CZ18328U1 - Aiming device, particularly for hand-held firearms - Google Patents

Description

Aiming devices, in particular for small arms

Technical field

The solution relates to a sight especially for small arms, allowing to increase the accuracy of aiming and shooting.

BACKGROUND OF THE INVENTION

So far, known standard and most widespread sights use mechanical sights. Although they are very simple, easy to manufacture and cheap, they have the disadvantage of being inaccurate. Accuracy here strongly depends on the ability of the shooter to aim well. In addition, when aiming it is necessary to constantly refocus the eye between the target, the sight and the sight.

Another type of sight is the so-called "red dot" sight. The principle of this sight consists in directly marking the target with visible light or laser beam. The shooter knows exactly where his gun is going. The disadvantage of this sight is the possibility of detecting the shelter of the shooter due to the radiated beam.

Another type of sight is a holographic sight. Its principle is that the crosshairs seem to move to the plane of the target, so there is no need to refocus the eye when aiming.

The classic means of aiming is an optical sight. Its function is to increase the angle at which the target is observed, and thus seem to enlarge the target. The magnification of the optical sight usually ranges from 4 to 12. The larger the magnification, the better the target is to be seen, but it is far more difficult to hold the weapon in hand and vice versa.

Another type of sight is the so-called infrared sight, also called "infrared sight", which makes it possible to visualize otherwise invisible part of the target's radiation. It is the sensing of heat emitted by a target, such as a human body or a vehicle. This type of sight can be divided into active and passive. Active uses its own invisible radiation source to illuminate the target, while the passive one does not have its own radiation source and thus relies solely on the target's own radiation.

Another possibility of observation of the object is a noctovisor. This aiming device makes it possible to visualize the target, based on the amplification of the residual light emitted or possibly reflected by the target.

The means that can be included among the sights is a camera mounted on the weapon. This is currently used only for sensing the observed target. The observed target is thus transmitted directly to the shooter, who observes the target on the display outside the weapon, for example on a helmet display, and thus does not expose himself to the danger of being detected. Shooting can also be conducted "around the corner" project Land Warrior.

When aiming at a target that is small and at a great distance, it is difficult to aim at it, because the shooter's hands tremble despite all the effort and experience. If the weapon is held in the hand without a support, aiming is difficult, if not impossible. An even more complicated situation occurs when the target moves. In addition, the actual aiming of the weapon is made difficult by the fact that when aiming at the same time depressing the trigger until the moment of the shot. The accuracy of shooting is thus affected by physical and mental stress. It should be noted that when firing correctly, the shot is fired at an unexpected moment when the shooter may not be satisfied with aiming the target. This problem applies to all types of sights. It should be noted that even the magnification of the target, thanks to eg optical sight, does not significantly increase the accuracy of shooting, because it is not eliminated shaking hands holding the weapon.

The latest state of the art and, to date, the most advantageous solution are sights consisting of a sensing system, the output of which is connected to one input of the evaluation circuit, to the other input of which a position trigger is connected. The output of this evaluation circuit is then connected to both the aim indicator and the actuator input. The actuator output is coupled to the trigger mechanism input. The sensor assembly, the evaluation circuit, the actuator, and the focus indicator are coupled to the power source for these parts.

- 1 CZ 18328 Ul

WO 01/55664 A2 discloses a "laser transmitter arranged to be stored in a combustion chamber and a method of simulating the operation of a firearm". The device sends a laser beam to the target in response to the trigger being pressed. Further, the laser is made to project a concentrated beam concentric to the main weapon, thereby allowing use without having to align the laser with the weapon rectification device.

FR 2720492 Al 'Laser aiming device adjustment device' is designed primarily for rifles or short arms and consists of a body mounted on a guide rod, a rod coaxial to the barrel and carrying a laser source, the angular alignment of the laser beam emitted by the source is such that it is sent to the collinear axis mainly by means of adjustment.

U.S. Pat. No. 5,448,834 " Telescopic Collimation Sighting Device " comprises a laser sight whose longitudinal central axis is tubular with a slit on one side and a free end with a lock nut on the other for positioning the device in the barrel of the weapon.

US 6 151 788 "Laser Sight" has a hollow cylindrical housing having two portions, a main cylindrical portion and a tapered end portion. This tapered end portion is coaxial with the main cylindrical portion. The main cylindrical portion has a cavity on one side an open and equally tapered end portion. The cylindrical holster is sized so that it can be inserted into the barrel of the weapon. A lens is placed in the opening of the tapered portion. The laser is positioned inside the end tapered portion inwardly from the lens.

The disadvantages of the known sights are their lack of accuracy, their complexity, weight and large dimensions. Also known sights are not operative and handy. Usually the riflescope on the barrel axis is adjusted. The barrel is not ideally straight and changes during use. Known sights that are inserted into the barrel cannot be regulated, which is another major disadvantage.

