SK5607Y1 - Scheme of sight for optical device of firearm - Google Patents

Abstract

Scheme of sight is placed in a viewing field (1) of a firearm optical viewfinder, particularly of a long rifle type a firearm, a submachine gun. The scheme of sight has under a targeting centre (2) of the basic distance at least one other aiming mark (3) of greater distance shooting. The spacing of the aiming mark (3) from the targeting centre (2) is forming the viewing angle, which corresponds to the deflection of a firearm by a ballistic trajectory needed in shooting distance for the aiming mark (3). The aiming mark (3) may have of above oriented the arrow shape and/or of opposite rotated the letter V, and/or "+" sign, and/or dot, and/or another sign, preferably with sharply shaped a top portion.

Description

SK 5607 Υ1

Technical field

The technical solution relates to the deliberate warp of an optical firearm device, in particular a long firearm. The deliberate warp serves to accurately aim the firearm at different firearm distances from the target, in particular a rifle or submachine gun, preferably, but not exclusively, with a caliber of 7.62. The technical solution simplifies the method of aiming the target at various magnifications of the optical device without the need for mechanical distance adjustment.

BACKGROUND OF THE INVENTION

When aiming with a firearm, the shooter aligns the sights that are height-adjusted to the ballistic curve of the missile at a given distance. When shooting at a different distance, it is necessary to correct the height deflection, so that the shot hits the target. For mechanical sights, the height extension of the sights is used by moving them on the sloping surface of the slider. In optical sights, mechanical adjustment of the angle of the optics is used, for example by means of a micrometer screw or electronically actuated actuators, as in the case of the solutions of CA2686228, EP0918243. Published patent application DE19940118 (ESCHEMANN WILHELM) utilizes a computer processing of the ballistic path to detect the correction of the aiming mark. These devices and systems are structurally complex, demanding on operating conditions and, last but not least, also costly. Similarly, other known devices require more complex operation and training of the shooter in use. A simple solution is desired, which will be conveniently applicable in most cases of shooting at various distant targets.

The essence of the technical solution

The aforementioned drawbacks are substantially eliminated by a deliberate warp located in the field of view of the optical firearm device, in particular a long firearm, wherein the deliberate warp includes a base distance aiming center according to the present invention which is located at least below the base distance sighting center one sighting mark of a different shooting distance, the distance of the aiming mark from the aiming center being the viewing angle corresponding to the deflection of the firearm required to fire at the distance of the respective aiming mark. The distance of the aiming mark from the aiming center thus takes into account the ballistic curve of a particular firearm.

For easier and more accurate focusing, it is advantageous if the aiming mark has a shape whose upper part is sharp. The tip of such a sighting marker shows the exact point to be identified with the target being observed. The targeting mark may be in the form of an upwardly directed arrow and / or a reversed letter V and / or a + and / or dot. Such shapes are advantageous since they clearly indicate the aiming point and do not occupy an unnecessarily large area in the field of view.

Aiming center can be marked with the same feature as aimage marks, but this is not a requirement. The alignment marks used in one deliberate warp may be marked with the same feature, e.g. but they can also be marked with different characters for different distances from the destination. In practice, it will probably be the most used solution where the aiming center and the aiming marks will consist of the same feature. Thus, in the deliberate warp, sight marks of different distances are pre-introduced, and are simultaneously observable when viewed through the optical sight. In this way, the need for physical or optical movement of the aiming mark along the vertical axis of the warp is avoided, which substantially simplifies the design of the optical sight.

To use the deliberate warp according to the present invention, it will be appropriate if the warp has the aiming center set at the base distance and, in addition, three sighting marks for distances of 100 m increments. With a long firearm, the aiming center can correspond to 100 m shooting distance and the aiming marks will be in turn designated for 200 m, 300 m and 400 m.

The spacing of the sight marks in the vertical plane will correspond to the ballistic curve of the firearm. In a preferred embodiment, the deliberate warp will be set to 7.62 x 39 ammunition. In order to achieve the desired shooting accuracy under normal weather conditions, the sight marks spacing for distances of 200 m, 300 m and 400 m will be measured from the aiming center at 10300: 26717: 48757 with an accuracy of ± 10%. This spacing ratio corresponds to the viewing angles by which the barrel of the weapon must be deflected at given target distances. Thus, the described technical solution provides a simple and reliable means for aiming at different distances without requiring any mechanically moving parts. When aiming at a target at 400 m, the shooter must identify the target with the top of the 400 m aiming mark and similarly at other distances.

SK 5607 Υ1

A system of auxiliary scales can be used to measure the distance of the target from the firearm in a preferred arrangement. The auxiliary scales can be adjusted to the height of the object or person to be observed, e.g. height 1,8 m. The auxiliary gauges can be scaled precisely for the distances of the sighting marks, ie. e.g. 100 m, 200 m, 300 m, 400 m. A shooter aiming at a person may assume that the person has an approximate height of 1.8 m. Then, in the field of view, he stands a standing person on the base line of the sub-scales, and judges to which level the sub-scale in the viewfinder's field of view extends. In the case that e.g. reaches the lowest auxiliary scale, can reliably evaluate that the person as the target of fire, is located at a specified distance, here, for example. at a distance of 400 m. According to this finding, they then target the aiming mark for a distance of 400 m to the target. The closer the target person is, the more he occupies the field of view and, depending on the distance from the rifle, his image in the field of view can be positioned at the appropriate height of the auxiliary measures. These can be graphically or in color linked to the appropriate sight mark, but this is not necessary as the shooter intuitively perceives the relationship between the observed height of the person and his distance from the rifle. Also, each line may be labeled with a number indicating hundreds of meters of the measured distance, e.g. such as 1,2, 3,4 for 100 m, 200 m, 300 m and 400 m.

