KR20110003014A

KR20110003014A - Display apparatus built-in astronomical telescope

Info

Publication number: KR20110003014A
Application number: KR1020090060590A
Authority: KR
Inventors: 정희철
Original assignee: 정희철
Priority date: 2009-07-03
Filing date: 2009-07-03
Publication date: 2011-01-11

Abstract

PURPOSE: A display device embedded astronomical telescope is provided to enable a user to observe a planet, a fixed star, and a constellation through the screen of a display device, at any time, and anywhere. CONSTITUTION: A display device(20) is located in the rear end of an object lens(30). An operating device(60) is electrically connected to the display device through a first connector(61) and a second connector(62).

Description

Display apparatus built-in astronomical telescope

The present invention relates to a astronomical telescope, and more particularly, a built-in astronomical telescope with a display device capable of observing various celestial bodies, planets, stars, constellations, etc. anytime, anywhere through the screen of the display device by embedding the display device in the barrel of the astronomical telescope. It is about.

Ordinary astronomical telescopes are commonly used to observe the constellations of the celestial body and the surface of the moon at night, and are mainly used for the education of weather stations, research institutes and schools.

The night sky of the city cannot easily observe celestial bodies due to pollution, pollution, etc. In this case, observing the astronomical telescope at high altitude, or out of the city to astronomical observation is possible, and it also took a lot of time to find the star you want.

However, since it is mainly for observing the celestial bodies at night, when the time of use is limited to nighttime, it has only the function of observation itself, and the observer must observe directly at night, and for continuous observation, the eye must be fixed to the eyepiece continuously. When observing the movement of the meteor, etc., the eye was not able to take their eyes, and the fatigue of the eyes was increased, and when the eyes were caught due to the urgent situation, they sometimes failed to capture important moments. It is difficult to observe the image of the celestial body because it is difficult to observe the image of the celestial body by staying at night because of the limitation of the time when it is used for educational use in school. I can't stay in memory And that has been degraded, but furthermore had a problem to be impossible because the only effect of the use consists of learning materials that can be repeated only by training telescopes.

Thus, the present invention was created to solve the above-mentioned problems, a display device having a display device therein that can observe a variety of celestial bodies, planets, stars, etc. by the control device connected to the electrical cable through the display device and the connector. It is an object to provide a built-in astronomical telescope.

In order to achieve the above object, the built-in astronomical telescope according to the present invention is a display device positioned at the rear end of the objective lens in the astronomical telescope model having an objective lens and an eyepiece, and is electrically connected to the display apparatus through first and second connectors. It is characterized in that the solar system including the moon, including the moon, that is, nine planets, 110 planets, 1100 stars, seasonal constellations, individual constellations, and a screen containing their information can be seen.

The astronomical telescope with a display device according to the present invention is characterized in that the screen of the display device can be changed by pressing a corresponding selection button among a plurality of buttons of the selection button portion of the operation device.

According to the astronomical telescope with a built-in display device of the present invention, there is an effect that can be utilized for education of weather stations, research institutes and schools.

Hereinafter, the configuration of the display device built-in astronomical telescope according to the present invention and the action exerted thereby will be described in detail.

Figure 1 is a schematic diagram showing the configuration of a celestial telescope with a display device of the present invention.

As shown in Figure 1, the display device built-in astronomical telescope 100 of the present invention, the barrel 10, the display device 20, which is fixed to a predetermined position inside the barrel 10, the barrel 10 Tripod 50 for supporting the.

The barrel (10) is a 'barrel' that includes a finder used to find objects more easily, with reflective and refractive lenses used to classify telescopes. The eyepiece 40 is inserted from the inner rear end of the barrel 10, and consists of a plurality of eyepieces 41 and a plurality of apertures 42 and serves to enlarge the image of the screen 21, but in the present invention, It was made to process to the barrel 10 so that a movement was impossible.

