RU2520037C1 - Thermal target simulator - Google Patents

Abstract

FIELD: weapons and ammunition.

SUBSTANCE: invention can be used to perform flight development tests of jet projectiles (JP) equipped with cassette payloads (CP) with self-sighting submissiles (SSS), which operate in infrared (IR) ranges, as well as other types of ammunitions equipped with infrared target-seeking heads for simulation of thermal emissions of military objects at dislocation points or in source areas. The essence of the invention consists in the fact that a thermal target simulator includes a fabric cloth and heaters. Fabric cloth is made in the form of a cover and arranged on a demountable frame including two side walls and two end walls. Rear end wall is equipped with a metal shield, and the cover is equipped with a skirt located along the perimeter of the frame; with that, the cover and the skirt are made from fabric material, for example laminated cloth (GOST 7297-90), dyeing shade is dark (GOST 29222-91). Heaters are located inside the frame on supports adjustable as to height in compliance with thermal parameters of the simulated target; the cover is fixed from above on the frame by means of longitudinal clamps. The skirt adjacent to the rear end wall is fixed from below by means of a transverse clamp. Clamps are equipped with elastic fasteners, and the device itself is equipped with a simulator of the outline of the horizontal target projection, which is made in the form of stiff reference points connected with flexible connections.

EFFECT: thermal target simulators made in compliance with the invention provide thermal target image identical to thermal image of the simulated object, quick setup of demountable target fields consisting of a large number of thermal simulators under any climatic conditions and under conditions of failure of considerable volumes of electric power, and their reliable operation.

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Description

The invention relates to the field of military equipment and can be used for flight design tests of rockets (PC) in equipment with cluster warheads (CBF) with self-aiming warheads (SPBE) operating in the infrared (IR) ranges, as well as other types of ammunition equipped with infrared homing heads to simulate the thermal radiation of military installations at locations or source areas.

As a rule, thermal simulators are a complex of devices consisting of a housing, heaters of various types and a heat dissipating cover.

A feature of this thermal simulator is that its normal functioning and effectiveness depends largely on the choice of a structural layout that ensures the reliability of a simulated model of weapons and military equipment (IWT), as well as the possibility of its repeated use.

Known catalytic thermal simulator operating on various types of hydrocarbon fuels, according to the patent of the Russian Federation No. 2464522, F41H 13/00, publ. 05/20/2012, consisting of two cylindrical glasses. The catalyst block and the electric and fire start system are placed in the first cylindrical catalyst cup, and the fuel cylinder with a wick is placed in the second cylindrical fuel cup for supplying fuel to the evaporation chamber inside the catalyst block.

This design of a catalytic thermal simulator can be used to partially simulate the thermal radiation of military installations.

However, this design does not fully match the thermal image of the simulator with the thermal image of the simulated IWT sample.

Thus, the objective of this technical solution was a crude simulation of thermal radiation from military installations, heating engines, individual components of equipment, as well as heating personnel.

The common features of the known technical solution with the design proposed by the authors is the presence of heaters.

Known simulators of various types of weapons and military equipment manufactured by the company "Minotor-Service", Minsk, Belarus. Layouts are performed in full size using inflatable elements, have a simulation device in the spectral range of infrared radiation. The main purpose of such simulators is to equip false positions, areas of the location of troops and objects, as well as false landmarks.

Common features of this technical solution with the design proposed by the authors is the presence of heating devices.

However, these designs are expensive for testing PCs with CBF in SPBE equipment for target fields (MP), consisting, as a rule, of a large number of thermal simulators arranged in a certain sequence, since they have a one-time life cycle in case of ammunition falling into them .

The closest in technical essence and the technical result achieved is the design of the thermal simulator according to the patent of the Russian Federation No. 2278344, F41H 3/00, publ. 06/20/2006, adopted by the authors for a prototype containing a fabric panel on which heaters are mounted.

This design of the thermal simulator allows you to simulate individual samples of military equipment.

The reasons that impede the achievement of the technical result indicated below when using the well-known design of a thermal simulator include the fact that this design requires the supply of a large amount of electricity in the field, which is not always possible, and is also expensive to manufacture, since it has a one-time life cycle at tests of PCs with CBF in SPBE equipment in target fields consisting of these simulators. In addition, such a device does not correspond to the dimensions of the simulated weapons and military equipment, and also requires a lot of time when installing the MP, consisting, as a rule, of a large number of thermal simulators.

