EA031779B1 - Optical sight - Google Patents

Abstract

A variable-magnification optical sight is intended for use when firing firearms. The optical sight comprises, installed in a housing (1), a lens (2), an eyepiece (3), a casing (5), in which are positioned a rotational system (6), (7) and a magnification adjustment system (8), (9) in a movable barrel (10), a reticle (4), a magnification adjustment mechanism (14), (15), (16), alignment mechanisms (19), the casing (5) is kinematically coupled with the alignment mechanisms (19) and is provided with a longitudinal groove, the lens end (2) of the casing (5) is spherical and abuts the housing (1), a bushing (11) is installed between the casing (5) and the lens (2) and abuts the inner spherical surface of the casing (5), a threaded ring (12) is mounted in front of the lens (2), a second threaded ring (13) is mounted on the other end of the casing (5), with the working ends of the alignment mechanisms (19) abutting said second threaded ring, the magnification adjustment mechanism is comprised of a pusher (14), a lever (15) and a handle (16), which are kinematically coupled to one another, the pusher (14) is connected to the barrel of the magnification adjustment system (10). The dimensions of the device are reduced and the design thereof is simplified by virtue of simplifying and combining the mechanisms for changing the equivalent focal length of a lens, for adjusting the magnification and for aligning a sight.

Description

The invention relates to an optical instrument, in particular to optical sights used for shooting small arms.

Known optical sight, containing installed in the General body of the lens, aiming mark, wrapping system, the mechanism for moving the aiming mark horizontally and vertically, distance scale and rangefinder scale, eyepiece, the mechanism for changing the magnification, the mechanism for setting the aiming angles. The mechanism for setting the aiming angles is made of successively placed in the case of the mechanisms for moving the aiming mark horizontally and vertically, which wraps the system in a tube installed 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 other end is hinged 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 is introduced into the wrapping system and installed in the plane of the lens image (patent RU No. 2294511, IPC F41G 1/38, G02B 23/12, priority date 08/18/2005).

The disadvantages of the known technical solutions - large longitudinal dimensions and the complex design of the mechanisms of aiming. This is not always user friendly.

The closest technical solution, the prototype, is an optical sight containing a lens installed in a tubular housing, an aiming mark, a wrapping system, horizontal and vertical alignment mechanisms, a distance measuring scale, a distance scale, an eyepiece, a zoom change mechanism, a cam mechanism for changing the angle of sight, a bracket mounts on the weapon. The mechanism for changing the magnification contains two bushings mounted on the body with the possibility of rotation beyond the cylindrical cam with a radial rectangular groove. The first sleeve has two cylindrical flanges with coaxial rectangular grooves in each of them. On the cylindrical surface of the sleeve is radially located a finger connected to the wrapping system. Between the flanges there are diametrically placed two pairs of guide axles with sliders mounted on them with the possibility of movement and having transverse holes, pressed to one of the flanges. The second sleeve is made with one cylindrical flange and a rectangular groove in it, radially located on the cylindrical surface of the sleeve with a finger connected to the distance scale. The mechanism for changing the magnification also contains a holder mounted on the flanges of the sleeves with the possibility of longitudinal displacement and rotation on them associated with the cam, the wrapping system and the scale of distances. The aiming mark is installed in the frame, which rests at one end on 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 rings (RF Patent No. 2148775, IPC F41G 1/38, G02B 23 / 12, the priority date is 10/21/1999).

The closest technical solution has the following disadvantages. Small field angles, due to the large increase in sight. This makes it difficult to find a target at large distances and shooting at small distances at moving targets. The sight has large longitudinal dimensions, due to the use of an inverting system with a variable equivalent focal length and a lens with a fixed focal length. This does not allow it to be placed on individual types of weapons. In addition, the closest analogue has a rather complicated design of the mechanisms of aiming and changing the increase.

The objective of the invention is to simplify the design of the device and reducing its overall dimensions.

The technical result of the invention is to reduce the overall dimensions of the sight, simplifying its design.

This result is achieved by combining the mechanisms for changing the equivalent focal length of the lens and changing magnifications and aligning the sight, simplifying their designs. To this end, an optical sight containing a lens installed in the housing, an eyepiece that wraps the system consisting of two components, a grid, a zoom changer, adjustment mechanisms, a tube, and the tube is kinematically connected with the alignment mechanisms, a zoom changer system is introduced, consisting of two components and placed in the frame. The system of change of magnification in the frame, made with the possibility of movement, is placed in the tube. The end of the tube from the side of the lens ends with a spherical element associated with the body of the sight. Between the tube and the lens there is a sleeve mated with the inner spherical surface of the tube. The sleeve is tightened through the lens with a threaded ring. The spherical element of the tube, the sleeve and the bearing surface of the housing form a ball joint that provides swing of the tube relative to the optical axis of the lens. The second end of the tube ends with a thread on which the threaded ring is screwed. The working ends of the alignment screw mechanisms are based on this threaded ring. The tube leans due to the rotation of the adjustment screw mechanisms. This allows you to tilt the optical axis of the zoom system, moving along the axis of the tube, relative to the optical axis of the lens. Due to the inclination of the optical axis of the zoom system relative to the lens, the image of the target is offset against the grid and alignment of the sight. To ensure the progressive movement of the change system, the magnification tube is made with a longitudinal groove. The frame of the zoom system is made with

- 1,031779 tapped hole. The mechanism for changing the zoom consists of a pusher connected to the lever and a handle. The pusher is provided with a thread for attachment to the frame of the zoom system and a groove for coupling with the lever. Restriction of the movement of the handle and its fixation in the positions corresponding to the fixed magnification values are carried out by means of two stops mounted on the lid of the change-over mechanism switching unit. The movement of the zoom system is made by a pusher connected to the movable rim of the zoom system and a lever operated by the handle. The maximum and minimum magnification values are achieved by moving the handle from one extreme position to the other.

