RU153104U1 - MOBILE INFLATABLE LAYOUT OF THE OBJECT OF MILITARY EQUIPMENT - Google Patents

Abstract

A mobile inflatable mock-up of an object of military equipment containing a shell that imitates, after filling with air, the dimensions and shape of a self-propelled object of military equipment, characterized in that it includes an additional gasoline power unit with an electric generator, two brackets, each of which has an electric drive winch with its own cable, two pyramidal brackets, each of which has a block rotating in the horizontal plane, four wheels, a prefabricated metal trapezoidal frame with a top straight a smaller rectangular frame and a larger lower rectangular frame, to which rods are mounted perpendicularly protruding beyond the outer perimeter, each of the four wheels being mounted on the corresponding rod during the simulation of the military equipment, the assembled metal trapezoidal frame is assembled from components in one piece construction using fixing material, i.e. nuts and bolts, an inflatable mock-up of an object of military equipment is located in an inflated condition on the upper rectangular frame of a prefabricated metal trapezoidal frame, which is located on a flat open, well-visible area, the petrol power unit with an electric generator using the first and second electrically conductive cables with reliable insulation are connected respectively with electric drives of the first and second electric winchs mounted on their brackets, so that when voltage is applied to the electric The first of the winchs unwound the electric drives, and the second wound the corresponding own cable, and

Description

The utility model relates to the means of misleading the enemy, as well as to the means of ensuring survivability of real weapons and military equipment (VT).

Known fixed inflatable tank layout containing a flexible shell that simulates after inflation the size and shape of a full-scale tank [1]. This layout is designed for repeated use by engineering troops, has a flexible shell made of thick gas-impermeable textile fabric with a thickness of 0.3-1 mm, and therefore cannot be compactly packed in a small container fixed outside the hull of a real tank without compromising its maneuverability, and cannot be promptly installed in working condition. For the operation and installation of such a layout requires trained personnel.

Also known is a mobile ground-based VT object, comprising a housing on which vegetation masking facilities are fixed [2]. Means of camouflage by vegetation solve only questions of concealment, do not provide imitation of the object itself. Using as a disguise only means of concealing a mobile object of a ground-based VT, with existing reconnaissance means, does not provide the main objective of disguise - misleading the enemy.

Also known is the inflatable mock-up of the VT object [3], containing a shell that imitates the dimensions and shape of a self-propelled VT object after filling with air, the shell being made with the possibility of its placement in a container that has fastening elements to the body of the VT object, the shell is made of polymer material with a thickness of 0 , 05-0.5 mm based on polyethylene, polypropylene or polystyrene, the polymeric material of the shell includes polyester or polyamide filaments, the model is equipped with a transmitter of electromagnetic signals and elements designed mi to reflect electromagnetic radiation, and is also equipped with a panel designed to create thermal radiation, and a simulator of defeat, moreover, the model is made with the possibility of inflation from a container of compressed air, which is located in the container, the shape of the shell model corresponds to the forms of self-propelled objects of military equipment, typical representatives which are: tanks, self-propelled artillery, armored infantry vehicles, self-propelled anti-aircraft artillery systems, self-propelled anti-aircraft missile systems, self-propelled rocket artillery.

This model cannot be recognized as a highly effective imitation tool, because over time it does not change its location and cannot even be moved using a tugboat, since it does not have wheels or tracks, and dragging it with a wire can lead to a violation of the tightness of the shell of the model and loss of necessary forms in an inflated (filled with air) state.

As you know, self-propelled objects of military equipment on the battlefield are constantly moving, and fire is fired from short stops, which is well known to the enemy, whose aviation and space reconnaissance equipment are not only once, but repeatedly monitor the ground-based self-propelled VT objects. The lack of movement of self-propelled guns of the VT is a sign that it is a simulator, and not a real model of weapons. This symptom becomes especially vivid when different types of influences are applied by the enemy. For example, when using anti-radar missiles (PRR) on a self-propelled anti-aircraft missile system (SAM), methods of passive protection from them involve changing the starting or firing positions. The lack of reaction from the SAM system to the use of PRR is the clearest sign that a simulation object is on the battlefield or along the route (extension).