Thus, the objective of this technical solution (prototype) was to simulate small quantities of weapons and military equipment at deployment points or source areas, as well as protection against precision weapons equipped with infrared homing heads, and only in places with electricity.

The common features with the design of the thermal target simulator proposed by the authors is the presence of a fabric panel and heaters.

In contrast to the prototype, in the proposed design of the thermal simulator of the target, the fabric is made in the form of a cover and placed on a collapsible frame, including two side and two end walls, the rear end wall is equipped with a metal screen, and the cover is a skirt located around the perimeter of the frame, while the cover and skirt are made of fabric material, for example, a raincoat fabric (GOST 7297-90), the color tone is dark (GOST 29222-91), and the heaters are located inside the frame on height-adjustable stands in accordance with the heat vapor with simulated targets, from above the cover is fixed to the frame by means of longitudinal clamps, and the skirt adjacent to the rear end wall is fixed from below by means of the transverse clip, the clips are equipped with elastic clamps, and the device itself is a simulator of the contour of the horizontal projection of the target, which is made in the form of rigid frames, connected by flexible connections.

In the particular case, that is, in a specific embodiment, the invention is characterized in that the heaters are made in the form of catalytic wick furnaces.

It is this that allows us to conclude that there is a causal relationship between the totality of the essential features of the claimed technical solution and the achieved technical result.

These signs, distinctive from the prototype, and to which the requested amount of legal protection applies in all cases, are sufficient.

The objective of the invention is the creation of a thermal simulator of the target, providing a thermal image of the target, identical to the thermal image of the simulated object (sample IWT), the rapid setting of collapsible target fields, consisting of a large number of thermal simulators, in any climatic conditions and in the absence of supply of electrical energy in significant volumes, as well as their reliable operation.

The specified technical result during the implementation of the invention is achieved by the fact that the thermal simulator of the target contains a cloth and heaters, the feature is that the cloth is made in the form of a cover and placed on a collapsible frame, including two side and two end walls, the rear end wall is equipped with a metal the screen and the cover with a skirt located around the perimeter of the frame, while the cover and skirt are made of fabric material, for example, raincoat fabric (GOST 7297-90), the color is dark (GOST 29222-91), and heaters are located inside the frame on height-adjustable stands in accordance with the thermal parameters of the simulated target, on top the cover is mounted on the frame by means of longitudinal clamps, and the skirt adjacent to the rear end wall is fixed on the bottom by means of a transverse clamp, the clamps are provided with elastic clips, and the device itself - a simulator of the contour of the horizontal projection of the target, which is made in the form of rigid benchmarks connected by flexible connections.

A new set of structural elements, as well as the presence of connections between them, allows, in particular, due to:

- performing a fabric panel in the form of a cover and placing it on a collapsible frame, including two side and two end walls, to provide the possibility of transporting a large number of thermal simulators in a collapsible form using a limited number of automotive equipment, to reduce the time of the technological cycle during assembly work and installation of thermal target simulators;

- supplying the rear end wall with a metal screen to provide an imitation of the engine compartment of the target, which is the most heated part of the weapons and military equipment, due to lateral re-radiation from the heaters;

- supplying the cover with a skirt located around the perimeter of the frame, while the cover and skirt are made of fabric material, for example, raincoat fabric (GOST 7297-90), the color tone is dark (GOST 29222-91), to obtain a target contrast corresponding to the near and far IR the range of the target, reduce the heat transfer of the target simulator along the side surface of the simulator; and also provide the ability to simulate targets in precipitation (in the form of rain or snow);

- the location of the heaters inside the frame in accordance with the thermal parameters of the simulated target on height-adjustable stands to provide a thermal image of the simulated model of military equipment with different surface winds and different outdoor temperatures of the underlying surface and ambient air;

- fixing the cover on the frame from above, by means of longitudinal clamps, and the skirt adjacent to the rear end wall, from below, by means of the transverse clip, ensure the possibility of operating the thermal simulator in difficult weather conditions with strong winds and reduce the time of the technological cycle during assembly work;

- supplying clamps with elastic clips to provide convenient, quick, rigid and reliable fixation of the upper part of the cover and the lower part of the skirt;

- supplying the device with a simulator of the contour of the horizontal projection of the target, which is made in the form of rigid benchmarks connected by flexible connections, to ensure that the coordinates of the defeat of the target in the entire horizontal projection of the simulated object are obtained during testing.

