KR960007889B1 - Optical device - Google Patents

Abstract

The device enables to magnify a specific part of the object and to reduce to observe the object wholly in the same time. The device includes : an eye lens group(10) composed of a concave lens(11) and a convex lens(12); and an object lens group(20) composed of a tele lens(21) to magnify the object(30) partly at high magnifying rate and a wide lens(22) to magnify the object(30) wholly.

Description

Magnification optics

1 is a schematic conceptual diagram of a conventional magnification optics.

2 is a schematic conceptual diagram of a magnification optical device according to the present invention.

3 is a schematic view showing an example measured by the magnification optics according to the present invention.

* Explanation of symbols for main parts of the drawings

10: eyepiece group 11,12: concave, convex lens

20: objective lens 21: tele lens

22 wide lens 30 measurement object

The present invention relates to a magnification optical device, and in detail, when measuring an object to be measured through a microscope or a measuring instrument, the entire view can be reduced in size for wide viewing and the enlargement for a fine view in detail. It relates to a magnification optic that has improved its casting.

In general, microscopes, astronomical telescopes, measuring instruments, etc. are provided with a magnifying optical device of the level, through which the object to be measured is enlarged and observed.

1 shows a magnification optic generally used in a microscope.

This is roughly divided into an eyepiece group 1 provided adjacent to the observer's eye and an object lens group 2 provided adjacent to the measurement object.

The eyepiece group 1 described above is composed of a plurality of concave lenses 1a and block lenses 1b.

The objective lens group 2 includes a tele lens 2a that partially enlarges the measurement object 3.

In the conventional magnification optical apparatus configured as described above, in the measurement of the measurement object 3, when the tele lens 2a of the objective lens group 2 is positioned at the position of the measurement object to be measured, the measurement object 3 is enlarged. It can be observed through the eyepiece group (1).

However, in such a conventional magnification optical device, when a measurement object is enlarged through a tele lens and observed through the eyepiece group, a problem arises in that the measurement object cannot be measured quickly. This is because, for example, in the measurement of minute microorganisms or complex maps, the area to be searched through the telelens is enlarged, and only the positioned part of the objective lens group is enlarged and the part around it is in a minute state, that is, it is difficult to measure. However, when the initial position of the objective lens group is not the measurement site to be searched, it takes a long time to measure the measurement area while moving the lens group one by one.

The present invention was created to solve the problems of the conventional magnified optical device, and it is possible to measure a part of a wide and wide area around the measurement object, so that the measurement part to be measured can be found quickly. The object is to provide a magnification optics.

In order to achieve the above object, the present invention provides an eyepiece group including a plurality of concave lenses and convex lenses, and a magnification optical apparatus having an objective lens group positioned below the eyepiece group and magnifying a measurement object. The objective lens group includes a tele lens for partially enlarging a measurement object, and a wide lens provided adjacent to the tele lens and wider and wider for the measurement object as a whole.

In the present invention as described above, the measurement area to be measured can be enlarged through the telelens in a state of observing the measurement site to be measured in a state where it is enlarged to the periphery of the measurement object through the wide lens, thereby rapidly measuring the measurement site. There is an advantage to this.

Hereinafter, a preferred embodiment of the magnifying optical apparatus according to the present invention will be described in detail with reference to the accompanying drawings.

2 is a schematic conceptual view of a magnification optic according to the present invention, and FIG. 3 is a schematic view showing an example measured through the magnification optic according to the present invention.

As shown therein, the present invention provides an enlarged optical device, which is located in the lower part of the eyepiece group 10 and the eyepiece group 10 which can be directly identified by the measurer. The objective lens group 20 is roughly divided.

The eyepiece group 10 installed adjacent to the eye of the measurer is composed of a plurality of concave lenses 11 and convex lenses 12. At this time, at least two or more concave lenses 11 and convex lenses 12 are provided according to the measurement magnification.

In the objective lens group 20 provided adjacent to the measurement target 30, a tele lens 21 is provided at a portion adjacent to the measurement target 30 to partially enlarge the measurement target 30. In the lower part of the telelens 21, a magnification factor of the telelens 21 is smaller than that of the telelens 21, and a wire lens 22 wider and wider than the telelens 21 is positioned.

According to the magnification optical apparatus according to the present invention configured as described above, first, through the wide lens 22 of the objective lens group 20, the peripheral portion of the measurement object 30 is broadly and widely enlarged to detect a portion to be measured substantially. . In such a state, the lens group is moved to position the telelens 21 at the correct position of the measurement object 30. As a result, the measurement object 30 may be enlarged at a high magnification and measured through the eyepiece group 10 including the plurality of concave lenses 11 and the convex lenses 21. That is, as shown in FIG. 3, when the measurement object 30 is a translator at a portion of fine writing, the measurement object 30 is widened and broadly enlarged through the wide lens 22 to substantially expand the entire measurement object. You can easily find the translator (30). Therefore, the lens group can be quickly moved, that is, the telelens 21 can be easily positioned at the position of the translator, thereby quickly expanding the measurement.

On the other hand, the present invention is to enlarge the overall wide and wide through the wide lens 22 to determine the position of the measurement object 30 through this through the tele lens 21 is to measure the enlarged, but is not limited thereto. By varying the arrangement and size of the telelens 21 and the wide lens 22, the measurement is more effective by enlarging and observing at a high magnification only a portion to be observed partially through the wide lens 22 at the same time. This can be done.

As described above, according to the magnification optical device according to the present invention, since the periphery of the measurement object is broadly and extensively expanded, the measurement is performed through the telelens in a state where the position of the measurement object to be measured is rapidly detected. It is possible to measure the overall shape around the object as well as to quickly measure the object to be measured.

Claims (1)

A magnification optical apparatus having an eyepiece group having a plurality of concave lenses and convex lenses, and an objective lens group positioned below the eyepiece group and magnifying a measurement object, wherein the objective lens group partially covers the measurement object. And a wide lens for adjoining the tele lens, and a wide lens for adjoining the tele lens and for enlarging and measuring the entire object.