KR200191679Y1 - A fluoroscope for night - Google Patents

Abstract

The present invention relates to a night vision, an objective lens unit having a distortion of the light reflected from the front object and the incident distance and the sharpness of the image,

An optical amplification tube for amplifying light passing through the objective lens unit;

An infrared light emitting diode emitting light when the above light or amplification factor is low,

It consists of the eyepiece portion to have the distortion phenomenon and focal length and the sharpness of the image via the optical amplification tube,

The objective lens unit is composed of the first objective lens, the second objective lens, the metal ring, the third objective lens, and the fourth objective lens so that the bolt part of the rear end is closely coupled to the nut formed on the front side of the optical amplification tube. and,

The eyepiece is composed of the first eyepiece, the second eyepiece, the third eyepiece, the metal ring and the fourth eyepiece so that the bolt portion of the front end is tightly coupled to the nut formed on the rear side of the optical amplifier tube. By receiving minute light in the dark that cannot be recognized by the eye through the objective lens, it is combined with the amount of light from the infrared light emitting diode to shine on the eyepiece so that the person can be visually observed in the most comfortable state. .

Description

Night fluoroscopy {A fluoroscope for night}

The present invention relates to a night vision goggles, and in particular, after receiving the fine light existing in the dark that cannot be recognized by the eye through the objective lens, it selectively merges with the amount of light of the infrared light emitting diode, thereby amplifying and illuminating the eyepiece. This is about night vision, which makes it visible and most comfortable to see.

It is well known that in modern times, people's lives are not limited to daytime, but are also active in the dark night.

And some of the activities of these nighttime people injure others, so monitoring or observation should be done.

Moreover, in recent years when many ecosystems are destroyed, there is a tendency to observe the activities of living creatures in nature at night to protect and prosper them.

Therefore, in the past, illumination from an external light source capable of illuminating an object, such as a star or moon, is reflected at an object that is indistinguishable by the human eye, and then amplified in the perspective of the incident sight, thereby allowing the human to identify it. Perspectives have been proposed and used.

However, the conventional night vision as described above has the disadvantage that it can be used only when there is an external light source such as a star or moon, and of course, the light reflected by the front object is electrically configured. Since the amplification by the observation to the internal configuration is complicated and accordingly the price is increased, there was a problem that is used only in part.

The present invention for solving the above inconvenience by receiving the fine light existing in the dark that can not be seen by the eye through the objective lens and then selectively combined with the amount of light of the infrared light emitting diode to amplify the light to the eyepiece The aim is to provide a night vision lens that allows a person to be visually observed in the most comfortable state.

The present invention for achieving the above object is an objective lens unit to have a distortion phenomenon and the focal length and the sharpness of the image reflected by the front object, and

An optical amplification tube for amplifying light passing through the plurality of lenses of the objective lens unit so that the human eye can be seen with a constant brightness;

An infrared light emitting diode emitting light such that the light passing through the optical amplification tube is very weak or has a low amplification rate, so as to receive light from an internal battery to increase the brightness of 200 to 300 Lux;

It consists of the eyepiece portion to have the distortion phenomenon and focal length and the sharpness of the image via the optical amplification tube,

The objective lens unit is composed of the first objective lens, the second objective lens, the metal ring, the third objective lens, and the fourth objective lens so that the bolt part of the rear end is closely coupled to the nut formed on the front side of the optical amplification tube. and,

The eyepiece is composed of the first eyepiece, the second eyepiece, the third eyepiece, the metal ring and the fourth eyepiece so that the bolt portion of the front end is tightly coupled to the nut formed on the rear side of the optical amplifier tube. By receiving minute light in the dark that cannot be recognized by the eye through the objective lens, it is combined with the amount of light from the infrared light emitting diode to shine on the eyepiece so that the person can be visually observed in the most comfortable state. .

1 is a perspective view showing the appearance configuration according to an embodiment of the present invention.

2 is a cross-sectional view showing a configuration according to an embodiment of the present invention.

3 is a schematic view showing the configuration of an objective lens unit of the present invention.

Figure 4 is a schematic diagram showing the configuration of the eyepiece portion of the present invention.

Explanation of symbols on the main parts of the drawings

1: objective lens unit 3: optical amplification tube

5: eyepiece portion 7: infrared light emitting diode

Hereinafter, the present invention will be described in detail according to an embodiment.

