RU62232U1 - TANK GUN AXLE BEND ANGLE MEASUREMENT DEVICE - Google Patents

Abstract

A device for measuring the bending angle of the axis of the channel of the barrel of the tank gun, containing a device for determining the angle of inclination of the muzzle of the gun to the axis of the channel of the barrel of the gun, characterized in that the said device is opto-mechanical and consists of a telescope, in the body of which there are elements of an optical circuit, a shank and marks with a scale, while the optical scheme is a monocular telescopic system with internal focusing and consists of a lens, a focusing lens, a grid and an eyepiece, xv the skeleton is equipped with two spaced apart supports with three centering strips, one of which is spring-loaded, the telescope and shank are connected through a spherical ring by screws, the mark is equipped with a cylindrical basing shank, with longitudinal slots, frosted glass with a scale and an electric backlight, the shank is equipped with a stop into the muzzle of the gun.

Description

The utility model relates to devices of measuring devices, in particular, designed to account for the bending of the barrel of artillery pieces.

Known used in artillery device alignment sight with a gun [1]. It consists of a reconciliation tube inserted into the breech of the gun using a special tray. At the same time, a crosshair of thin threads is installed on the muzzle. Using manual aiming actuators, the line of sight of the barrel channel passing through the alignment tube and the center of the crosshairs of the threads is combined with the index on the alignment target. The position of the mark of the sighting channel relative to the pointing point on the alignment target determines the mismatch of the sighting channel with the axis of the barrel channel, which is then eliminated by the alignment mechanism.

Reconciliation is possible at a remote point located at a distance of 1200-1500 m. The axis of the bore and the axis of the sighting channel point to a remote point.

In addition, this device can detect displacement of the muzzle opening caused by bending of the barrel.

The disadvantage of this device is that surveillance must be conducted through an open trunk at both ends. Measurement accuracy is insufficient.

The invention is known, which is a method of monitoring and installing the axis of a long product relative to the base axis and a device for its implementation [3]. The device contains two cameras and two video monitoring devices. One of the cameras is installed in the cavity of the housing, equipped with basic surfaces for installation inside the measured product. It is equipped with a clock generator and a video monitoring device equipped with a character generator, the inputs of which are connected to

sync generator output. and an adder, the inputs of which are connected to the outputs of the camera and character generator, and the output - with the input of the second video monitoring device

The disadvantage of the device is its complexity and high cost.

Known optoelectronic displacement sensor, designed, in particular, for measuring the angle of bend of the axis of the gun barrel [4]. It consists of a transceiver system, which includes an LED with a condenser and a multiscan with a lens, a converter, the common input of which is connected to a common multiscan bus, an integrator, first and second bias sources, an impulse generator connected to the LED. In addition, an angular reflector, aligned with a transceiver system, is introduced into it.

The device has the same drawback - complexity and high cost.

A device for measuring deviations from straightness [5], containing a motionlessly installed light source, a collimator and an angular reflector. a beam splitting unit installed during radiation reflected from the corner reflector, a position sensitive photodetector and a recording unit; in addition, a pentaprism with a roof, coupled follow-up drives with amplifiers, the inputs of which are connected to the output of the photodetector, and a converter are installed between the beam splitting unit and the corner reflector movements, the outputs of which are associated with the input of the recording unit The invention was used in the device "PIKA-AS1" FGPU "Plant No. 9", Yekaterinburg.

The design is complex, requires some configuration and is not designed to work in the field.

However, in its purpose, the latest invention and its technical essence are closest to the proposed one and can serve as a prototype for it.

The problem solved by the proposed device is to simplify the design, increase the usability.

The problem is solved as follows. Taking into account the fact that the accuracy of the shooting is more affected by the position of the last section of the channel of the gun barrel, measurements are carried out only on it. This greatly simplifies the task and can significantly simplify the design of the device.