To exclude rotation of the tube around the longitudinal axis, a groove is made in the lower part of the tube from the side of the lens, and a pin in this slot is installed in the body of the sight.

The invention is illustrated by the following graphic materials.

FIG. 1 - a general view of an optical sight;

FIG. 2 - unit switching mechanism for changing the zoom.

The optical sight contains a lens 2, an eyepiece 3, a grid 4, a tube 5 in which a wrapping system consisting of fixed components 6 and 7 and a zoom-changing system consisting of components 8 and 9 placed in a movable frame are mounted in a common housing 1 10. From the side of the lens 2, the tube 5 ends with a spherical element mating with the housing 1. Between the tube 5 and the lens housing 2 is installed a sleeve 11, also having a spherical part mating with the inner spherical surface of the tube 5. The sleeve 11 is pressed through to The body of the lens 2 is a threaded ring 12. The spherical element of the tube 5, the sleeve 11 and the bearing surface of the housing 1 form a ball joint that rotates the tube 5 relative to the optical axis of the lens 2. The second end of the tube 5 ends with a thread on which the screw ring 13 is screwed. Zoom change mechanism consists of a pusher 14, a lever 15 and a handle 16. The pusher has a threaded part for connection with the frame 10 of the zoom system and a groove for interfacing with the lever 15. The handle 16 is connected with the lever 15. Limiting the movement of the handle 16 and its fixation in the positions corresponding to the fixed values of increase, is carried out by means of two stops 17 installed on the lid 18 of the switching unit of the mechanism for changing the increase. Moving the movable frame 10 is made by a pusher 14 connected to the lever 15. The lever 15 is actuated by the handle 16. The alignment of the sight in range and direction is carried out by screw mechanisms 19 located on housing 1. The working ends of alignment screw mechanisms 19 rest on the threaded ring 13. Tube 5 is tilted due to the rotation of the alignment screw mechanisms 19. This allows the optical axis of the zoom changer system to be tilted, placed in the movable frame 10 and moving along the axis of the tube 5, relative to the optical th lens axis 2. Due to the inclination of the optical axis of the zoom system shifts relative to the lens is provided offset relative to the target image grid 4 and sight alignment. To exclude the rotation of the tube 5 around the longitudinal axis in the lower part of the tube from the side of the lens is made a groove, and in the housing 1 has a pin 20, which is included in this groove.

The inventive device works as follows.

The optical sight is set to the minimum zoom position. Then, examining in the eyepiece 3 of the sight an image of the field of view constructed by lens 2, components 6 and 7 of the inverting system, and components 8 and 9 of the zoom system, determine the position of the target relative to the aiming mark applied to the grid 4. Rotate the weapon with the established sight on it, achieving a position in which the image of the target will coincide with the sighting mark corresponding to the firing range. After a series of shots, determine the position of the average point of impact. Then, rotating the alignment screw mechanisms 19, combine the image of the mid-point of impact with the aiming mark on the grid 4, corresponding to the firing distance. After that, pressing the handle 16, move it to the position corresponding to the maximum increase. The handle 16 rotates the lever 15 connected with it and moves the pusher 14 along the straight groove of the tube 5. At the same time, the movable frame 10 with components 8 and 9 installed in it moves along the optical axis from the minimum position to the position of maximum magnification at which the shot is made, and the system zoom shifts return to the minimum zoom position. To do this, pressing the handle 16, move it in the opposite direction. In this case, the lever 15 moves the pusher 14 along the straight groove of the tube 5, as a result of which the movable frame 10 with the components 8 and 9 installed in it moves along the optical axis of the sight and returns to its original position. In the extreme positions of the handle 16 is fixed by one of two stops 17, the position of which corresponds to the maximum and minimum values of the increase in sight.

Thus, the presence in the device of new features and new connections between the structural elements in comparison with the known designs of optical sights provides the claimed technical result - reducing the overall dimensions of the sight, simplifying its design and determines the novelty and inventive step of the proposed technical solution, and the possibility of making the product on optical -mechanical enterprise proves its industrial applicability, which together determines the compliance of the optical sight oviyam patentability.

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Claims (4)

CLAIM 1. Optical sight of variable magnification, containing a lens, eyepiece, tube, wrap system, grid, magnification change mechanism, horizontal and vertical alignment mechanisms, the end of the tube from the lens side is made spherical, the tube is kinematically connected with the mechanisms of alignment, characterized in that it contains a magnification change system installed in the tube, placed in a frame, made movable, the wrapping system is located in the tube, the tube is made with a longitudinal pa ohm to ensure the progressive movement of the zoom system, the spherical end of the tube is connected to the body, a sleeve is fitted between the tube and the lens, mating with the inner spherical surface of the tube, a threaded ring is installed in front of the lens, at the same time, the working ends of the alignment mechanisms rest on it, the mechanism for changing the magnification is made of kinematically connected pusher, lever and handle, and the pusher is connected to rim mount change systems. 2. Optical sight according to claim 1, characterized in that a groove is made in the lower part of the tube from the side of the lens, and a pin is included in the body, which is included in this groove. 3. Optical sight according to claim 1, characterized in that the mechanism for changing the magnification is equipped with two stops designed to limit the movement of the handle. 4. Optical sight according to claim 1, characterized in that the rim of the zoom system has a threaded hole.