The objective of the utility model is to enhance the simulation properties of the model of an object of military equipment by giving it mobility without the use of special self-propelled tugs.

To solve this problem, it is proposed to include in the composition of the inflatable prototype of the VT object [3]: a gasoline-powered power unit with an electric generator; two brackets, on each of which an electric drive winch with a cable is fixed; two pyramidal brackets with a block rotating in the horizontal plane; four wheels; a prefabricated metal trapezoidal frame with an upper rectangular frame and a lower rectangular frame, on which 4 short rods should be fixed perpendicularly outside the outer perimeter for fastening the wheels.

Such a composition of a set of a mobile inflatable breadboard model of a VT object with appropriate mutual placement of its elements on the ground provides it with the ability to move back and forth (translationally-backward) through towing ropes that are rigidly fixed to the ground with the help of electric winch brackets, each of which is wound with a cable to the winch allows the prototype BT to move only in one direction, as shown in FIG. one.

A mobile inflatable mock-up of an object of military equipment includes (Fig. 1, 2) directly an inflatable mock-up of military equipment 1, four wheels 11, an arm with an electric drive winch 2 with a cable 4, an arm with an electric drive winch 3 with a cable 5, two pyramidal brackets 6 and 7 with a rotating unit in a horizontal plane, a gasoline-powered power unit with an electric generator 8, a prefabricated metal trapezoidal frame 13 with an upper rectangular frame 9 and a lower rectangular frame 10, on which 4 are fixed perpendicularly protrude s for the outer perimeter of the short rods 12 for fastening of wheels 11.

The principle of using a mobile prototype of a VT object is as follows.

Together with the inflatable mock-up of the VT 1 object, known from [3], in a deflated state, it is also necessary to transport a gasoline powered power unit with an electric generator 8, as well as two brackets, each of which has an electric drive winch with a cable, and two pyramidal brackets 6 and 7 with a block rotating in a horizontal plane (Fig. 1). Four wheels 11 and a prefabricated (assembled using bolts and nuts) metal trapezoidal frame 13 having an upper rectangular frame 9 and a lower rectangular frame 10 (Fig. 2) should also be transported with an inflatable prototype of BT 1. The lower frame 10 is made with fixed (built-in) metal rods 12 for fastening the wheels 11. In the central axial part of the wheels, bearings are built in, the inner diameter of which is equal to the outer diameter of the rods 12. The wheels must be worn on the rods and provide movement of the entire frame 13 and placed on its upper rectangular frame 9 inflatable layout 1 object VT. Electric winch powered using flexible cables from a gasoline powered unit with an electric generator 8 (Fig. 1). The brackets of the electric drive winches are fixed to the ground with metal brackets for reliable towing of the metal trapezoidal frame 13 by winding the cable. The length of the brackets driven into the ground should be at least 40-50 cm. The recommended height h for mounting the winch on the bracket is 1 m.

The frame 13 with the inflatable breadboard model 1 of the VT object installed on it (Fig. 1) is located in an open, well-viewed area, and at a distance of 50-100 meters from them, brackets with electric winch 2 and 3 with cables 4 and 5.

Upon arrival in the combat area, the true military equipment is masked with the help of tents, vegetation, etc. [2], and with the help of inflatable mock-ups a false combat situation is imitated. To do this, the assembled metal trapezoidal frame 13 transported in disassembled form is assembled into a rigid integral structure using bolts and nuts. A rectangular frame 9, smaller in size, is fixed on top, and a larger frame 10 in bottom. Wheels 11 are put on the rods 12 of the lower frame 10 and then the rods are splintered from the protrusions external to the wheels. This ensures that the wheels cannot fall off the rods 12. The inflatable model 1 of the VT object is mounted on the upper frame 9 of the frame 13 and inflated with the help of a compressor or receiver of a transporting vehicle or other VT object. For stability of the inflatable layout 1 of the BT object on the frame 9, transverse rods 14 (Fig. 3) in the form of tubes or rods inserted into the holes of the side long guides of the frame 9 can be additionally fixed in it.

