RU2704551C1 - Optical sight (versions) - Google Patents

Abstract

FIELD: optical instrument making.

SUBSTANCE: invention relates to optical instrument-making, namely to optical sights intended for sighting during firing from hunting weapons. Optical sight comprises lens (2) installed in common housing (1), movable tube with aiming mark and reeling system with possibility of inclination in two mutually perpendicular planes, mechanisms of alignment along horizontal and vertical lines, eyepiece, movable tube is kinematically connected with horizontal and vertical alignment mechanisms. Aiming mark is installed in the tube in the rear focal plane of lens (2). On the barrel a bushing is installed, which rests against the support ends of the reconciliation mechanisms and is pressed to them by means of a spring. At that, on movable barrel in middle part of external surface step is made with spherical surface with center of curvature on optical axis, around which swivels movable barrel for alignment of sight, which made it possible to make mounting part of body of sight of cylindrical stepless, and grip mechanisms of handles to be installed in ocular part of body of sight. Also disclosed is an optical sight with a sighting mark in the front focal plane of eyepiece (9).

EFFECT: provision is made for mounting part of sighting body cylindrical stepless due to arrangement of alignment mechanisms along vertical and horizontal in ocular part of housing, which makes it possible to approach them to the shooter and to place the sight at a comfortable distance from the shooter's eye irrespective of the weapon modification and the position on it of the bracket for attaching the sighting, and the mounting part of the sight body on the side of the lens allows unobstructed mounting and disassembly of the sight from the weapon, only by loosening the clamp screws without complete removal of the yokes.

2 cl, 6 dwg

Description

The invention relates to optical instrumentation, namely to optical sights, designed for aiming aiming when firing from hunting weapons.

Known optical sight containing a lens mounted in a tubular body, reticle, wrapping system, horizontal and vertical alignment mechanisms, rangefinder scale, distance scale, eyepiece, zoom change mechanism, cam mechanism for changing the aiming angle, mount bracket on the weapon. The sighting mark is mounted in a frame, which is supported at one end by the alignment mechanisms, and the second end, made spherical with the center of curvature on the optical axis of the lens, is locked from axial movement relative to the housing by rings (Patent RU No. 2148775, IPC F41G 1/38, G02B 23 / 12, priority date 10/21/1999). The disadvantage of this technical solution is the decentralized position of the aiming mark relative to the center of the field of view of the sight when introducing amendments, which causes operational inconvenience.

The closest technical solution, prototype, is an optical sight containing an objective mounted in a common housing, an aiming mark, a wraparound system, a horizontal and vertical movement mechanism for the aiming mark, a distance scale and a rangefinder scale, an eyepiece, a magnification change mechanism, and an aiming angle setting mechanism. The mechanism for setting the aiming angles is made up of sequentially placed horizontal and vertical movement mechanisms of the aiming mark in the housing, a wrapping system in a tube mounted with the possibility of tilting in two mutually perpendicular planes. One end of the tube rests on the supporting ends of the mechanisms for moving the sighting mark vertically and horizontally with compression by means of springs, and the second end is pivotally mounted with the center located at the intersection of the optical axis of the sight with the front focal plane of the eyepiece. The aiming mark was introduced into the wrapping system and installed in the image plane of the lens (Patent RU No. 2294511, IPC F41G 1/38, G02B 23/12, priority date August 18, 2005).

The main difference of the known technical solutions is the placement of the external elements of the alignment mechanisms vertically and horizontally - the handles in the middle part of the sight body between the lens and the eyepiece, which, when installing the sight, limits its movement along the barrel of the weapon or requires a special bracket

The objective of the invention is to create an optical sight with improved technical and operational characteristics, namely: to place the handles of the alignment mechanisms horizontally and vertically in the ocular part of the sight housing, to perform the installation part of the sight housing (on the lens side) of the cylindrical stepless, reduce the complexity and increase the manufacturability of the sight design .

The technical result of the invention is that the mounting part of the sight housing is cylindrical stepless by placing the alignment mechanisms vertically and horizontally in the ocular part of the housing, which allows you to bring them closer to the shooter and place the sight at a comfortable distance from the shooter's eye, regardless of the modification of the weapon and the position of the strap on it for mount sights. The mounting part of the sight housing on the lens side allows you to freely mount and dismantle the sight from the weapon, only loosening the screws of the clamps, and not the complete dismantling of the clamps.

