KR20170079422A - Sighting device - Google Patents

Abstract

A digital sights are disclosed. According to an aspect of the present invention, there is provided a digital sightslope comprising: a lighting lens unit provided in a main body and having a light emitting element; A battery unit provided in the main body and supplying power to the lighting lens unit; And a digital controller which is provided in the main body and adjusts the brightness of the light emitting device in a digital manner, and is connected to the battery unit to receive power.

Description

Digital Sighting Device {SIGHTING DEVICE}

BACKGROUND OF THE INVENTION 1. Field of the Invention [0002] The present invention relates to a digital sights, and more particularly, to a digital sights capable of adjusting a brightness of a digital image in consideration of a user's convenience.

A sneaker is a sighting telescope, which is attached to a rifle and guides the telescope so that it can be pointed at a large distance.

Here, a rifle is a personal firearm that uses a bullet to shoot a gun with a steel wire, and can precisely hit the target with a sophisticated aim.

The aim of such a rifle is usually to align the line of sight to the target, which is an important step in determining the accuracy of the shot, aligning the scale at the end of the gun with the scale located at the main body of the gun.

However, since the scale and the scale itself are very small and the alignment is disturbed even in small tremors, the shooter needs a high degree of concentration to align the line of sight.

Also, if you care too much about aligning the line of sight, there is a problem that the line of sight and focus on the scale and the scale itself is narrower than the target or forward situation.

In addition, the line-up is relatively time-consuming as opposed to the shooting characteristics that must be hit instantaneously.

In order to solve this problem, a sneaker was attached to the rifle. These sphinxes add coordinate lines or points to the principle of the telescope. They do not require any line-of-sight alignment and can adjust the magnification from a low magnification to a high magnification so that they can be aimed at a distant target.

Conventional aiming methods by line-of-sight alignment of scales and clamps have large errors in vibration or tremor, and short-range and rapid aiming are disadvantageous. In addition, because of the nature of the human eye, which can not be multifocused, it has the disadvantage that it loses its focus on the scale and scale because it is blinded to the target.

Therefore, an optical scope has been developed to eliminate the hassle of line-of-sight alignment and improve accuracy. The optical scope is largely classified into a prism type and a relay lens type, but both use an objective and an alternative lens and a reticle to enlarge a target and to set a target by a reticle.

However, the optical scope also has an error due to vibration or trembling and shows a limit to rapid aiming, and an optical sight such as a dot sight that replaces a reticle with a light point has been introduced and is widely used now.

A technique for reflecting a light source generated from a light emitting element to a reticle of a sight mirror so that the target can be easily aimed at nighttime shooting is disclosed in Korean Patent Registration No. 10-1296340 filed by the present applicant (2013.08.07) "

This prior art supplies the power accumulated through the solar panel to the light emitting element and reflects the light source generated from the light emitting element on the sine of the sight mirror to facilitate aiming at night shooting.

However, the above-described prior art is inconvenient because it adjusts the brightness of the light by the dial system, that is, the analog system.

Korean Registered Patent No. 10-1296340 (Lim, Hyun) 2013. 08. 07.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art,

According to an aspect of the present invention, there is provided a lighting apparatus comprising: a lighting lens unit provided in a main body and having a light emitting element; A battery unit provided in the main body and supplying power to the lighting lens unit; And a digital control unit provided in the main body to digitally adjust the brightness of the light emitting device and connected to the battery unit to receive power.

The body includes: a lens housing having a PCB holder on one side; A fastening ring detachably coupled to the lens housing for fixing the lighting lens unit to the interior of the lens housing; And a cap coupled to the PCB holder and having the battery unit and the digital control unit accommodated therein.

The battery unit includes: a ring screw detachably coupled to an inner wall of the cap; A battery holder supported by the ring screw; And a battery supported by the battery holder.

The battery holder includes: a holder body supported on an upper surface portion of the ring screw; A fixing piece protruding from an upper surface of the holder body and disposed between the inner wall of the cap and the digital controller; And a plurality of support legs provided on a lower side of the holder body to support the battery.

The digital control unit may include: a keypad PCB supported by the battery holder; And a key pad provided on an upper portion of the keypad cover and having an upper end exposed through an opening hole of the cap and having a built-in microcomputer.

The lighting lens unit includes: a lens disposed inside the lens housing; A light emitting element provided in the lens; And a lens cover provided at one side of the lens to receive power from the battery unit.

The lens may be provided with a power line groove, and the power line groove may be silk printed with a carbon material.

Embodiments of the present invention can conveniently control the brightness of the light by a digital controller which is provided in the main body and digitally adjusts the brightness of the light emitting device.

Also, since the battery unit that is provided in the main body and supplies power to the lighting lens unit can be used for a certain period of time, the portability can be improved.