To the front lower short cross member 18 of the frame 9 is attached (fastened) the cable 4 from the electric winch 2 fixed to the bracket (Fig. 2). Correspondingly, a cable 5 attached to the bracket of the winch 3 is attached to the rear lower short cross member 19 of the frame 9. The cable 4 connects the electric winch 2 and the frame 13, which carries an inflatable model 1 W, directly, i.e. directly. The cable 5 connects the trapezoidal frame 13 with the winch 3 mounted on the bracket through horizontally located rotationally-transmitting blocks of the pyramidal brackets 7 and 6. These brackets must also be fixed securely with brackets in the ground. In the presence of vegetation and other local objects securely fixed in the ground, brackets with winches and brackets with blocks can be attached to them using wire or metal earrings-fasteners.

The electric motors (electric drives) of the winches are powered by voltage from a gasoline unit with an electric generator 8 so that when winding the cable 4, the cable 5 is unwound and vice versa. The simultaneous inclusion of electric winches leads to the fact that the frame 13 with the inflatable breadboard model 1 of the VT object installed on it moves towards the bracket with the winch 2 until the voltage from the electric motors of the winches is removed. When the power is turned back on (changing the polarity or changing the connection scheme of the motor windings to the three-phase network), the winch cable 3 starts to be wound, and the winch cable 2 starts to unwind. Frame 13 with an inflatable layout 1 of the VT object begins to move in the opposite direction. The direction of movement or stopping layout 1 of the BT object is controlled by the operator. It is more rational to do this with the help of an external control panel, when the buttons are pressed in the switching panel of the petrol unit 8, the conductive cables of the energy transmission lines to the electric drive winches 2 and 3 are connected to the generator accordingly, however, this is not a matter of principle, and the operator can switch (re-switch ) even manually both on the gasoline-powered unit 8 and on the winches. The essence of the utility model does not change from this.

The first of the pyramidal brackets with a horizontal rotating block 7, it is advisable to place on the continuation of the connection line between the first electric drive winch 2 and the prefabricated metal trapezoidal frame 13 at a distance of 50-100 meters, and the second pyramidal bracket with a horizontal rotating block 6 should be located on the middle perpendicular to the line between the first electric winch 2 and the first pyramidal bracket 7 at a distance of about 20-30 meters from this imaginary line. The position of the pyramidal bracket with the block 6 rotating in the horizontal plane should not be exactly perpendicular to the middle of the segment between the first electric winch 2 and the first pyramidal bracket 7. It should take into account the terrain and is approximately recommended, that is, can be changed if necessary side for a few meters. Moreover, instead of one bracket with block 6, several such brackets can be used to transfer traction from the electric winch 3 to the pyramidal frame 13. However, this clutters and complicates the technical solution without changing its essence.

Thus, under the operator’s control, an inflatable breadboard model 1 of the VT object will be able to make translational-backward movement over a site of terrain. Such behavior of an inflatable breadboard model 1 of a VT object at a position provides a more plausible imitation of real VT models and thereby increases the survivability of real weapons or equipment that are masked or fighting.

The conductive cables for supplying voltage to the winch electric drives must have good insulation and an internal cross section of at least 2 mm, since the use of an inflatable layout is expected in any weather, i.e. in rain, snow, etc. The indicated internal cross-section is recommended to reduce losses during voltage transmission over long distances (more than 100 m).

New design elements of a mobile inflatable breadboard model of the VT object are widely known and are currently widely used. So, for example, electric winches are commercially available. One embodiment of an electric winch design is shown in FIG. 4. Typically, such a winch consists of an electric motor 15, a reduction gear 16, providing high traction power, and a coil with a wound cable 17 (Fig. 4).

The range of such winches is very large [4, 5]. Embodiments of their designs are shown in FIG. 5. Brackets for attaching such winches can be made of metal in park or military conditions.

Power units with generators are also widely known and are commercially available [6]. The appearance of one of these gasoline units with a generator is shown in FIG. 6.

Prefabricated frame 13 can also be made in military conditions from metal corners and rods by screwing or welding. Wheels can be borrowed from other types of weapons, military or automotive equipment. Pyramidal corners are easily made by welding from steel corners, and the blocks rotating in the horizontal plane used in the mobile prototype (Fig. 7) are available for sale in the repair bodies of military units.