The essence of the technical solution

All these disadvantages are eliminated by a sight according to the invention, especially for small arms, which consists in that it consists of a laser body which is coaxially mounted and fixed by adjusting screws in the cavity of the conical body. The conical body has a continuous axial opening for the passage of the laser beam, and on the opposite side to that of the laser body, its shape follows the shape of the cartridge for proper placement in the cartridge chamber of the weapon. It is made of a material softer than the material of the chamber of the weapon, ie brass, duralumin, plastic, etc.

The essence of the technical solution is also that the conical body consists of two successive parts, namely a reduction for receiving the laser body equipped with adjustment screws for adjusting and securing the laser body and a cartridge for long spherical weapons. The cartridge is preferably a fired cartridge of a long spherical weapon.

The sight is inserted through the tapered part into the bullet chamber of the spherical arms either when the weapon is opened or through the cartridge box window.

The device is very simple and easy to operate.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a longitudinal sectional view of a sight according to the invention; FIG. 2 shows a second exemplary embodiment of the sights in a sectional view after 40 cuts.

Examples

FIG. 1 shows a first embodiment of a sight according to the invention. The sight consists of a laser body I, which is coaxially mounted and locked in position by the adjusting screws 2 in the cavity of the conical body 3. The conical body 3 on the tapered side, which is inserted into the cartridge chamber, follows the cartridge case of long spherical weapons.

CZ 18328 Ul

4. On the opposite side to the constriction, the conical body 3 has a cavity and has circumferentially threaded holes for receiving the adjusting screws 2. In this cavity of the conical body 3, the laser body 1 is received in the same longitudinal axis and secured by the adjustment screws 2. The entire device is inserted with a tapered end into the chamber of the long spherical weapon, either when the gun is opened or through the cartridge box.

The conical body 3 is made of a cartridge-like hardness material, i.e. brass, duralumin or plastic, i.e. a softer material than the cartridge chamber material, so as not to damage the gun barrel.

A second embodiment consists of a laser body 11, a reduction 13 for receiving the laser body 11, adjusting screws 12 and a fired cartridge 14 for long spherical weapons. The reducer 13 is a cylindrical body having a cavity for coaxial alignment of the laser body 11 on one side and tapered on the other side and provided with an axial bore for insertion into the cartridge 14 so that the two bores adjoin each other along the longitudinal axis. Adjusting screws 12 arranged around the circumference of the reducer 13 serve to adjust and secure the housing Π. The laser body reduction assembly 13 is inserted into the fired cartridge 14 of the long spherical weapon to be aimed. It is advantageous to use a fired cartridge from a particular weapon since such a cartridge is best suited to the cartridge chamber of the weapon. The entire device, i.e. the laser body assembly 13, the reduction 13 and the cartridge 14 fired, is preconditioned and locked with the adjusting screws 12, whereupon the screws are secured in position by, for example, a glue. The entire device is then inserted into the cartridge chamber of the long spherical weapon, either when the weapon is opened or through the cartridge box.

Sight according to the technical solution is inserted into the chamber of the weapon. Then the user looks into the riflescope and sees at a given distance needed to fire the gun, a point and a cross. These two patterns are usually in different locations. Therefore, these patterns are aligned on each other by aligning the riflescope axis to the laser point. This makes the gun roughly adjusted. After removing the sight, the cartridge is retracted, fired, and the riflescope is re-adjusted to match the missile's impact point. Finally, the sight is retracted and this time, by deflecting the laser sideways, adjusts the laser point to the point of impact of the missile. Then the user marks the position of inserting the sight into the barrel, whether by a line, sticker, or otherwise.

Sight according to the technical solution can be used for multiple weapons. For the same type of weapons and the same caliber sight has universal use. However, accuracy is better achieved when used for each weapon separately. As you use the weapon, the focus may be blurred due to various mechanical effects - such as dropping the weapon to the ground, knocking the weapon, etc. In this case, it is very easy and quick to carry out on-site repair. The sight is inserted into the cartridge chamber, set to the position marked on the weapon and corrected the focus.

With the aiming device according to the technical solution, shooting is more accurate than using any type of existing sights.

Claims (5)

Aiming device, in particular for small arms, characterized in that it consists of a laser body (1) embedded in a cavity of the conical body (3) and secured in a selected position by adjusting screws (2) located in holes around the circumference of the conical body (3) wherein the conical body (3) 40 has a longitudinal axial aperture for the passage of the laser beam and its tapered portion follows the shape of the cartridge for proper placement in the cartridge chamber of the weapon. Sight according to claim 1, characterized in that the conical body (3) is made of a material with a hardness similar to that of the cartridge case. -3 CZ 18328 Ul Sight according to claim 1, characterized in that the conical body (3) is made of brass, duralumin or plastic. Sight according to claim 1, characterized in that the conical body consists of two coaxial adjoining parts, namely a reduction (13) with an axial bore, a cavity for 5 shows the housing of the laser body (11) and the adjusting screws (12) along the circumference of the reduction (13), and from the cartridge (14) for long spherical weapons. Aiming device according to claim 4, characterized in that the cartridge (14) is a fired cartridge of the respective long spherical weapon.