RU2580585C2 - Method of underwater crossing of armoured vehicles and device therefor - Google Patents

Abstract

FIELD: military equipment.

SUBSTANCE: group of inventions relates to method of underwater passage of armoured vehicles and device for its implementation consists in using modern technical surveillance equipment used in invention. Method consists in using vandal-proof camera with all-round view or vandal-proof panoramic camera connected to television system monitors wire or wireless communication. Camera can also be used for optic survey of air and ground space during exit of water as well as in shallow fog, which can spread over several kilometres from water obstacle. Device includes camera attached to u-shaped platform. Connector for camera wire connection automatically disconnects at drop of air feed pipe.

EFFECT: achieved is possibility to overcome water obstacles with minimum risk of collision between machines.

2 cl

Description

The invention relates to the prevention or prevention of a possible collision of armored vehicles during overcoming water obstacles on the bottom, as well as to devices for projecting a moving or still image.

The invention can be used to carry out underwater crossing armored vehicles.

Underwater crossing of armored vehicles and adjusting the movement of the tank are carried out by the crew of the tank using the proposed device for carrying out underwater crossing over a selected area of a water obstacle, where the depth allows for underwater crossing.

State of the art

An air supply pipe is used as a device for carrying out underwater crossing, a gyroscopic half-compass is used to determine the direction of the tank’s movement (Driving tanks under water. Dictionary of military terms. Author A.M. Plekhov. Military Publishing House. 1989, p. 178). Equipment for underwater driving of a tank is also known (Patent RU 2309361, IPC F41H 7/02, 01/10/2006). These are the closest technical solutions selected as a prototype.

Significant features similar to the method of underwater crossing of armored vehicles and a device for its implementation is the use of an air supply pipe and a gyroscopic half compass. A significant difference in the method of underwater crossing of armored vehicles is that the crew of the tank during the underwater passage is guided by the indications of an anti-vandal panoramic camera or by the indications of an anti-vandal camera with 360-degree circular viewing on a horizontal plane and tilting 180 degrees, with a microphone, with a mode of operation day / night, with autofocus and zoom.

The camera is mounted on a horseshoe-shaped platform and installed so as not to block the air entering the air supply pipe, through which it is connected via a wire or wireless connection to a television system with monitors located inside the tank, and the gyroscopic half-compass is used as a backup device.

A significant difference between the device for carrying out underwater crossing of armored vehicles is that the device consists of an anti-vandal panoramic camera or anti-vandal camera with a 360-degree horizontal view and a 180-degree tilt, with a microphone, with day / night mode, with function autofocus and zoom.

The camera is mounted on a horseshoe-shaped platform, and the platform is attached from below to the U-shaped bracket. The bracket is stuck with the curved ends into the inner pockets located in the upper part of the air supply pipe so as not to block the incoming air into the air supply pipe, the camera is connected by wire or wireless connection to a television system with monitors installed inside the tank. The camera wire connector automatically disconnects when the air supply pipe is dropped.

The camera and monitors provide an opportunity to assess the situation on the surface of the water when crossing the machine along the bottom.

Using a camera and monitors, the distance to the front and rear tanks is estimated both day and night.

The driver of the tank is guided by the image of the monitor, controlling the movement of the tank along the selected area of the water obstacle, and the gyroscopic half-compass is used as a backup device. These device and method of underwater crossing provide overcoming water obstacles at any time of the day.

The device allows you to control the situation on the surface of the water in real time, and allows you to independently make decisions depending on the situation.

Claims (2)

1. A process for submarine crossings armored vehicles, consisting in that the applied pipe and gyroscopic vozduhopitayuschaya polukompas, characterized in that the method underwater armored vehicles crossing is performed, focusing on the panoramic camera Vandalism readings or the readings Vandalism camera with a 360 circular ^about a horizontal plane and tilt 180 ^° , with autofocus and zoom, with day / night mode, with a microphone, where the anti-vandal camera is attached the foam on a horseshoe-shaped platform and is installed on the upper part of the air supply pipe so as not to block the incoming air into the air supply pipe, and the camera is connected via the air supply pipe by wireless or wire connection to a television system with monitors located inside the tank, and the gyroscopic half-compass is used as a backup device . 2. A device for implementing the method submarine crossings armored vehicles, consisting of vozduhopitayuschey tube gyroscopic polukompasa, characterized in that the device consists of Vandalism Vandalism panoramic camera or cameras with a 360 circular ^about a horizontal plane and inclined by ^about 180 with AF functionality, and enlargement of the image, with the day / night mode of operation, with a microphone, where the vandal-proof camera is attached to a horseshoe-shaped platform with attached on the back side with U-shaped wallpaper, which is inserted with the curved ends into the outer pockets located on the upper part of the air supply pipe so as not to block the incoming air into the air supply pipe, and the camera is connected via the air supply pipe by wireless or wire connection to a television system with monitors located inside tank, where the connector of the camera’s wire connection is automatically disconnected when the air supply pipe is reset, and the gyroscopic half-compass is used as a backup device.