RU116997U1 - DEVICE FOR ALIGNING THE GUN AND MEASURING ITS Muzzle angle - Google Patents

Abstract

1. A device for aligning the gun and measuring its muzzle angle, containing a telescopic system with a lens, an eyepiece with a diopter adjustment, a grid located in the focal plane of the eyepiece, equipped with a focusing mechanism, a shank with a through channel made along its axis, an adjustment unit and a mark-scale with an illumination device, placed in the breech of the gun barrel, characterized in that there is a divider of the field of view (a system of prisms or mirrors), a removable (hinged) cover and a switch for a mark-scale illumination device, while the telescopic system is installed on the shank perpendicular to its axis, an edge of the intersection of the reflecting edges of the field of view divider is located mainly perpendicular to the shank axis and the optical axis of the telescopic system, installed mainly near the optical axis, while the cover is installed on the instrument entrance window from the side of the visual field divider opposite the shank. ! 2. The device according to claim 1, characterized in that the telescopic system contains additional prisms (mirrors) located on its axis (one or more). ! 3. The device according to claim 1 and / or 2, characterized in that the adjustment unit is made in the form of a device built into the telescopic system.

Description

The inventive utility model relates to instruments for the preparation of guns, mainly tank guns, for firing during the implementation of the so-called shooting-free method of bringing tank guns to normal combat [1]. More specifically, the claimed device relates to devices for monitoring and setting the axis of the barrel channel relative to the specified position of the optical axis of the sighting channel of the sight, as well as measuring the muzzle angle of the barrel. In this case, the muzzle angle is the angle between the axis connecting the centers of the breech and muzzle sections of the barrel channel and the tangent to the real axis of the barrel in its muzzle.

A known alignment device UPV-125-01, designed to coordinate the line of sight and the axis of the channel of the gun barrel [2]. The UPV-125-01 device is an optical-mechanical device consisting of a telescopic system (telescope), in the case of which there are elements of the optical scheme, the shank and the alignment unit.

The optical scheme of the telescopic system is a monocular system consisting of a lens, a rectangular prism AP-90 °, a grid and an eyepiece. The lens is designed to construct an image of the objects in question (the target mark of the alignment shield installed at a distance of 100 m from the muzzle of the gun or a remote point on the ground) in the grid plane located in the focal plane of the eyepiece.

Observing through the eyepiece, the operator guides (aligns) the crosshairs of the grid onto the image of the target mark (remote point), performs operations to determine the position of the channel of the gun barrel in space (turning the device around the axis of the shank in the barrel channel by 180 °), induces the axis of the barrel channel to image of the target mark (remote point) and reconciles the sight with a gun.

Prism AP-90 ° serves to change the path of the rays by 90 ° and provides the ability to observe from the side of the device. In this case, the sight goes in the direction from the shank.

The shank of the device is designed to base the device in the muzzle of the channel of the gun barrel. The basing is carried out using two sets of three centering strips, one of the three strips being spring-loaded. In this case, the telescopic system with the eyepiece are located outside the muzzle of the gun.

The alignment unit, designed to ensure mutual orientation (alignment) of the optical axis of the telescopic system and the axis of the shank, is a mechanical device made in the form of a ball bearing with the ability to rotate the telescopic system in two planes using two pairs of screws relative to the shank.

The described device UPV-125-01 does not allow measuring the muzzle angle with it, which makes it necessary to have a special device DU-125-01 [3] in the spare part for measuring the muzzle angle selected for the prototype.

The DU-125-01 device kit includes the device itself: a telescopic system (telescope), in the case of which there are optical circuit elements, a shank inserted into the gun barrel from the muzzle end, and an adjustment unit, as well as a mark-scale with a backlight device , when measuring the muzzle angle installed in the breech gun at a distance of about 6 m from the device.

The optical scheme of the telescopic system is a monocular system consisting of a lens, a grid and an eyepiece. The lens is designed to build an image of the mark in question in the grid plane located in the focal plane of the eyepiece. The operator observes the images of the grid and the mark-scale through the eyepiece, and, evaluating their mismatch, determines the muzzle angle.

The shank of the device is designed to base the device in the barrel of the gun. The basing is carried out using two sets of three centering strips, one of the three strips being spring-loaded. When determining the muzzle angle, the shank is placed in the barrel, and the telescopic system with the eyepiece are located outside, at the muzzle end of the gun. At the same time, to ensure the possibility of sighting the stamp installed in the breech of the gun, the shank is hollow having a longitudinal cylindrical channel.

The alignment unit, designed to ensure mutual orientation (alignment) with the necessary tolerance of the optical axis of the telescopic system and the axis of the shank, is a mechanical device made in the form of a ball bearing with the ability to rotate the telescopic system in two planes using two pairs of screws relative to the shank. In contrast to the adjustment unit of the UPV-125-01 device, the ball bearing of the DU-125-01 device for providing sighting of the scale mark is made with a central hole.

