KR910007142B1 - Target system - Google Patents

Abstract

The laser target system transfers hit point images on a target board to a display board near a shooter, so a precise pinpoint adjustment of the rifle sight is possible within an indoor or small place. The laser shooting device of the rifle comprises a magazine (24) within which a visible ray laser (22), a control lens (26), a shutter (31), a right angle prism (27) and the objet lens are sequentially equipped, a trigger hook (34) connected to the shutter (31) and a spring (33), and a lawer generator (25) connected to the laser (22). The laser target board has a number of pixel units and laser hopper for gethering the laser from the rifle, and the display board having pixel units and a laser horns for radiating the layer transfered from the target board via a photo cable.

Description

Laser target system for rifle aiming and training and training

1 is a diagram illustrating a training state by the present invention laser target system.

2 is a connection state of the target plate and the display plate of the present invention.

3 is a schematic configuration diagram of a laser firing apparatus mounted to a rifle.

4 is a partially enlarged cross-sectional view of the present invention laser oblique zero target plate.

5 is a partially enlarged cross-sectional view of the laser zero display panel of the present invention.

6 is an explanatory diagram of the incidence, transmission, and display of a laser beam.

* Explanation of symbols for main parts of the drawings

1: laser hopper 3: transparent substrate

4 pixel unit 5 translucent substrate

6: laser horn 7: pixel unit

8: plastic optical cable L: laser oblique zero target plate

D: laser zero display plate 11: laser light incident surface

12 laser output stage 13 laser medium

14: tapered surface 15: grade

16: cladding 41: partition line

61 laser input terminal 62 laser light emitting aperture

63: laser medium 64: tapered surface

65: grade 66: cloth

71: partition line

The present invention relates to a laser zeroing target system for aiming alignment training and education of a rifle using a plastic optical fiber that is advantageous for short-range light transmission.

The main object of the present invention is to emit a visible laser beam in lieu of the 25m zeroing fire of a rifle, a personalizer, and to display an image of the impact point (laser baggage) captured on the target area on the display panel near the shooter. By adjusting the zero point in the room or narrow place, it can save the bullet, all-weather day and night zero point adjustment or zero point adjustment at any time. Zero-point adjustment is possible, and it is easy to carry and noise-free zero-pointing shot is realized so that it can be utilized not only during training but also in enemy battles. It is to provide this common zeroing laser target system.

It is another object of the present invention to provide a laser zeroing target system that can be used as an alternative to the electronic zeroing target plate.

In other words, the conventional electronic zero-targeting target plate is composed of a target and a display device using a photodiode and a light emitting diode, and when used during the day, the sensor malfunctions due to sunlight frequently occur, so that the desired efficiency cannot be sufficiently expected. In the present invention, by directly displaying the laser beam captured by the impact point on the display panel, the malfunction caused by the white light is fundamentally eliminated, and the visible laser beam is directly used as the display light source to enable a clear display of the impact group.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

The laser oblique target plate (L) and laser zero display plate (D) of the laser zeroing target system as shown in FIG. 2 and the plastic optical cable (8) for connecting and transmitting images thereof are described in detail. In addition, briefly referring to the laser emission mechanism of the personalizer in connection with the present invention, the laser oblique zero target plate (L) of the plastic optical fiber is actually the same standard as the 25m zero aiming target plate, and collects the laser beam. The laser hopper 1 is attached to each unit 4 of the pixels serving as a pixel.

Therefore, the transparent substrate 3 is the same size as the target for 25m actual zero aim shooting, the surface of which is indicated by the dividing line 41 and other targets of the pixel unit 4, and the unit of the pixel unit 4 on the back side thereof. The laser hopper 1 is fixed and installed every time.

The laser hopper 1 is composed of a laser medium 13 connecting the outer surface of the laser light incident surface 11 and the laser output end 12 on the normal axis, and the tapered surface 14 of the laser medium 13. ), The grade 15 and the coating 16 are formed.

The laser light incident surface 11 of the laser hopper 1 attached to the rear surface of the pixel unit 4 maintains the shape and size corresponding to the pixel unit 4, and the laser output terminal 12 is 120 μm, such as a plastic optical fiber. Will have a core diameter of.

The laser zero display plate D is a configuration corresponding to the laser oblique zero target plate L, and the translucent substrate 5 includes pixels corresponding to the pixel unit 4 of the laser oblique zero target plate L. The dividing line of the unit 7 and other target lands are indicated, on the back of which a laser horn 6 is attached to each unit of the pixel unit 7.

In addition, the laser zero display plate D may be configured to be larger or smaller than the laser oblique zero target plate L, but the arrangement of pixels and horns should match the arrangement of the laser oblique zero target plate L.

The laser horn 6 is composed of a laser medium (63) connecting the outer surface of the laser light emitting aperture (62) and the laser input end (61) on a normal axis, and the tapered surface of the laser medium (63) ( 64, a grade 65 and a sheath 66 are formed.

The plastic optical cable 8 having the grade 65 and the sheath 66 has a large diameter (500 μm-1000 μm) and has a laser oblique target plate (L) and a laser zero display plate (D) at a 25m shooting range. Secure enough length to connect.

The connection portion of the laser cable output end 12 and the end of the plastic optical cable 8 of the laser hopper 1 as described above, and the connection end of the laser input end 61 and the other end of the plastic optical cable 8 of the corresponding laser horn 6. It is connected by a laser cable connector or the laser hopper 1, the laser horn 6, and the plastic optical cable 8 are integrally connected.