The characteristic characterizing the invention in a specific embodiment allows, in particular, by performing heaters in the form of catalytic wick furnaces, to provide the possibility of setting thermal simulators of the target in the field, in the absence of supply of electric energy in significant volumes, as well as increased reliability during operation.

The essence of the invention lies in the fact that the thermal simulator of the target contains a fabric panel and heaters, a feature is that the fabric panel is made in the form of a cover and placed on a collapsible frame comprising two side and two end walls, the rear end wall is provided with a metal screen, and the cover is a skirt located around the perimeter of the frame, while the cover and skirt are made of fabric material, for example, raincoat fabric (GOST 7297-90), the color tone is dark (GOST 29222-91), and the heaters are located inside the frame and height-adjustable stands in accordance with the thermal parameters of the simulated target, the top is fixed to the frame by means of longitudinal clamps, and the skirt adjacent to the rear end wall is fixed from below by means of the transverse clamp, the clamps are equipped with elastic clips, and the device itself is a simulator of the horizontal projection contour goals, which is made in the form of rigid benchmarks connected by flexible connections.

The essence of the invention is illustrated by drawings, where figure 1 and figure 2 shows a General view of a thermal simulator of the target, figure 3 is a cross section of a longitudinal clip with an elastic retainer.

The thermal target simulator 1 contains a cover 2, heaters 3, a collapsible frame 4, including two side 5 and two end walls 6, a metal screen 7, a skirt 8, supports 9, longitudinal clamps 10, transverse clamp 11, elastic clips 12, a horizontal circuit simulator projections of the target 13, rigid benchmarks 14 connected by flexible links 15.

Thermal target simulator works as follows.

A thermal simulator of the target 1 is placed on the ground, then the heaters 3 are mounted on adjustable stands 9. The thermal radiation of the heaters 3 is directed to the cover 2 located on the collapsible frame 4. The skirt 8 of the cover 2 is fixed by means of longitudinal clamps 10, and the part of the skirt 8 adjacent to the rear end wall 6, fixed from below by a transverse clamp 11. The longitudinal clamps 10 are fixed on the side 5 and end 6 walls of the frame 4 by means of elastic clips 12. At the same time, the thermal radiation of the heaters 3 is directed to etallichesky screen 7 the rear end wall 6. Secondary thermal radiation from the heated cover 2 and 7 metal screen provides a simulation of thermal parameters of the target and its most heated nodes (motors, etc.). Simulation of the geometric parameters of the target is provided by a simulator of the contour of the horizontal projection of the target 13, made in the form of rigid benchmarks 14 connected by flexible connections 15.

The thermal contrast of target simulators 1 to the underlying surface is checked by a non-contact temperature measurement device. If necessary, when the thermal contrast deviates from the set values, the position of the heaters 3 is changed by means of adjustable supports 9.

After the placement of thermal simulators of target 1, tests are carried out and the coordinates of the hit of hit elements in thermal simulators of target 1 are determined.

The implementation of thermal simulators of the target in accordance with the invention provides a thermal image of the target, identical to the thermal image of the simulated object (sample IWT), the rapid setting collapsible target fields, consisting of a large number of thermal simulators, in any climatic conditions and in the absence of the supply of electrical energy in significant volumes , as well as their reliable operation.

The indicated positive result was confirmed by checking the functioning of rockets equipped with self-aiming warheads with target coordinators working in the infrared ranges over target fields consisting of thermal simulators of a target of this design.

Currently, design documentation has been developed, and state tests have been carried out.

Claims (2)

1. A thermal target simulator containing a fabric panel and heaters, characterized in that the fabric panel is made in the form of a cover and is placed on a collapsible frame comprising two side and two end walls, the rear end wall is provided with a metal screen, and the cover is equipped with a skirt located at the perimeter of the frame, while the cover and skirt are made of fabric material, for example, raincoat fabric (GOST 7297-90), the color tone is dark (GOST 29222-91), and the heaters are located inside the frame on height-adjustable stands in accordance with thermal parameters of the simulated target, on top the cover is mounted on the frame by means of longitudinal clamps, and the skirt adjacent to the rear end wall is fixed on the bottom by means of the transverse clip, the clips are equipped with elastic clips, and the device itself is a simulator of the horizontal projection outline of the target, which is made in the form of rigid benchmarks connected by flexible connections. 2. The thermal target simulator according to claim 1, characterized in that the heaters are made in the form of catalytic wick furnaces.

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