The mark scale is a set of concentric rings engraved on a glass plate, with a step between the rings of 0.25 mrad, and the diameter of the largest of the rings corresponds to a muzzle angle of 3 mrad. For ease of observation, the mark scale is illuminated by a light bulb (backlight device).

The DU-125-01 device is intended only for determining the muzzle angle and it cannot be used during gun reconciliation operations, which necessitates the availability of a special reconciliation device in the spare parts, namely, the UPV-125-01 reconciliation device described above.

The disadvantage of the adjustment nodes based on the ball bearings of both devices is the knocking down of the adjustment when carelessly with the devices (in case of accidental impacts on them or their fall) and the difficulty of adjusting, because The directions of the quoted movements of the ball joint are interdependent.

The inventive device for alignment and measurement of the muzzle angle of the gun is characterized in that in comparison with the prototype device DU-125-01 there is a field of view divider (a system of prisms or mirrors) that provides sight in two opposite directions (towards the mark-scale placed in breech of the gun and in the direction from the muzzle of the gun towards the alignment shield). In this case, the telescopic system is mounted on the shank perpendicular to its axis, the intersection edge of the reflecting faces of the field of view divider is located mainly perpendicular to the axis of the shank and the optical axis of the telescopic system, and is installed mainly in the vicinity of the optical axis.

The input window of the device is equipped with a removable (hinged) cover or a shutter from the side of the device (field divider), opposite the shank and facing the calibrated shield, which provides, in addition to protecting the optics from mechanical damage when the device is inoperative, the possibility of taking measurements to determine the muzzle angle (providing sighting of the mark-scale from the side of the breech of the gun with the exclusion of flare from the opposite side).

For the convenience of working with the device, the backlight of the mark-scale is equipped with a switch.

The device of the claimed device is illustrated by the figure in figure 1.

The device shown in figure 1 contains a telescopic system 1 with a lens 2, an eyepiece 3 with diopter adjustment, located in the focal plane of the eyepiece 3 with an optical grid 4, equipped with a focusing mechanism 5, a shank 6 with a longitudinal through channel 7 made along its axis, an adjustment unit 8, a removable (hinged) cover (curtain) 9 and a mark-scale 10 with a backlight 11 and a switch 12, placed in the breech of the barrel of the gun 13. There is also a divider of the field of view 14. In this case, the telescopic system 1 is mounted on the shank 6 perpendicular to its axis 15, and the divider of the field of view 14, representing a system of prisms (mirrors), is installed mainly at the intersection of the axis of the shank 15 and the optical axis of the telescopic system 16 mainly perpendicular to these axes. In addition, figure 1 shows the reconciliation shield 17 used in reconciling the sight with a gun.

Variants of execution of dividers of the field of view are possible.

The field divider (see figure 1, pos. 14) can be made in the form of a beam splitter consisting of three rectangular prisms, the rib of intersection of the cathete faces of which forms the rib of the divider, and the cathete faces of the middle prism have beam splitting coatings.

In a mirror embodiment (see figure 2a), the field divider 1 can be made in the form of two mirrors located at an angle of 90 °.

From the point of view of ease of manufacture, fastening and reliability, the field divider 1 is preferable in the form of a double angular mirror based on a rectangular prism with a mirror coating of its lateral side faces (see figure 2b).

In the prismatic embodiment, the divider of the field of view 1 can be made in the form of a composite prism of two prisms AP-90 ° (see figure 2B), deployed with sighting cathete faces in opposite directions relative to each other by 180 °. By the sighting faces of the prisms are meant the faces facing the sides of the sight (in the direction of the reconciliation board and mark-scale).

For the prism divider 1 of the two prisms, the AP-90 ° is preferable from the point of view of increasing the reliability and convenience of the design layout (see figure 2d), when the prisms are cut parallel to the target cathee faces and glued together at the cut point.

In addition, figure 2 shows the possible location of the ribs 2 of the field of view divider 1 relative to the axis of the shank 3 and the optical axis 4 and the lens 5 of the telescopic system, depending on the layout requirements and the given light transmission of both fields of view (from the alignment shield and from the mark- scales).

For ease of layout and reduction of the dimensions of the device, its telescopic system 1 can have one or more fractures of the optical axis 2, carried out by introducing one or more additional prisms 3 (or mirrors) (see figure 3, where 4 is the axis of the shank, 5 is the divider field of view, 6 - lens, 7 - grid, 8 - eyepiece of the telescopic system).

An embodiment of the device is possible in which the alignment unit is made in the form of a device built into the telescopic system. In this case, the telescopic system is rigidly attached to the shank without an intermediate link - a ball bearing and therefore becomes less sensitive to mechanical stress. It also becomes possible to carry out adjustment independently in two planes, which greatly simplifies and speeds up the operation. Alignment of the device (ensuring the necessary alignment of the sighting axis of the device and the axis of the shank) is carried out by moving (turning) the optical component of the telescopic system or by introducing additional movable (rotary) optical elements.

The simplest execution of the adjustment unit (see figure 3) is a device 9 (for example, a screw mechanism), which provides transverse movement of the grid 7 of the telescopic system perpendicular to the optical axis 2.