To increase the utility value of the deliberate warp, points for correcting the lateral deflection of the weapon when aiming at a moving target or taking into account the crosswind may be staggered on the sides of the aiming center. These correction points serve to improve the orientation of the shooter even during repeated firing, so that he can assess the result of the shooting with the aiming point.

BRIEF DESCRIPTION OF THE DRAWINGS

The technical solution is explained in more detail with the aid of Figures 1 to 3, wherein Figure 1 is an external view of a sighting optical device in which an intentional warp with four sighting marks is used.

Figure 2 shows a field of view with a deliberate warp with four sighting marks and auxiliary measures for 4 corresponding distances.

Figure 3 shows a detail of the deliberate warp with the spacing of the sight marks.

Example

The deliberate warp of this example is used in an 8x magnification optical sight. The optical sight is attached to a long 7.62 x 39 caliber firearm. The deliberate warp is applied to the surface of the optical lens. The deliberate warp comprises two horizontal lines (e.g., 0.5 mrad thick) that are highlighted at horizontal level, starting at the perimeter of the field of view 1 and ending in front of the center of the field of view. Thinner segments (e.g., 0.1 mrad thickness) with four points on both sides are then discharged into the center of the field of view 1, the segments not being connected. The points are scaled at an angular distance of 1 mrad. The point is a circle with a diameter of 0.2 mrad. In the center of the field of view 1 is located the top tip of the sight mark 3 for a basic distance of 100 m. The sighting mark 3 has the shape of an inverted V, its height in this example being 0.5 mrad. The deliberate warp has a total of four sighting marks 3 of the same shape and size, which are located one below the other in a vertical line. The distance x of the second sight mark 32 (200 m) from the aim mark 3 for 100 m is 0.103 mrad. The distance y of the third sight mark (300 m) from the sight mark 3 for 100 m is 0.26717 mrad. The distance from the fourth sight mark (400 m) to the sight mark 3 for 100 m is 0.48757 mrad. These spacings take into account the course of the ballistic curve and the associated necessary deflection mainly.

At the bottom of the field of view there are auxiliary gauges 4 for detecting the distance of the target from the firearm. The sub-gauges 4 consist of a lower base line and four shorter lines spaced above the base line so that the observed height of the object with an actual height of 1.8 m corresponds to the spaced distance between the base line and the corresponding line for 100 m, 200 m, 300 m and 400 m. The lowest line corresponds to a distance of 400 m. In this example, the line segments to the base line are 0.4969 mrad, 0.6261 mrad, 0.93915 mrad, 1.8783 mrad. The length of the line is 5 mrad. In another example, the base line of the auxiliary slots 4 may be the center line of the field of view 1 and then the other lines are located in the upper half of the field of view 1.

The shooter first determines the target distance by the auxiliary measures 4 and then selects the most appropriate of the four sighting marks 3, 32, 33, 34 in the deliberate warp according to the determined or estimated distance. In their position, the effect of ballistic curve progression at a given distance is calculated and taken into account in advance.

SK 5607 Υ1

Industrial usability

Industrial applicability is obvious. According to this technical solution, it is possible to produce and use the deliberate warp in the sight of the optical sighting of a firearm, in particular but not exclusively a long rifle, a rifle, a submachine gun.

PROTECTION REQUIREMENTS

Claims (11)

A deliberate warp located in the optical field of view of a firearm optical sight, comprising a sighting center (2), characterized in that at least one sighting mark (3) of greater firing distance is located below the sighting center (2) of the base distance. the aiming mark (3) from the aiming center (1) forms the viewing angle corresponding to the deflection of the firearm required by the ballistic curve when firing at the distance of the relevant aiming mark (3). The deliberate warp of a firearm according to claim 1, characterized in that the sighting mark (3) has a shape whose upper part is sharp. The deliberate warp of a firearm according to claim 1 or 2, characterized in that the sighting mark (3) is in the form of an upwardly directed arrow and / or an inverted V and / or the + and / or dots. A deliberate warp of a firearm according to any one of claims 1 to 3, characterized in that a mark of the aiming mark (3) is used to indicate the aiming center (2). A deliberate warp of a firearm according to any one of claims 1 to 4, characterized in that the aiming center (2) is formed by a sighting mark (3) for a shooting distance of 100 m. The deliberate warp of a firearm according to any one of claims 1 to 5, characterized in that the warp, in addition to the aiming center (2), comprises three aiming marks (3) for distances of 100 m increments. A firearm deliberate warrant according to claim 6, characterized in that the aiming center (2) corresponds to a target distance of 100 m, the aiming marks (32, 33, 34) correspond to a target distance of 200 m, 300 m and 400 m. The deliberate warp of a firearm according to any one of claims 1 to 7, characterized in that the spacing of the sight marks (3, 32, 33, 34) corresponds to a ballistic curve of 7.62 x 39 caliber ammunition. A firearm deliberate warrant according to claim 7 or 8, characterized in that the spacing of the sight marks (32, 33, 34) for distances of 200 m, 300 m and 400 m from the sighting center (2) corresponding to a distance of 100 m is 10300 : 26717: 48757 with a deviation of ± 10%. A deliberate warp of a firearm according to any one of claims 1 to 9, characterized in that it comprises auxiliary measures (4) for optical measurement of the distance of the firearm from the object to be observed or the person to be observed at a predetermined height, preferably 1.8 m. the auxiliary measures (4) are scaled for the distances of the sight marks (3, 32, 33, 34). A deliberate warp of a firearm according to any one of claims 1 to 10, characterized in that the sides of the aiming center (2) have stepwise spaced points for correcting the lateral deflection of the firearm when aiming at a moving target and / or taking into account the wind effect. 3 drawings