RU201285U1 - COMBINED FALSE TARGET - Google Patents

Abstract

The utility model relates to the field of protection of military equipment from aerospace reconnaissance means of the visible, radar and infrared ranges. It can be used to simulate both single decoy targets and to simulate groupings of military equipment. The technical result is the formation of a thermal image of the simulated object on the surface of the false target in a non-contact manner. A combined decoy target is a full-scale mock-up of a sample of weapons and military equipment containing radio-reflecting elements, a camouflage paintwork and a thermal radiation source, which consists of one or more emitters of adjustable power located inside the model, and the formation of a thermal image of simulated objects is carried out by radiation through templates containing areas with different permeability corresponding to the thermal image created through them. The radiation of the searchlight through the template enters the inner surface of the model and, due to the thermal conductivity of the material, is transmitted to the outer surface of the model in the form of areas with different intensities, completely reproducing the thermal image of the simulated object of military equipment. The absence of contact between the heater and the reverse side of the model allows you to quickly change the thermal image of a false target when it is replaced without changing the design of the model; the templates can be quickly replaced with templates that reproduce the thermal image of another simulated object.

Description

The utility model relates to the field of protection of military equipment from aerospace reconnaissance means of the visible, radar and infrared ranges. It can be used to simulate both single decoy targets and to simulate groups of military equipment in order to mislead the enemy about the number of weapons in a given area, as well as to force the enemy to use conventional and high-precision weapons, to detect enemy firing points for the purpose of their destruction.

Known combined false target (RU 2345311 C1, IPC F41H 3/00, 2009.01.27) made in the form of a full-scale inflatable mock-up of a sample of military equipment containing a radio-reflective coating and masking paint, as well as a source of thermal radiation, made in the form of electrical wire heaters. The heaters are arranged in multiple rows and multiple columns. The heaters are controlled according to the thermal images.

Also known is a combined decoy target (RU 2603577 C1, IPC F41H 3/00, 2016.11.27) in which a thermal image is formed taking into account the vibration characteristic of various types of military equipment.

The prototype of the proposed utility model is a combined decoy target (RU 2500973 C2, F41H 3/00, 2013.12.10), containing a radio-reflective coating, a protective shell with masking paint and sources of thermal radiation, made in the form of built-in electric heaters with individual heating control in an amount, equal to the number of characteristic sections that determine the thermal image of the simulated object, and the shape and area of each electric heater correspond to the shape and area of the corresponding section of the simulated object.

Among the disadvantages of the prototype, the following should be noted.

The complexity of the heat source and its control system. If at least one of the heating elements fails, it will be obvious from the remaining thermal image that the target is false. The thermal image is set by built-in heaters of a certain configuration, corresponding to a certain model of military equipment, which does not allow its use for another simulated object. For example, when modernizing military equipment, its thermal image may change, which will require significant material and time expenditures to bring the thermal image of a false target into conformity with the thermal image of the simulated object.

The technical task that was posed during the development of the utility model is to increase the reliability of creating a thermal image of the simulated object and the possibility of its rapid change.

The technical result to be achieved is the formation of a thermal image of the simulated object on the surface of the false target in a non-contact way.

The technical result is achieved due to the fact that the combined decoy target, made in the form of a full-scale model of a sample of weapons and military equipment, containing radio-reflecting elements, masking paint and a source of thermal radiation, moreover, the source of thermal radiation consists of one or several emitters of adjustable power located inside the model , and the formation of a thermal image of the simulated objects is carried out by radiation through templates containing sections with different permeabilities corresponding to the thermal image created through them.

One or more sources of thermal radiation are located inside the full-scale model, for example, in the form of infrared light projectors. The length of the radiated waves lies in the range of 3 ... 14 (μm), which corresponds to the radiation wavelength of heated bodies in the range of hundreds of degrees Celsius and corresponds to the working range of thermal homing heads and night vision thermal imagers. The image corresponding to the simulated object is formed using a template containing areas with different permeabilities corresponding to the thermal image created through them, installed in the corresponding projector. The radiation of the searchlight through the template enters the inner surface of the model and, due to the thermal conductivity of the material, is transmitted to the outer surface of the model in the form of areas with different intensities, completely reproducing the thermal image of the simulated object of military equipment. The absence of contact between the heater and the reverse side of the model allows you to quickly change the thermal image of a false target when it is replaced without changing the design of the model; the templates can be quickly replaced with templates that reproduce the thermal image of another simulated object.

The base of the template is made of a heat-resistant transparent material in the range of the floodlight 3 ... 14 (μm). A positive image based on a template can be formed, for example, by applying one or more layers of different optical permeability, for example, by photo printing or engraving. A photograph of a real object in the thermal range can be used as a template, for example, Fig. Shows a template with areas with different permeabilities, which forms a thermal image of a T-55 tank, where: 1 - control compartment, 2 - tower, 3 - engine compartment, 4 - caterpillars. The use of a photograph of a real object allows you to achieve absolute fidelity of the image, which reduces the likelihood of revealing the falsity of the target.

The image can also be formed when using projectors controlled from a computer, where, in accordance with a given template, the radiation of the projection light is electronically modulated. In the case of using projectors controlled from a computer, data corresponding to the simulated object is loaded into the computer memory.

By replacing templates, you can quickly change the thermal appearance of the decoy target. Adjusting the power of the searchlight also allows you to simulate various states of equipment, for example: warming up the engines, stopping after a march (the engines are turned off and slowly cool down). The formation of a thermal image of the simulated object on the false target surface is carried out by radiation through templates containing areas with different permeabilities in accordance with their thermal image in a non-contact way, which allows you to quickly change the thermal image when replacing the simulated object. The technical result has been fully achieved.

In addition, the location of radiation sources inside the enclosure eliminates their unmasking effect and protects the emitters from adverse environmental influences. It should be noted the simplicity and efficiency of the proposed method of forming a thermal image in comparison with the prototype, as well as an increase in reliability and reliability.

Claims (1)

A combined decoy target made in the form of a full-scale mock-up of a sample of weapons and military equipment containing radio-reflecting elements, a camouflage paintwork and a thermal radiation source, characterized in that the thermal radiation source consists of one or more emitters of adjustable power located inside the model, and the formation of a thermal image of objects are carried out by radiation through templates containing areas with different permeabilities corresponding to the thermal image created through them.

Images