Option 1. The technical result is achieved by the fact that in an optical sight containing mounted in a common housing, a lens, a movable tube in which an aiming mark and a reversing system are placed, horizontal and vertical alignment mechanisms, an eyepiece, in contrast to the known ones, on a movable tube on the outer surface in the middle part there is a step with a spherical surface with a center of curvature on the optical axis, around which a movable tube bends to align the sight, which allowed the handles of the alignment mechanisms to be set it in the eyepiece of the sight of the body.

The movable tube is kinematically connected with the alignment mechanisms with the possibility of tilt in two mutually perpendicular planes. On the side of the eyepiece, a step sleeve is installed on the movable tube with a spherical surface at the extreme portion of a larger diameter, by which the sleeve rests on the working ends of the alignment mechanisms and is spring-tightened to them.

On the outer surface of the moving tube in the middle part, a step is made with an element of a convex spherical surface centered on the optical axis of the sight. Two rings with internal concave spherical surfaces are installed in the sight housing. The spherical element of the tube and the ring form a spherical mechanism that provides the inclination (swing) of the tube. Due to the rotation of the reconciliation mechanisms, there is an inclination (swinging) of the tube pivotally mounted in the rings around the center of the spherical surface.

The reticle is mounted in a movable tube in the rear focal plane of the lens.

Option 2. The technical result is achieved by the fact that in the optical sight containing installed in a common housing, a lens, a movable tube in which the wrapping system is placed and a sleeve with an aiming mark is installed on the side of the eyepiece, horizontal and vertical alignment mechanisms, eyepiece, in contrast from the known ones, on a movable tube on the outer surface in the middle part there is a step with a spherical surface with a center of curvature on the optical axis, around which the movable tube bends to align the sight, which allows pouring handle reconciliations mechanisms installed in the eyepiece of the sight of the body.

The movable tube is kinematically connected with the alignment mechanisms with the possibility of tilt in two mutually perpendicular planes. On the side of the eyepiece, a step sleeve is installed on the movable tube with a spherical surface at the extreme portion of a larger diameter, by which the sleeve rests on the working ends of the alignment mechanisms and is spring-tightened to them.

On the outer surface of the moving tube in the middle part, a step is made with an element of a convex spherical surface centered on the optical axis of the sight. Two rings with internal concave spherical surfaces are installed in the sight housing. The spherical element of the tube and the ring form a spherical mechanism that provides the inclination (swing) of the tube. Due to the rotation of the reconciliation mechanisms, there is an inclination (swinging) of the tube pivotally mounted in the rings around the center of the spherical surface.

The aiming mark is mounted in a movable tube in the front focal plane of the eyepiece.

The invention is illustrated by the following graphic materials:

FIG. 1 General view of the optical sight option 1;

FIG. 2 General view of the optical sight option 2;

FIG. 3 Node of reconciliation mechanisms of option 1;

FIG. 4 Node of reconciliation mechanisms of option 2;

FIG. 5 The device of the inner tube option 1;

FIG. 6 The device of the inner tube option 2;

Option 1. The optical sight (Fig. 1) contains a lens 2 mounted in a common housing 1, a movable tube 3 with an aiming mark 4 and a wrapping system consisting of elements 5 and 6, alignment mechanisms horizontally 7 and vertical 8, eyepiece 9.

Correction of the sight in the direction and range is carried out, respectively, by the alignment mechanisms horizontally 7 and vertically 8 (Fig. 3).

The movable tube 3 is pivotally mounted in the sight housing using the rings 10 and 11 (Fig. 5). The working ends of the reconciliation mechanisms 12 and 13 are based on the spherical surface of the sleeve 14 mounted on the tube 3 and are pressed by a spring 15 located along the axis of the tube and at an angle of 135 ° to the axes of the reconciliation mechanisms.

The inclination of the optical axis occurs due to the swinging of the movable tube 3 relative to the axis of the lens and provides a shift in the image of the target relative to the aiming mark 4.

The tube 3 swings due to the rotation of the arms 16 and 17 of the alignment mechanisms horizontally 7 and vertical 8, respectively (Fig. 3).

Option 2. The optical sight (Fig. 2) contains a lens 2 mounted in a common housing 1, a movable tube 3 and a wrapping system consisting of elements 5 and 6 and with an aiming mark 4, horizontal alignment mechanisms 7 and vertical 8, eyepiece 9.

Correction of the sight in the direction and range is carried out, respectively, by the alignment mechanisms horizontally 7 and vertically 8 (Fig. 4).

The movable tube 3 is pivotally mounted in the sight housing using the rings 10 and 11 (Fig. 6). The working ends of the reconciliation mechanisms 12 and 13 are based on the spherical surface of the sleeve 14 mounted on the tube 3 and are pressed by a spring 15 located along the axis of the tube and at an angle of 135 ° to the axes of the reconciliation mechanisms.