In the practical implementation of the device, the following technical solutions can be used:

- as a telescopic system, a telescopic system (telescope) of the prototype (serial, instrument DU-125-01) can be used, which has a focusing mechanism and an eyepiece with diopter adjustment;

- As a shank, you can use the standard shank of the prototype;

- additional prisms (mirrors) of the telescopic system and prisms (mirrors) of the field of view divider can be borrowed from commercially available optical instruments;

- as an adjustment unit, you can use the standard prototype adjustment unit, and for the adjustment unit built into the telescopic system, wedge (lens) compensators of commercially available optical devices can be used or a screw mechanism for moving the aiming grid of rifle or hunting sights can be used.

When using the device operates as follows (see figure 1).

When reconciling the gun and sight, the shank 6 is installed in the barrel of the gun 13 from the muzzle end. The device is sent to a reconciliation shield 17 (the remote point is a distant object, for example, a factory pipe, sharply marked on the ground). The image of the target mark of the reconciliation shield 17 (remote point) using the field divider 14, enters the lens 2 of the telescopic system 1 and is observed by the operator through the eyepiece 3 together with the image of the grid 4. Previously, the operator adjusts the eyepiece 3 to a sharp image of the grid 4 using the diopter adjustment the eyepiece and using the focusing mechanism 5 of the telescopic system 1 provides a sharp image of the sighting mark of the alignment shield 17 (remote point).

Observing through the eyepiece 3, the operator guides (aligns) the crosshairs of the grid 4 onto the image of the target mark of the alignment shield 17 (remote point), performs operations to determine the position of the axis of the channel of the gun barrel in space (turning the device about 180 ° around the axis of the shank in the barrel channel) , directs the axis of the bore to the image of the target mark (remote point) and reconciles the sight with the gun.

To proceed to the process of measuring the muzzle angle, the operator closes the input window of the device, facing the alignment shield 17, with a lid (curtain) 9 and turns on the backlight 11 of the scale 10 using the switch 12. The image of the highlighted scale 10 installed in the gun breech 13, using the field divider 14, it enters the lens 2 of the telescopic system 1 and is observed by the operator through the eyepiece 3 together with the image of the grid 4. The operator adjusts the eyepiece 3 to a sharp image of the grid 4 using the diopter adjustment about using the focusing mechanism of the telescopic system 1 provides a sharp image of the mark-scale 10. According to the deviation of the image of the grid 4 from the center of the mark-scale 10, determined by the number of the ring on which the center of the grid 4 is located, the operator determines the muzzle angle of the gun.

The use of the claimed technical solution reduces the size of spare parts (one device instead of two) and allows you to align the gun with an eye and measure the muzzle angle in one installation of the device, which reduces the time for the gunless bringing the gun to normal combat.

In addition, the presence of a telescopic lens focusing mechanism in the device (in the standard UPV-125-01 alignment device, there is no focusing mechanism and the device is focused at a distance of 100 m), when calibrating the gun with an aim, it is possible to set the reconciliation shield at any distance from the cut of the gun barrel ( for example, at 50 or 25 m), which makes it possible to carry out a reconciliation in a confined space, for example, in a workshop.

When using a technical solution with an alignment unit integrated in the telescopic system instead of a ball bearing, the instability of the instrument alignment (alignment of the axis of the shank and the sighting axis of the instrument) increases during its operation and the adjustment itself is simplified.

List of sources used

1 New methods and tools for instrumental and technical training of RAV systems for shooting tanks: a manual // Under the general. ed. Cand. tech. Sciences V.P. Blizgareva. - M .: - Military Academy of Armored Forces named after R.Ya. Malinovsky. - 1997. - 51 p.

2 Alignment device UPV-125-01. Passport 55-43 2-Sb0-01PS. - SPb .: VNIITransmash OJSC. - 2006.

3 Angle measuring device ДУ-125-01. Passport 66-443-Sb0-01PS. - SPb .: VNIITransmash OJSC. - 2006.

Claims (3)

1. A device for aligning the gun and measuring its muzzle angle, containing a telescopic system with a lens, an eyepiece with diopter adjustment, a grid located in the focal plane of the eyepiece, equipped with a focusing mechanism, a shank with a through channel along its axis, an adjustment unit and a mark-scale with a backlight device located in the breech of the gun barrel, characterized in that there is a field divider (prism or mirror system), a removable (hinged) cover and a switch for the mark-scale backlight device, the telescopic system is mounted on the shank perpendicular to its axis, the intersection edge of the reflecting faces of the field of view divider is located mainly perpendicular to the axis of the shank and the optical axis of the telescopic system, installed mainly near the optical axis, and the lid is mounted on the input window of the device from the side of the field of view, opposite the shank . 2. The device according to claim 1, characterized in that the telescopic system contains additional prisms (mirrors) located on its axis (one or more). 3. The device according to claims 1 and / or 2, characterized in that the adjustment unit is made in the form of a device built into the telescopic system.