FIG. 1 is a perspective view schematically showing a digital sights according to an embodiment of the present invention.
Fig. 2 is an exploded perspective view of the apparatus shown in Fig. 1, which is rotated 180 degrees.
3 is a plan view showing the digital control coupled to the cap shown in FIG.
4 is a sectional view taken along the line IV-IV in Fig.
5 is a plan view of the lens housing shown in Fig.
6 is a cross-sectional view taken along line IV-IV of Fig.

In order to fully understand the present invention, operational advantages of the present invention, and objects achieved by the practice of the present invention, reference should be made to the accompanying drawings and the accompanying drawings which illustrate preferred embodiments of the present invention.

Hereinafter, the present invention will be described in detail with reference to the preferred embodiments of the present invention with reference to the accompanying drawings. Like reference symbols in the drawings denote like elements.

FIG. 1 is a perspective view schematically showing a digital sight-pointing device according to an embodiment of the present invention. FIG. 2 is an exploded perspective view of the digital still camera shown in FIG. FIG. 5 is a plan view of the lens housing shown in FIG. 2, and FIG. 6 is a cross-sectional view taken along the line IV-IV in FIG. 5. FIG. to be.

As shown in these drawings, the digital sights 1 according to the present embodiment include a main body 100, a lighting lens unit 200 provided in the main body 100 and equipped with a light emitting element 220, A battery unit 300 provided in the main body 100 for supplying power to the lighting lens unit 200 and connected to the battery unit 300 by being provided in the main body 100 to adjust the brightness of the light emitting device 220 in a digital manner, And a digital control unit 400 receiving power.

The body 100 is coupled to a projectile including a gun or a crossbow. In this embodiment, the body 100 includes a lens housing 110 and a lens housing 110, A spring 140 which is provided on the PCB holder 130 to elastically support the battery 330; a PCB holder 130 which is provided on the PCB holder 130; (Not shown).

The lens housing 110 of the main body 100 may be provided in a cylindrical shape with an empty interior as shown in Fig.

In the present embodiment, a thread 111 is provided on the inner wall of the lens housing 110 as shown in FIG. 2, and the fastening ring 120 can be screwed to the thread 111.

6, a wiring groove 112 is formed in the upper portion of the lens housing 110 in this embodiment, and the lens cover 230 and the spring 140 are connected to each other through the wiring groove 112, Can be connected to the wire line.

In addition, in the present embodiment, a support jaw 113 may be provided on the inner wall of the lens housing 110, as shown in Fig. One side of the lens 210 may be supported on the support jaw 113.

5 and 6, a wiring hole 131 is formed in the PCB holder 130 of the main body 100. The wiring hole 131 is formed in the wiring groove 131, (112) and may be provided as a connection path of an electric wire line.

As shown in FIGS. 2 and 5, the spring 140 of the main body 100 includes a coil spring whose diameter increases toward the bottom.

The cap 150 of the main body 100 may be releasably screwed to the upper portion of the PCB holder 130 shown in Fig.

In this embodiment, as shown in FIG. 4, the battery unit 300 and the digital control unit 400 can be accommodated in the cap 150.

The illuminating lens unit 200 is provided inside the lens housing 110 and illuminates in a dark or dark environment to facilitate aiming.

In this embodiment, the lighting lens unit 200 includes a lens 210 which is hooked on one side of the supporting jaw 113 of the lens housing 110 shown in Fig. 2, a light emitting element And a lens cover 230 which is in close contact with the other side of the lens 210.

The lens 210 of the lighting lens unit 200 may be provided in a circular shape as shown in FIG. 2, and a power line groove 211 may be formed in the lens 210 of the surface in contact with the lens cover 230 . A power supply line for supplying power to the light emitting device 220 provided in the lens 210 is provided in the power supply line groove 211.

In this embodiment, the lens 210 may be formed as a transparent acrylic plate, and carbon may be silk-printed on the lens 210 to be in close contact with and electrically connected to the lens substrate 230.

In the present embodiment, the lens 210 at a position corresponding to the wiring groove 112 of the lens housing 110 may be provided with a cut-out groove 212 concavely as shown in FIG. The cutout groove 212 may be provided as a passage of a wire line connecting the lens cover 230 and the spring 140.

The light emitting device 220 of the lighting unit 200 may have a groove at the center of the lens 210 and may be coupled to the groove in a fitting manner.

In this embodiment, power supply to the light emitting device 220 may be performed from the lens cover 230. [ That is, in this embodiment, the lens 210 may be formed by silk-printing carbon on the acrylic plate. When the lens 210 contacts the power terminal of the lens cover 230, power is supplied from the lens cover 230 . The power supplied from the lens cover 230 may be supplied to the light emitting device 220 through the power line groove 211 provided in the lens 210 to light the light emitting device 220. [

The lens cover 230 of the lighting lens unit 200 may be electrically connected to the spring 140 of the main body 100 through a power line and may be in close contact with the lens 210 to supply electricity to the lens 210. [ .

