RU2737310C1 - Thermal trap - Google Patents

Abstract

FIELD: military equipment.

SUBSTANCE: invention can be used for installation of various nomenclature of the Ground Forces of the Russian Federation armed forces on samples of military and special equipment. Heat trap is configured to receive exhaust gases of an internal combustion engine (ICE) of military and special equipment, after which the exhaust gases through the inlet branch pipe and the guide cone collide with the perforated upper plate, thereby transmitting a portion of the heat energy, providing the outlet of the exhaust gases through the perforation, as well as thermal heating of heat trap, due to its structural feature, thereby providing thermal image of silencer of military and special equipment object.

EFFECT: disclosed is a heat trap.

1 cl, 2 dwg

Description

The invention relates to the field of military equipment and can be used for installation on samples of weapons of military and special equipment of various nomenclatures of the Ground Forces of the Armed Forces of the Russian Federation to reduce the likelihood of being hit by all types of ammunition equipped with infrared homing heads, to simulate thermal radiation from weapons of military and special equipment in points of deployment or areas of location on the ground.

The essence of the invention lies in the fact that the heat trap contains a branch pipe and a cone that guides the movement of the exhaust gases of an internal combustion engine and is located at a distance from the weaponry of military and special equipment, which minimizes damage received from fragmentation fields of ammunition equipped with infrared homing heads. The heat trap is made in the form of a welded metal structure, consisting of an inlet pipe welded to the guide cone and a perforated top plate. The connection of the heat trap with the exhaust port of the internal combustion engine is carried out using a hose made of heat-resistant rubber, the diameter of the hose and the inlet pipe is set depending on the model of military and special equipment. The implementation of the heat trap in accordance with the invention provides a thermal image of the exhaust gas flow of an object of military and special equipment, at a distance providing minimal damage from shrapnel fields, thereby increasing the survivability of an object of military and special equipment operating stationary in the location area.

Known imitators of various types of weapons of military and special equipment, manufactured by the enterprise "Miotor-Service", Minsk, Belarus. The models are made in full size using inflatable elements and have a device for imitation in the spectral range of infrared radiation. The common features of this technical solution with the design proposed by the authors are the presence of heating devices and have a one-time life cycle in case of ammunition hitting them.

Known catalytic thermal simulator operating on hydrocarbon fuel, according to RF patent No. 2464522, F41H 13/00, published on 20.05.2012, consisting of cylindrical glasses. The first cylindrical catalyst nozzle houses the catalyst block and the electric and fire starting system, and the second cylindrical fuel nozzle houses a fuel cylinder with a wick for supplying fuel to the evaporation chamber inside the catalyst block.

This design can be used to partially simulate the thermal radiation of military facilities. However, this design does not provide full correspondence of the thermal image of the simulator to the thermal image of a sample of military and special equipment.

The purpose of the invention is to create a device that simulates the thermal radiation of weapons of military and special equipment, which makes it possible to reduce the likelihood of being hit by all types of ammunition equipped with infrared homing heads and to ensure the required level of survivability of objects.

The technical objective of the invention is the use of exhaust gases of an internal combustion engine of an object of weapons of military and special equipment operating in the area of location on the ground to simulate the same object at a safe distance.

The technical problem is solved by the fact that gases entering through the inlet pipe into the guide cone hit the upper plate and through the perforations enter the atmosphere simultaneously heating the upper plate and simulating the flow of exhaust gases from an internal combustion engine identical to the model of military and special equipment weapons and the thermal heating of the upper plate identical to thermal heating the exhaust muffler of the internal combustion engine.

FIG. 1 shows a heat trap, side view, in section.

The specified goal and technical problem are achieved by the technical result of the invention, which is implemented as follows: exhaust gases of an internal combustion engine enter the guide cone 2 through the inlet pipe 1. After exposure to the upper plate 3, the gases are redirected into the perforations 4, which are located symmetrically in the upper plate.

FIG. 2 shows the top plate, top view.

The metal disc 1 heats up when exposed to the exhaust gases of the internal combustion engine, which through the perforations 2 enter the atmosphere.

The heat trap reduces the likelihood of being hit by all types of ammunition equipped with infrared homing heads, which makes it possible to increase the survivability of the considered objects of weapons of military and special equipment at points of deployment or in areas of location on the ground.

Sources of information used:

1. Patent of the Russian Federation for invention No. 2464522 dated 20.05.2012.

Claims (1)

A heat trap, characterized by the fact that it is configured to receive exhaust gases from an internal combustion engine (ICE) of a military and special equipment model (VVST), after which the exhaust gases collide with the perforated upper plate through the inlet pipe and the guide cone, thereby transferring part of the thermal energy, providing the exit of exhaust gases through the perforations, as well as thermal heating of the heat trap, due to its design feature, thereby providing a thermal image of the muffler of the VVST object.

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