1 shows an external configuration according to an embodiment of the present invention,

An objective lens unit 1 for adjusting distortion, focal length, and sharpness of an image while light incident and reflected from a front object passes through a plurality of lenses;

The objective lens unit 1 is coupled to the front surface and a main body (2) including an optical amplification tube to amplify the light passing through the inside to be seen at a constant brightness to the human eye,

When the light passing through the main body 2 is very weak or the amplification rate is low, the infrared ray generator 3 for emitting light to be supplied with the power of the internal battery (not shown in the drawings) to increase the brightness of 200 to 300 Lux;

An eyepiece lens unit 4 coupled to a rear end of the main body 2 to adjust distortion, focal length, and sharpness of an image while passing through a plurality of internally arranged lenses;

The lower end of the main body (2) is fastened by tightening the screw consists of handles (5) to be gripped by one hand.

Figure 2 schematically shows the internal configuration according to an embodiment of the present invention,

The cover 6 is opened and closed, and the incident light reflected from the front object passes through the plurality of objective lenses 7 to 10 installed in the objective lens unit 1, and thus the distortion and focal length and the sharpness of the image To be adjusted,

The optical amplification tube 13 of the main body 2 which is in close contact with the objective lens 10 through the bolt part 11 formed at the rear end of the objective lens part 1 and the nut part 12 formed at the front surface. ) Amplifies the light passing through the inside to make it visible to the human eye at a constant brightness,

When the light passing through the optical amplification tube 13 is very weak or the amplification rate is low, 200 to 300Lux in the infrared light emitting diode 14 of the infrared generating unit 3 which is powered by an internal battery not shown in the figure. Emit light so that the brightness of

While the eyepieces 17 to 20 in which the eyepieces 4 of the front end are coupled to the rear nut part 15 of the main body 2 are arranged. Distortion, focal length and sharpness of the image are adjusted to observe the object in front.

3 shows the configuration of the objective lens unit of the present invention,

The inside of the objective lens unit 1 has a concave surface of 57.56 mm on the other convex surface of the first objective lens 7 having one side convex surface having a radius of 94.5 mm and the other convex surface having a radius of 57.56 mm. Position the second objective lens 8 so that

Position the third objective lens 9 on the other convex surface having a radius of 215 mm of the second objective lens 8 so as to contact the one side convex surface having a radius of 215 mm while sandwiching the metal ring 21 therebetween.

The other concave surface of the third objective lens 9 having a radius of 45 mm has a distance of 35 mm from the center of the other concave surface of the third objective lens 9 and the one convex surface of the fourth objective lens 10 having a radius of 16.78 mm is in contact therewith. The faint light in front of the other concave surface is transmitted to the optical amplification tube 13 of the main body 2.

4 shows the configuration of the eyepiece unit of the present invention,

The optical amplification tube 13, which is stably amplified by compensating for the case where the light is very weak or the amplification rate is low while selectively receiving the intensity of 200 to 300 Lux from the infrared light emitting diode 14 of the infrared ray generator 3, The light passing through the first eyepiece 17 of the eyepiece portion 4 coupled to the rear end receives the light from the center to the area where distortion does not occur by one side of the concave surface of 171.6mm.

One side convex surface of the second eyepiece 18 having a radius of 24.6 mm is in contact with the center of the other convex surface having a radius of the first eyepiece 17 is 13.56 mm,

The second eyepiece 18 is positioned so that the one convex surface of which the radius of the third eyepiece 19 is 17.36 mm is in contact with the other concave surface having a radius of 14.8 mm,

The radius of the third eyepiece 19 is positioned so that the one side convex surface of which the radius of the fourth eyepiece 20 is 23.6 mm is in contact with the other convex surface of which the radius of the third eyepiece 19 is 97 mm. The light passing through the other convex surface of 228mm is transmitted in a state visible to the human eye.

In the night vision of the present invention configured as described above, the light reflected from the front object is incident on the objective lens unit 1 to adjust the distortion phenomenon, the focal length and the sharpness of the image.

That is, one concave surface of the second objective lens 8 is in intimate contact with the other convex surface of the first objective lens 7 having one side convex surface having a radius of 94.5 mm and the other convex surface having a radius of 57.56, The other convex surface having a radius of the second objective lens 215 is 215 mm so that the one side convex surface having a radius of the third objective lens 215 is in contact with the metal ring 21 therebetween. In order to focus from the center of the other concave surface of the objective lens 9, one convex surface of the fourth objective lens 10 having a radius of 16.78 mm and a radius of 16.78 mm is brought into contact with the other concave surface thereof. Faint light in front is transmitted to the optical amplification tube 13 of the body 2.

In the optical amplification tube 13 of the main body 2 coupled to the nut part 12 formed on the front side of the bolt part 11 formed at the rear end of the objective lens unit 1, light is amplified while passing through the inside. It can be seen with a constant brightness in human eyes.