Thus, equipping a mobile inflatable breadboard model of the VT object with new elements is currently (at the current level of development of science and technology) technically feasible.

A mobile inflatable mock-up of the VT object is a fairly simple but effective means of imitation. It does not require special operator skills, reliable, simple, maintainable and does not require significant material costs.

A mobile inflatable mock-up of the VT object is recommended for military units in need of simulation tools to mislead enemy space or airborne reconnaissance equipment [7, 8]. It is advisable to move the set of a mobile inflatable breadboard model of the VT object to the area of operations of the military unit together with real objects of military equipment.

Information sources

1. US patent No. 5238406 (equivalent).

2. RF patent №2284002 from 09.20.2006. A method for masking movable objects of cut, including preserved, and / or artificial vegetation and a device for its implementation (method variants). Shakhvorostov N.G., Khadzhieva Y.Ya., Prokofiev I.E., Bulakhov A.G. and others (analog).

3. RF patent No. 2355994 of 05.20.2009. An inflatable mock-up of an object of military equipment and an object of military equipment. Talanov A.V. (prototype).

4.http: //www.220-volt.ru/catalog/lebedki-tali/

5. http://smolensk.tiu.ru/Lebedka.html

6.http: //www.ab-log.ru/build/generator

7. Mosov S.P. Aerospace reconnaissance in modern military conflicts. Kiev: Rumb Publishing House, 2008. 248 p.

8. Menshakov Yu.K. Types and means of foreign technical intelligence / Ed. M.P. Sychev. M .: MSTU im. N.E. Bauman, 2009.656 s.

Claims (1)

A mobile inflatable mock-up of an object of military equipment containing a shell that imitates, after filling with air, the dimensions and shape of a self-propelled object of military equipment, characterized in that it includes an additional gasoline power unit with an electric generator, two brackets, each of which has an electric drive winch with its own cable, two pyramidal brackets, each of which has a block rotating in the horizontal plane, four wheels, a prefabricated metal trapezoidal frame with a top straight a smaller rectangular frame and a larger lower rectangular frame, to which rods are mounted perpendicularly protruding beyond the outer perimeter, each of the four wheels being mounted on the corresponding rod during the simulation of the military equipment, the assembled metal trapezoidal frame is assembled from components in one piece construction using fixing material, i.e. nuts and bolts, an inflatable mock-up of an object of military equipment is located in an inflated condition on the upper rectangular frame of a prefabricated metal trapezoidal frame, which is located on a flat open, well-visible area, the petrol power unit with an electric generator using the first and second electrically conductive cables with reliable insulation are connected respectively with electric drives of the first and second electric winchs mounted on their brackets, so that when voltage is applied to the electric The first of the winches was unwound, the second one wound its own cable, and when the parameters of the supplied voltage were reversed, the first one was wound, and the second one unwound its own cable, while the cable of the first electric winch is mechanically connected to the front lower cross member of a prefabricated metal trapezoidal frame, the rear lower cross member of which is mechanically connected by a cable through the blocks of the pyramidal brackets with a second electric drive winch, brackets with electric drive winches are located at a distance of several meters from each other and at a distance of 50-100 meters from a prefabricated metal trapezoidal frame with an inflatable mock-up of an object of military equipment installed on it in an inflated state, the first of the pyramidal brackets with a block rotating in a horizontal plane is located on the continuation of the connection line between the first electric drive winch and the prefabricated metal trapezoidal frame at a distance of 50-100 meters, and the second pyramidal bracket with horizontal rotation ntal plane block is located on the middle perpendicular to the segment between the first electric winch and the first pyramidal bracket with the block rotating in the horizontal plane at a distance of about 20-30 meters from this segment, providing such a mutual arrangement of the elements of a mobile inflatable breadboard model of the object of military equipment translational-reverse movement terrain of a prefabricated metal trapezoidal frame and an inflatable mock-up of an object of military equipment placed on it in an inflated state at the expense of t winding and unwinding cables on winches when applying the appropriate voltage to their electric drives from a gasoline powered unit with an electric generator.

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