RU2087829C1 - Collimating sight with luminous marker - Google Patents

Abstract

FIELD: optical instrumentation engineering, in particular, optoelectronic sights for small arms. SUBSTANCE: collimating sight has a casing accommodating a barrel with a spherical mirror, light source for producing the sight marker with adjustable luminance, adjusting screws acting on the barrel together with the springs. At a change of the spherical mirror angular position the light source remains fixed. To expand the sight operating range in the conditions of different illuminance of the target, a glass with a photochrome coating is installed before the spherical mirror. The luminance regulator and battery compartment with cells is installed in a common casing and arranged in the front part of the cell. EFFECT: improved design. 3 cl, 2 dwg

Description

 The invention relates to the field of optical instrumentation, and in particular to the design of optoelectronic sights for small arms.

 There are known designs of small arms equipped with a collimation sight containing a mirror lens, a shaper of the aiming mark and a mechanism for combining the sighting axis of the sight with the axis of the barrel of the gun.

 The main requirements that are imposed on sights for small arms are: simplicity and reliability of the design, low weight and dimensions, ease of use.

 The main disadvantage of the known designs [1] [2] [3] are the complexity of manufacturing optical parts, the large dimensions and weight, the complexity of the electronic circuit (built-in generator), and the difficult wiring of moving parts, which reduces reliability in harsh operating conditions.

 A known design of the optical sight for small arms [4] which is the closest in technical essence to the claimed invention. The sight includes a housing consisting of two tubes, one of which contains an optical sight system containing an LED emitting light directed at a translucent spherical mirror. On this tube are mechanisms to control the angular position of the optical system. In another pipe, an electric sighting system is mounted, containing batteries and a dimmer for the brightness of the aiming mark.

 The disadvantage of the design of this sight is the complexity of manufacturing a body consisting of two pipes. In addition, such a housing design leads to an increase in the transverse size of the sight, which makes it difficult for the arrow to observe the target. The LED located inside the tube containing a spherical translucent mirror partially overlaps the field of view, which also makes it difficult to observe the target and aim.

 In the proposed design, the body of the optical sight, in order to simplify manufacturing, as well as reduce the transverse size, is made uniform. Located in the housing, the brightness control of the glow of the reticle and the battery compartment are placed in the front of the sight, which simplifies the design by reducing the number of parts, increases reliability and improves the performance of the sight. The sighting light source is located on the inner surface of the sight housing, which avoids the overlap of the field of view, as well as simplify wiring, increasing its reliability due to the location of the light source on a fixed part.

 In front of a spherical mirror with a spectrodividing coating, a frame is mounted in which a glass with a photochromic coating is fixed, which serves to increase the degree of contrast of the aiming mark and target, which improves the convenience of aiming in conditions of maximum illumination of the target, as well as increase the battery life.

 A comparative analysis of the proposed solution with the prototype shows that the present invention contains new distinctive features: the light source forming the reticle remains stationary when the angular position of the mirror changes, in front of which there is a frame with a photochromic coated glass attached to it, and the brightness regulator for the luminance of the reticle and the battery compartment with batteries installed in a single housing and are located in front of the sight, which meets the criteria of the invention of "new a".

 These distinctive features in the prototype and known technical solutions are not found, which allows us to conclude that the criteria of the invention meet "significant differences".

 The invention is illustrated by the drawing, which shows a cross section of the sight (Fig. 1) and a cross section of the housing (Fig. 2).

 The collimation sight for small arms contains a housing 1, in which a tube 2 with a spherical mirror 3, forming together with a light source (LED) 4, a collimation optical unit operating without magnification, a battery compartment 5 with light source batteries, an aiming brightness dimmer, is located grades 6, adjusting screws 7, springs 8 and frame 9 with glass with photochromic coating 10.

 The operation of the collimation scope is carried out as follows: the light source 4, fed from the batteries 5 through the dimmer 6, forms an image of the aiming mark on the spherical mirror 3 with a spectro-splitting coating, which, reflected from the spherical mirror 3, enters the eye of the observer. Aiming is carried out by combining the image of the target observed through glass with a photochromic coating 10 and a spherical mirror 3, with the image of the aiming mark. The desired brightness of the reticle is selected by turning the brightness control knob 6, combined with the power switch.

 Glass with photochromic coating 10, located in front of the spherical mirror 3, allows you to expand the range of operation of the sight in conditions of different illumination of the target. With minimal illumination of the target, the frame 9 with the glass 10 can be removed.

 Adjusting screws 7 are located on the housing 1, which together with the springs 8 allow you to adjust the position of the tube 2 with a spherical mirror 3 relative to the light source 4 mounted on the housing 1, in the horizontal and vertical directions for adjusting the sight and making corrections for the firing range, as well as lateral drift and derivation of a bullet.

 The sight is attached to the small arms for the cylindrical part of the housing 1 using a standard mount.

Claims (3)

 1. A collimating sight with a luminous mark, comprising a housing including a tube in which a spherical mirror is mounted, and a light source located in the housing for forming an aiming mark, a mechanism for regulating the position of the tube with a spherical mirror relative to the housing, a brightness control for the luminance of the aiming mark, battery compartment with batteries, characterized in that the light source is located outside the tube with a spherical mirror and mounted on the inside of the housing.  2. The sight according to claim 1, characterized in that in front of the spherical mirror a frame is mounted in which a glass with a photochromic coating is fixed.  3. The sight according to claim 1 or 2, characterized in that the brightness control of the glow of the reticle and the battery compartment with batteries are installed in the front of the case.

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