The battery unit 300 is provided inside the cap 150 as shown in FIG. 4 and supplies power to the lighting lens unit 200 and the digital control unit 400.

4, the battery unit 300 includes a ring screw 310 detachably threadably coupled to the inner wall of the cap 150, and a ring member 310 supported on the upper surface of the ring screw 310 A battery holder 320 that holds the battery 330 and a battery 330 that is supported by the battery holder 320 and is elastically supported by the bottom surface of the battery holder 320 in contact with the spring 140.

As shown in FIG. 2, the ring screw 310 of the battery unit 300 may have a circular shape with a thread on the outer circumferential surface and an open center.

4, the ring screw 310 supports the battery holder 320 and the upper surface of the battery holder 320 supports the digital control unit 400, so that the battery 330, (400).

4, the battery holder 320 of the battery unit 300 includes a digital controller 400 having an edge supported on the upper surface of the ring screw 310 and seated on the upper surface of the battery holder 320, As shown in FIG.

2 and 4, the battery holder 320 is pressurized by a digital controller 400 having a circular plate shape with an opening at its center and disposed on the top surface, and the bottom portion of the battery holder 320 is press- (See FIG. 4) disposed between the inner wall of the cap 150 and the outer wall of the digital control unit 400. The holder body 321 includes a holder body 321 supported by the holder body 321, And a plurality of support legs 323 extending from the bottom surface of the holder body 321 and pressing and supporting the outer circumferential surface of the battery 330. [

In this embodiment, the pair of fixing pieces 322 can be spaced apart from each other, and the lower portion of the plurality of support legs 323 can support the battery 330 efficiently, It can be bent.

The battery 330 of the battery unit 300 may be pressed and supported by a plurality of support legs 323 to be fixed in the interior of the cap 150 as shown in FIG.

2, the bottom portion of the battery 330 may be resiliently supported by a spring 140 provided on the PCB holder 130 in the present embodiment.

Further, in this embodiment, the battery 330 may be provided in a circular shape having a thin thickness, as shown in Fig.

4, the digital control unit 400 is provided on the cap 150 so as to be disposed on the battery unit 300, and the light emitting device 220 provided in the lighting unit 200 is connected to the cap 150 via an analog system It adjusts the brightness not digitally.

4, the digital control unit 400 includes a keypad cover 410, which is supported on the upper surface of the holder body 321 and has an edge and is disposed on the upper side of the battery 330, And the upper portion includes a keypad 420 protruding from the upper end of the cap 150. [

In this embodiment, a microcomputer is embedded in the keypad 420, and a positive (+) and a negative (-) sign are displayed on the keypad 420, The brightness of the image can be easily adjusted.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention. Accordingly, such modifications or variations are intended to fall within the scope of the appended claims.

1: Digital sights
100: main body 110: lens housing
111: thread 112: wiring groove
113: support jaw 120: fastening ring
130: PCB holder 131: wiring hole
140: spring 150: cap
200: Illumination lens unit 210: Lens
211: power line groove 212: incision groove
220: light emitting element 230: lens chip
300: battery part 310: ring screw
320: Battery holder 321: Holder body
322: Fixing piece 323: Supporting leg
330: battery 400: digital control unit
410: Keypad F400: Keypad

Claims (7)

A lighting lens unit provided in the main body and having a light emitting element;
A battery unit provided in the main body and supplying power to the lighting lens unit; And
And a digital control unit provided in the main body to digitally control the brightness of the light emitting device and connected to the battery unit to receive power. The method according to claim 1,
The main body includes:
A lens housing having a PCB holder at one side thereof;
A fastening ring detachably coupled to the lens housing for fixing the lighting lens unit to the interior of the lens housing; And
And a cap coupled to the PCB holder and having a battery portion and a cap for receiving the digital control portion. The method of claim 2,
The battery unit includes:
A ring screw detachably coupled to an inner wall of the cap;
A battery holder supported by the ring screw; And
And a battery supported by the battery holder. The method of claim 3,
The battery holder includes:
A holder body supported on an upper surface of the ring screw;
A fixing piece protruding from an upper surface of the holder body and disposed between the inner wall of the cap and the digital controller; And
And a plurality of support legs provided on a lower side of the holder body to support the battery. The method of claim 3,
The digital control unit includes:
A keypad PCB supported by the battery holder; And
And a key pad provided on an upper portion of the keypad cover and having an upper end exposed through an opening hole of the cap and having a built-in microcomputer. The method of claim 2,
The light-
A lens disposed within the lens housing;
A light emitting element provided in the lens; And
And a lens cover provided at one side of the lens and supplied with power from the battery unit. The method of claim 6,
The lens is provided with a power line groove,
Wherein the power line grooves are silk-printed with a carbon material.

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