The applicant proposed a device for measuring the bending angle of the axis of the channel of the barrel of the tank gun, containing a device for determining the angle of inclination of the muzzle of the gun to the axis of the channel

gun barrel. A distinctive feature of the device is that the device is opto-mechanical and consists of a telescope, in the housing of which there are elements of an optical circuit, a shank and a mark with a scale, while the optical circuit is a monocular telescopic system with internal focusing and consists of a lens, focusing lens, mesh and eyepiece, the shank is equipped with two spaced apart along the axis of the supports with three protrusions with centering strips, one of which is spring loaded, visual I shank tube and connected via a spherical ring by means of screws, is provided with cylindrical stamp based shank with longitudinal slits, a dial and illumination light bulb, the shank is provided with two stops in the muzzle of the gun, located on the handles.

In Fig.1 shows the design of the aforementioned device, Fig.2 - design of the brand. Figure 3 depicts a section A-A of the shank, figure 4 is a section bB, figure 5 shows the optical diagram of the device, figure 6 shows a view of the field of view of the device.

The device for measuring the bending angle of the axis of the channel of the barrel of the tank gun contains an optical-mechanical device, which consists of a telescope 1, in the body of which are located the elements of the optical circuit, a shank 2 and a mark 3 with a scale, while the optical circuit is a monocular telescopic system with internal focusing and consists of a lens 4, a focusing lens 5, a grid 6 and an eyepiece 7 with a diopter ring 18, the shank 2 is equipped with two supports 8 and 9 spaced along the axis with three protrusions with centering strips 10, one and from the centering planks of the supports it is spring-loaded, the telescope 1 and the shank 2 are connected through a spherical ring 11 by means of screws 12, the mark 3 is equipped with its own cylindrical base shank 13 with longitudinal slots, a scale 14 and a light bulb 15, the shank is equipped with two stops 16 in the muzzle section guns placed on the handles 17.

The device operates as follows. First, brand 3 is installed from the breech side into the bore of the barrel channel, providing its illumination. Insert the device into the barrel bore with a shank 2 as far as it will go into the muzzle of the gun. By turning the diopter ring 18, the eyepiece 7 is installed on the sharp view of the device grid 6, by moving the focusing lens 5 along the axis - a sharp image of the scale 14 of mark 3. Observing through the eyepiece 7, a crosshair is seen in the field of view of the device

grids 6 and dial 14 of mark 3. The offset of the crosshair of grid 6 from the center of the dial 3 in coordinates X, Y are recalculated into the angular indices of the slope of the axis of the final section of the bore - the muzzle angle.

The adjustment of the device is as follows. By loosening one of the screws 12, tighten the opposite screw 12. Moving the telescope 1 relative to the shank 2 on the spherical ring 11, align the pipe 1 and the shank 2. Tighten the screws 12. The applicant has made an experimental device that has confirmed its operability and claimed advantages.

List of used literature.

1. Theory and design of the tank. Ed. P.P. Isakova, t.3, Test of tank weapons. M, Mechanical Engineering, 1983, p.199.

2. Alignment of the zero line of sight. Armor, W. L. Brady, et al., Vol. 90, No. 3, pp. 14-18, translation No. LB-813.

3. RF patent No. 2143097 Method for monitoring and installing the axis of a lengthy product, 1997.

4. RF patent No. 2167394 Optoelectronic displacement sensor, 1998.

5. RF patent No. 2075884 Device for measuring deviations from straightness, 1993, (prototype).

Claims (1)

A device for measuring the bending angle of the axis of the channel of the barrel of the tank gun, containing a device for determining the angle of inclination of the muzzle of the gun to the axis of the channel of the barrel of the gun, characterized in that the said device is opto-mechanical and consists of a telescope, in the body of which there are elements of an optical circuit, a shank and marks with a scale, while the optical scheme is a monocular telescopic system with internal focusing and consists of a lens, a focusing lens, a grid and an eyepiece, xv the skeleton is equipped with two supports spaced along the axis with three protrusions with centering strips, one of which is spring-loaded, the telescope and shank are connected through a spherical ring by screws, the mark is equipped with a cylindrical basing shank, with longitudinal slots, a dial and an electric backlight, the shank is equipped with two stops in the muzzle of the gun located on the handles.