The objective lens 30 is positioned between the screen 21 of the display device 20 and the eyepiece 40 in the barrel 10. The lens located at the front end of the barrel 10 is a model objective lens 31 '.

The objective lens 30 collects the focus of the image on the screen 21.

Therefore, the eyepiece 40 enlarges the focus on the screen 21 of the display apparatus 20 in the barrel 10.

The display device 20 is electrically connected to the operation device 60 through the first and second connectors 61 and 62.

The first connector 61 is electrically connected to the operation device 60 side, and the second connector 62 is electrically connected to the display device 20 side.

The handle 51 formed on the upper end of the tripod 50 is to rotate the barrel 10 to the left or right or to adjust the angle up and down.

In addition, the hook fixing member 52 is formed in the lower end part of the tripod 50. The hook fixing member 52 is for hanging the string 70 coupled to the operating device 60 by a pair of snap buttons.

FIG. 2 is an enlarged perspective view of portion A of FIG. 1.

As can be seen in FIG. 2, in order to change the screen 21 of the display device 20 in the display device-embedded astronomical telescope of the present invention, the operation device 60 includes a selection button unit 64 composed of a plurality of selection buttons. It includes.

As a result, the screen 21 of the display apparatus 20 can be changed by manipulating a plurality of selection buttons on the selection button unit 64 of the operation device 60. Reference numeral 63 is a power switch.

The screen 21 of the display device 20 includes a solar system celestial body including the moon (FIG. 3), that is, nine planets, 110 celestial bodies, 1100 stars, seasonal constellations (FIG. 4), individual constellations, and their information. Included.

Therefore, whenever the plurality of selection buttons of the selection button unit 64 are operated, screens corresponding to the operation are displayed on the screen 21 of the display apparatus 20.

Moreover, male buttons 65 and 65 'of a snap button are mounted and fixed to both sides of the upper end of the operating device 60.

And a connecting strap 70 having female buttons 71 and 72 of a snap button inserted and fixed at both ends thereof.

Engage the female buttons 71, 72 of the snap button of the tie strap 70 with the male buttons 65, 65 'of the snap button of the manipulator 60 and connect the tie strap 70 to a tripod. It hangs on the hook fixing member 52 formed in the lower end part of 50.

1 and 2, the user makes his eye 90 contact the eyepiece 40 and presses the select button among a plurality of buttons of the select button portion 64 of the control device 60 with his hand. The solar system celestial body (Fig. 3) including the moon, that is displayed on the screen 21 of the display device 20 through his eyes 90, that is, nine planets, 110 celestial bodies, 1100 stars, seasonal constellations (FIG. 4), you will see screens containing individual constellations and their information.

As a result, it is possible to observe various celestial bodies, planets, and star constellations through the display device built-in astronomical telescope according to the present invention, as well as in a cloudy day or bright daylight without stars or moons.

FIG. 2 is an enlarged perspective view of portion A of FIG. 1.

3 is a diagram showing a solar system including the moon.

4 is a diagram showing constellations appearing seasonally.

&Lt; Brief Description of Drawings &

10: barrel 21: screen

30: objective lens 30 ': model objective lens

40: eyepiece 41: eyepiece

42: aperture 50: tripod

51: handle 53: connecting strap

60: control device

61, 62: connector 65, 65 ', 72, 71: snap button

70: ties 90: user's eyes

100: barrel

Claims

In the astronomical telescope model having the objective lens 30 and the eyepiece 41 in the barrel 10,

A display device 20 positioned at the rear end of the objective lens 30,

Solar system objects including the moon, ie nine planets, 110 planets, and stars, including a manipulation device 60 electrically connected to the display device 20 through the first and second connectors 61 and 62. Astronomical telescope with a display device, characterized in that 1100, seasonal constellations, individual constellations, and the screen containing their information can be viewed.

The method of claim 1,

The astronomical telescope with a display device, characterized in that the screen 21 of the display device 20 can be changed by pressing a corresponding selection button among a plurality of buttons of the selection button unit 64 of the manipulation device 60.