The inclination of the optical axis occurs due to the swinging of the movable tube 3 relative to the axis of the lens and provides a shift in the image of the target relative to the aiming mark 4.

The tube 3 swings due to the rotation of the arms 16 and 17 of the alignment mechanisms horizontally 7 and vertical 8, respectively (Figure 4).

Option 1. The inventive device operates as follows. An optical sight is mounted on a weapon. Lens 2 constructs an inverted reduced image of the target in the rear focal plane where the reticle 4 is located. The components of the wrapping system 5 and 6 build a direct image of the target and the image of the reticle in the front focal plane of the eyepiece 9. The shooter sees in the eyepiece 9 a direct enlarged image of the target and the aim brand 4.

When aiming, the shooter combines the eye with the exit pupil of the sight and directs the weapon at the target, combining sighting mark 4 with the point of impact of the bullet. In the process of shooting, after a series of shots, the shooter achieves the coincidence of the midpoint of the bullet’s hit with the aiming point, if necessary, introducing corrections in the direction and range by rotating the arms 16 and 17 of the horizontal and vertical alignment mechanisms.

Option 2. The inventive device operates as follows. An optical sight is mounted on a weapon. Lens 2 constructs an inverted reduced image of the target in the rear focal plane. The components of the wrapping system 5 and 6 build a direct image of the target and the image of the aiming mark in the front focal plane of the eyepiece 9, where the aiming mark 4 is located. The shooter sees in the eyepiece 9 a direct enlarged image of the target and the aiming mark.

When aiming, the shooter combines the eye with the exit pupil of the sight and directs the weapon at the target, combining the aiming mark with the point of impact of the bullet. In the process of shooting, after a series of shots, the shooter achieves the coincidence of the midpoint of the bullet’s hit with the aiming point, if necessary, introducing corrections in the direction and range by rotating the arms 16 and 17 of the horizontal and vertical alignment mechanisms.

Sighting mark 4, regardless of the amendments, is always in the center of the field of view.

When operating the sight in twilight time and when aiming at a dark background, the aiming mark is illuminated by LED 18. The illumination intensity is turned on, off, and adjusted by the button located at the end of the battery compartment 19.

According to the invention, design documentation is developed and prototypes of sights with constant magnification are made: P4 × 24 Divergent and P6 × 42 Divergent, which confirms the achievement of the proposed technical result.

Thus, the presence in the device of new features and new connections between structural elements compared with the known designs of optical sights provides the claimed technical result - the installation of the mounting part of the sight barrel is cylindrical stepless, the implementation of the alignment mechanisms and the placement of the adjustment arms in the ocular part of the sight determines the novelty and inventiveness the level of the claimed technical solution, and the possibility of manufacturing the product at the optical-mechanical enterprise dock calls its industrial applicability, which together establishes the compliance of the optical sight with the conditions of patentability of the invention.

Claims (2)

1. The optical sight contains a lens mounted in a common housing, a movable tube with an aiming mark and a wraparound system with the possibility of tilting in two mutually perpendicular planes, horizontal and vertical alignment mechanisms, an eyepiece, a movable tube kinematically connected with horizontal and vertical alignment mechanisms, an aim the mark is installed in a tube in the rear focal plane of the lens, a sleeve is installed on the tube, which rests on the supporting ends of the alignment mechanisms and is spring-tightened to them, and This is because a step with a spherical surface with a center of curvature on the optical axis is made on the movable tube in the middle part of the outer surface, around which the movable tube swings for alignment of the sight, which made it possible to carry out the installation part of the sight body of a cylindrical stepless, and set the alignment handles in the ocular parts of the sight body. 2. The optical sight contains an objective mounted in a common housing, a movable tube with a reversing system and an aiming mark with the possibility of tilting in two mutually perpendicular planes, horizontal and vertical alignment mechanisms, an eyepiece, a movable barrel kinematically connected with horizontal and vertical alignment mechanisms, on a sleeve with an aiming mark is installed in the tube in the front focal plane of the eyepiece, the sleeve rests on the supporting ends of the alignment mechanisms and is spring-tightened to them, and differs in that In the middle part of the outer surface, a step is made with a spherical surface with a center of curvature on the optical axis, around which a movable tube swings for alignment of the sight, which allowed the installation part of the sight housing to be cylindrical, stepless, and the adjustment arms of the alignment mechanisms to be installed in the ocular part of the sight body.

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