative refractive power, and a third lens group having positive refractive power. In the zoom lens comprising a, when zooming, the second lens group is moved from the object side to the image side and the third lens group is moved from the image side to the object side back to the image side, by installing an adapter lens in front of the first lens group In addition, it is possible to miniaturize the entire lens system, have high optical performance in the entire range of magnification, easy to install lens system peripheral devices such as lighting devices, and have a large magnification while maintaining an appropriate object distance.

Description

Zoom lens with adapter lens for near field shooting

The present invention relates to a zoom lens combined with an adapter lens for near field photography. More specifically, the present invention provides a high magnification ratio and optical performance by using an adapter lens, and maintains a shortest shooting distance while maintaining a proper object distance. It relates to a zoom lens such that the shooting magnification in E is large.

Conventional zoom lenses have increased the power of the focusing lens group or the amount of movement of the lens group in order to increase the magnification at the shortest shooting distance while securing a proper object distance.

However, if the power of the focusing lens group is increased as described above, the aberration fluctuation becomes large, and the image quality is lowered. If the moving amount of the lens group is increased, the compact lens system is difficult to realize.

Accordingly, the present invention is to solve the disadvantages of the prior art, by installing the adapter lens in front of the first lens group, the variation ratio is set to about 3 to prevent the fluctuation of the aberration to increase and easy to install lens system peripheral devices such as lighting devices To provide a zoom lens having a large magnification while maintaining a proper object distance.

The present invention as a means for achieving the above technical problem

A zoom lens comprising a first lens group having a positive refractive power, a second lens group having a negative refractive power, and a third lens group having a positive refractive power, sequentially from the object side, wherein the second lens group is moved when zooming. It is characterized by moving from the side to the image side and moving the third lens group from the image side to the object side again, and installing an adapter lens in front of the first lens group, satisfying the following conditional expression.

(Condition 1)

In the conditional formula 1,

f (A) is the focal length of the adapter lens,

f (T) is the focal length of the lens system after the adapter lens in the telephoto end.

With the above-described configuration, a person having ordinary skill in the art to which the present invention pertains will be described in detail with reference to the accompanying drawings.

1A and 1B are lens configuration diagrams at the wide-angle end and the telephoto end of a zoom lens in which an adapter lens is coupled for near field imaging according to an embodiment of the present invention.

1, the zoom lens according to the embodiment of the present invention,

An adapter lens 10 composed of a first lens 11 and a second lens 12 convex toward the object side sequentially from the object side, a third lens 13 having negative refractive power convex toward the object side, The first lens group 100 having a positive refractive power as a whole consisting of a fourth lens 14 bonded to the third lens 13 and convex on both sides, and a fifth lens 15 having positive refractive power convex on the object side. ;

A sixth lens 21 having negative refractive power convex toward the object side, a seventh lens 22 joined to the sixth lens 21 and convex on both sides, and an eighth lens 23 having positive refractive power convex on the object side; A second lens group 200 including a total refractive power and a negative refractive power;

A ninth lens 31 and a tenth lens 32 convex on both sides, an eleventh lens 33 concave on both sides, and a twelfth lens 34 on both sides, and having a positive refractive index overall. Three lens groups 300 are included.

In addition, between the second lens group 200 and the third lens group 300, there is an iris (i.e., light amount aperture 400) serving as a screen for adjusting the amount of light entering through the lens. A filter 500 for filtering light from the 12 lenses 34 to the image side is provided.

Thus, the zoom lens of the present invention moves the second lens group 200 from the object side to the image side when zooming from the wide-angle end to the telephoto end, and moves the third lens group 300 from the image side to the object side and again, Zooming is performed from the side to the upper side.

Hereinafter, with reference to the accompanying Figure 1 will be described a zoom lens combined with an adapter lens for near-field imaging according to an embodiment of the present invention.

The light emitted from the subject is incident on the adapter lens 10 installed in front of the first lens group 100, and the light incident on the adapter lens 10 passes through the adapter lens 10 and is then infinite. Becomes

Then, the light having an infinity of light passes through the first lens group 100 and the second lens group 200, and then the amount of light is adjusted by the iris 400, and then the third lens group 300. Pass through) and pass through filter 500 to form an image.

As described above, the light passing through the zoom lens of the present invention is variable in focal length by zooming in the zoom lens.

And the zoom lens of this invention satisfies the following conditional expression.

Conditional Expression 1 regulates the focal length of the lens system after the adapter lens 10 at the telephoto end with respect to the adapter lens 10. When the variable value exceeds the upper limit, the power of the adapter lens 10 is large. The aberration, in particular, astigmatism of the lens system becomes large, and the performance on the peripheral upper surface is degraded. If the lower limit is exceeded, the desired shooting magnification cannot be obtained as the shortest shooting distance becomes longer.

Hereinafter, an embodiment value according to an embodiment of the present invention that satisfies the conditional expression will be described.

In Table 1 below, R is the radius of curvature of the refractive surface, D is the thickness or distance between the lenses, ND is the d-line refractive index of the lens, V is the Abbe's number of the lens, and the focal length is It is 7.04-20.52, and an aperture value is 2.7-3.0.

TABLE 1

In Table 1, A, B, C, and E are distances between lenses that vary when zooming from the wide-angle end to the telephoto end, and each value is shown in Table 2 below.

TABLE 2

The present invention is capable of miniaturization of the entire lens system by providing an adapter lens in front of the first lens group, high optical performance in the entire range of magnification, easy installation of lens system peripheral devices such as lighting devices, and maintaining an appropriate object distance. The shooting magnification is effective.

1 (a) and (b) are lens configuration diagrams at the wide-angle end and the telephoto end of a zoom lens in which an adapter lens is coupled for near field photographing according to an embodiment of the present invention.

2 (a) to 2 (c) are aberration diagrams at the wide-angle end of the zoom lens to which the adapter lens is coupled for near field imaging according to an embodiment of the present invention;

3A to 3C are aberration diagrams at an intermediate end of a zoom lens in which an adapter lens is coupled for near field imaging according to an exemplary embodiment of the present invention.

4A to 4C are aberration diagrams at a telephoto end of a zoom lens in which an adapter lens is coupled for near field imaging according to an exemplary embodiment of the present invention.

Claims (2)

A zoom lens comprising a first lens group having a positive refractive power, a second lens group having a negative refractive power, and a third lens group having a positive refractive power, sequentially from the object side, wherein the second lens group is moved when zooming. And move the third lens group from the image side to the object side again from the side to the image side, and install an adapter lens in front of the first lens group. Combined zoom lens (Condition 1)

In the conditional formula 1, f (A) is the focal length of the adapter lens, f (T) is the focal length of the lens system after the adapter lens in the telephoto end. The method of claim 1, The zoom lens is a zoom lens combined with an adapter lens for close-up photography, the zoom ratio is three times the ratio of the focal length at the wide-angle end to the focal length at the telephoto end.

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