When the light passing through the optical amplification tube 13 is very weak or the amplification rate is low, 200 to 300 Lux of the infrared light emitting diode 14 of the infrared generating unit 3 which is powered by an internal battery is supplied. Make sure to compensate for the brightness or amplification of the light.

The distortion phenomenon and the focal length are made through the eyepieces 17 to 20 of the eyepiece part 4 in which the bolt 16 of the front end is coupled to the rear nut part 15 of the main body 2. And the sharpness of the image is adjusted to be delivered to the human eye.

That is, the light passing through the optical amplification tube 13 of the main body 2 to compensate for the light or amplification rate while selectively receiving the light intensity from the infrared light emitting diode 14 is the first eyepiece 17 of the eyepiece unit 4. One side of the concave surface with a radius of 171.6mm receives light from the center to the area where distortion does not occur, so that light from a heavily distorted exterior is not transmitted.

In order to focus at the center of the other convex surface whose radius of the first eyepiece 17 is 13.56 mm, one side convex surface of the second eyepiece 18 having a radius of 24.6 mm is adjustable at a distance of 5 mm which can be adjusted. And the one convex surface of which the radius of the third eyepiece 19 is 17.36 mm is in contact with the other concave surface of which the radius of the second eyepiece 18 is 14.8 mm, and the third eyepiece ( 19), the other convex surface having a radius of 97 mm is positioned so that the one convex surface having a radius of the second eyepiece 20 contacts 23.6 mm while the metal ring 22 is sandwiched between the other convex surfaces having a radius of 228 mm. Allow the light to pass through in a way that is visible to the human eye.

Therefore, according to the night vision of the present invention, an objective lens unit for receiving light reflected from an object in front of the object, an optical amplification tube for amplifying light passing through the objective lens unit, and infrared light emitting when the light or amplification rate is low It consists of a light emitting diode and the eyepiece portion for transmitting the light through the optical amplification tube to the human eye,

The objective lens unit is composed of the first objective lens, the second objective lens, the metal ring, the third objective lens, and the fourth objective lens so that the bolt part of the rear end is closely coupled to the nut formed on the front side of the optical amplification tube. The eyepiece portion of the eyepiece is composed of the first eyepiece, the second eyepiece, the third eyepiece, the metal ring, and the fourth eyepiece, and the bolt portion of the front end is closely connected to the nut formed on the rear side of the optical amplifier tube. By being combined, the microscopic light in the dark that cannot be recognized by the eye is introduced through the objective lens and then combined with the amount of light from the infrared light emitting diode to shine on the eyepiece so that the person can be visually observed in the most comfortable state. It is.

Claims (1)

(Correction) the objective lens unit 1 receiving the light reflected from the front object, A main body 2 having a bolt part 11 formed at a rear end of the objective lens part 1 and a nut part 2 formed at a front surface thereof, and including an optical amplification tube 13; An infrared ray generator (3) provided with an infrared light emitting diode (14) for compensating light passing through the optical amplification tube (13) of the main body (2); Night vision glasses, which are coupled to the rear end of the main body 2 provided with the optical amplification tube 3, are configured with eyepieces 4 for transmitting light with adjusted distortion, focal length, and image clarity to a person. To The objective lens unit 1 has a radius of the first objective lens 7 having one side convex surface having a radius of 94.5 mm, and a radius of the second objective lens 8 at one side having a radius of 57.56 mm on the other convex surface having a radius of 57.56 mm. The concave surface The other convex surface having the radius of the second objective lens 215 is 215 mm so that the one side convex surface having the radius of the third objective lens 9 is 215 mm while sandwiching the metal ring 21 therebetween. One convex surface having a radius of 16.78 mm of the fourth objective lens 10 having a distance of 35 mm from the center of the other concave surface of which the radius of the third objective lens 9 is 45 mm and the radius of the other concave surface of 30 mm is contacted. Let's do it, The eyepiece part 4 is a second 24.6 mm radius with a 5 mm interval from the center of the other convex surface having a radius of 13.56 mm of the first eyepiece 17 having one concave surface having a radius of 171.6 mm. One side convex surface of the eyepiece 18 is in contact, One side convex surface of which the radius of the third eyepiece 19 is 17.36 mm is in contact with the other concave surface of which the radius of the second eyepiece 18 is 14.8 mm, The radius of the third eyepiece 19 is positioned so that the one side convex surface of which the radius of the fourth eyepiece 20 is 23.6 mm is in contact with the other convex surface of which the radius of the third eyepiece 19 is 97 mm. Night vision goggles that allow light to pass through the other convex surface of 228mm to be visible to the human eye.