KR200157064Y1 - Lens array structure of telescope - Google Patents

Abstract

The present invention relates to a magnification adjustment structure of a telescope, which magnifies an image of an object, and particularly for an eyepiece aperture between a prism that refracts an image received from an objective lens of a telescope and an eyepiece that magnifies an image passing through the prism. A pair of BARROW lenses are installed on the cam bush to pass the image received from the objective lens through the prism, and when the pair of BOL lenses are enlarged and sent to the eyepiece, they are about 50 to 70 times smaller. The present invention relates to a telescope's magnification structure that can achieve high magnification and thus improve the function and quality of the telescope.

Description

Lens array structure of telescope

The present invention relates to a magnification adjustment structure of a telescope to magnify an image of an object. In particular, a cam bush for an eyepiece aperture is provided between a prism that refracts an image received from an objective lens and an eyepiece that magnifies an image passing through the prism. The present invention relates to a magnification adjusting structure of a telescope, in which a pair of BARROW lenses are installed in a tube, and an image received from an objective lens passes through a prism, and then the BOL lens is enlarged and sent to the eyepiece to obtain high magnification.

In general, a telescope is a type of optics that allows you to zoom in on a close object at a high magnification, as if you are seeing it at close range.

Such a telescope can be enlarged to increase the magnification of an object and to enlarge the image of the object by the lens arrangement or the distance of the lens.

In the conventional telescope lens array structure used for this purpose, an objective lens receiving an image of an object, two prisms for refracting an image passing through the objective lens, and an image passing through the prism are enlarged to a virtual image. The eyepiece is configured to be installed on the cam bush and the iris to increase the magnification or focus.

Therefore, in the lens arrangement of the conventional telescope as described above, since the image received from the objective lens passes through the prism, only the eyepiece can be enlarged so that the image of the object can be enlarged by about 20 times. .

In order to solve the above problems, that is, in order to obtain a high magnification, the telescope length may be increased to increase the arrangement distance of the lens and the movement distance of the eyepiece, but the effect of the telescope itself may be enlarged. There is a situation.

The present invention provides a pair of enlargement of the image on the eyepiece aperture diaphragm cam bush between the prism for refracting the image received from the objective lens and the eyepiece to enlarge the image passing through the prism in order to compensate for the conventional problems as described above. When the viol lens is installed and the image received from the objective lens passes through the prism, when the viol lens is enlarged and sent to the eyepiece, it provides a magnification adjusting structure of the telescope to obtain a high magnification of about 50 to 70 times with a small telescope. The purpose is to.

1 is a plan view of a telescope lens arrangement of the present invention.

Figure 2 is an enlarged cross-sectional view of the main part of the present invention.

3 is a plan view showing an operating state of the present invention.

* Explanation of symbols for main parts of the drawings

1: objective lens 2,2 ': prism

3: eyepiece 4: aperture

5: Cam bush 6,6 ': Violet lens

7: Case 51, 52: Cam groove

71,72: Guide groove

In the construction of the present invention, as shown in FIG. 1, an objective lens 1 receiving an image of an object, two prisms 2 (2 ') that refracts an image passing through the objective lens 1, and In the telescope (10) consisting of an aperture (4) having an eyepiece (3) to enlarge the image passing through the prism (2) (2 ') and to adjust the focus and distance, the prism (2) The diaphragm 4 between the 2 'and the eyepiece 3 is configured by rotatably inserting the cam bush 5 into the case 7, and cam grooves 51 and 52 formed in the cam bush 5. ) Is combined with a viol lens (6) (6 '), the viol lens (6) (6') does not rotate with the cam bush (5), the guide of the cam groove (51) 52 and the case (7) It is configured to move linearly along the grooves 71 and 72.

According to the present invention configured as described above, as shown in FIG. 3, when the prism 2 (2 ') sends out an image of an object passing through the objective lens 1, a pair of pairs provided in the cam bush 5 Violent lenses 6 and 6 'are sent to the eyepiece 3 with the magnified image passing through the prisms 2 and 2', thereby providing a high magnification (about 50) in the eyepiece 3. It is possible to obtain an image of about 70 times).

However, in the structure as described above, the violating lenses 6 and 6 'are provided at the tip of the cam bush 5 of the aperture 4 between the prism 2, 2' and the eyepiece 3 so that the eyepiece 3 is provided. The pins of the viollens 6 and 6 'are moved to the cam grooves 51 of the cam bush 5 in order to prevent the viollens 6 and 6' from rotating together when the focal point or the distance of the microlenses is finely adjusted. 52, through which the pins are inserted into the guide grooves 71 and 72 of the case 7, not only can the viol lenses 6 and 6 'be linearly moved without rotation, but also the focus is A high magnification image can be obtained while preventing blurring.

Therefore, the present invention as described above allows the viollens 6 and 6 'to enlarge the image passing through the prism 2 and 2' and to observe it from the eyepiece 3, thereby achieving high magnification with a compact telescope. Not only can it be obtained, it can be observed freely at any magnification from the minimum magnification to the maximum magnification.

As described above, the present invention provides a pair of viollens that enlarge the image on the eyepiece aperture cam bush between the prism that refracts the image received from the objective lens of the telescope and the eyepiece that enlarges the image passing through the prism. After passing through the prism through the image received from the objective lens, the viol lens is enlarged and sent to the eyepiece to obtain a high magnification of about 50 to 70 times with a small telescope, thereby improving the function and quality of the telescope. You will be able to.

Claims (1)

An object lens 1 receiving an image of an object, two prisms 2 and 2 'that refract the image passing through the object lens 1, and an image passing through the prism 2 and 2' In a telescope (10) consisting of an aperture (4) having an eyepiece (3) for enlarging and adjusting focus and distance, the aperture between the prism (2) (2 ') and the eyepiece (3). (4) is configured by rotatably inserting the cam bush (5) in the case (7), the viol lens (6) (6 ') is coupled to the cam groove (51) 52 formed in the cam bush (5). The violating lenses 6 and 6 'are configured to move linearly along the cam grooves 51 and 52 and the guide grooves 71 and 72 of the case 7 without rotating together with the cam bush 5. Telescope's scaling structure, characterized in that