Then, the plastic optical cables 8 connecting the corresponding laser hoppers and the laser horns are bundled with a clip 83 and covered with a sheath 84 to form the inside of the cable.

The above-described laser oblique zero target plate L or laser zero display plate D, except for the surface, constitutes an appropriate cover to protect the laser hopper 1 or the laser horn 6 and to prevent its separation.

The zero aiming target plate is installed in a line of laser 25-meter distance from the shooter and the laser zero display board (D) in front of the shooter or shooter near the shooter as shown in FIG. By emitting the visible laser beam 23 of the He-Ne laser 22 or the Xe laser 23 having the visible light of 633 mm wavelength to the laser oblique target plate L, the impact point is pixel of the zero display panel D. It is shown on (Pixel).

Referring to FIG. 3, a laser beam emitting device mounted on the personalizer 21 is described. The laser emitting device such as the He-Ne laser 22 is installed in the magazine 24, and the laser 22 The underside was connected to the laser oscillator 25.

The laser beam 23 is adjusted in the laser in the adjustment lens 26, the diffraction focus and direction are switched in the right-angle prism 27, and in the objective lens 28 to prevent the light emission angle compression lens 32 and the light spreading and coagulate. After re-adjustment, alignment with the trajectory 30 in the barrel 29 is released out of the muzzle and the path interruption of the laser beam is made possible by the shutter 31 interlocked with the trigger.

In addition, the shutter 31 is connected to the spring 33 and the trigger hook 34 fixed to the magazine 24 so that it can be moved forward and return.

Such a laser beam firing device can be moved by inserting a magazine into another firearm of the same kind, and can be applied to a conventional personalizer requiring zero adjustment such as a Calvin rifle and an M16.

Referring to the accompanying drawings, the process of the laser beam according to the present invention is emitted from the personalizer and displayed with reference to FIG. 6, first, when the trigger is pulled, the shutter 31 is pulled together with the trigger hook 34 and the HE-XE laser beam. The laser beam 23 emitted from the laser beam 22 is focused by the adjustment lens 26 and the right angle prism 27 and the direction of the beam is out of the trajectory 30 through the firing angle compression lens 32 and the objective lens 28. It is discharged and captured by the laser diagonal zero target plate L pixel unit 4.

The laser beam that has passed through the transparent substrate 3 of the pixel unit 4 is incident on the laser medium 3 through the laser light incident surface 11 and connected at the tapered surface 14 of the laser hopper 1. And collected at the laser output stage 12 and transmitted to the laser zero display panel D by a plurality of plastic optical fiber cables 8.

The connection laser beam 23 transmitted as described above is incident on the laser medium body 63 at the optical fiber laser input terminal 61, diffuses while propagating the laser medium body 63, and then through the emission opening surface 62. Incident and scattered on the translucent board | substrate 5, it is made to emit light with visible light on the pixel unit 7 of the laser zero display panel D. As shown in FIG.

Therefore, the contact point displayed on the laser zero display panel D corresponds to the laser hopper 1 and the laser horn 6 on a pixel-by-pixel basis so that a phase such as a laser beam capture position appears on the laser pre-zero target plate L. do.

Since the display of the impact point appearing on the target plate lasts only while emitting the laser, the display is memorized or memorized by a writing instrument that can be erased on the display panel, and then a number of zero aiming shots are performed to obtain an impact group. If the trapping group shown in D) is misdiagnosed to the right from the upper body target, for example, the rifle scale and the number of clicks can be corrected to the left so that accurate click correction can be performed.

According to the present invention as described above, by firing a visible laser beam in place of the zero aim shot, the impact point captured by the laser oblique zero target plate is shown on the laser zero display panel in front of the shooter or shooter or the sensitizer to confirm the shooter directly or By confirming the impact point to the shooter, the shooter or marker can adjust the zero point indoors or in a narrow place, save the bullet, and adjust the zero point at night or at all times during training. There is an effect that can provide a laser zeroing target plate that a number of troops can share.

Claims (1)

The visible light laser 22, the adjustment lens 26, the shutter 3, the right angle prism 27, the beam firing angle compression lens 32, and the objective lens 28 are sequentially arranged in the magazine 24, and the shutter (3) is connected to the trigger and the magazine 24 by the trigger hook 34 and the spring 33, and the laser beam device is connected to the visible light laser 22 to the laser oscillator 25 is a personalized device ( 21, and the laser oblique zero target plate (L) and the laser zero display plate (D) are connected by an optical cable (8), and the laser oblique zero target plate (L) is a plurality of pixel units (respectively collecting laser beams). 4) and the laser hopper 1, and the laser zero display panel D is formed of a plurality of pixel units 7 and a laser horn 6, each of which emits a laser beam with visible light, and the laser hopper 1 And tapered surfaces 14 and 64 of laser horn 6 are formed with grades 15 and 65 and sheaths 16 and 66, respectively. A plurality of optical cables 8 are again sheathed 84 and tied together with a clip 83 to pull the trigger of the personalizer so that the emitted laser beam 23 is captured by the laser oblique zero target plate L Aiming line training and training laser target system for a rifle, characterized in that the zero point practice with the click correction of the scale by the phase that is transmitted to the laser zero display panel (D) through the cable (8).

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