RU227360U1 - UNIVERSAL REMOTE CONTROLLED PLATFORM WITH AEROSTATS - Google Patents

Abstract

The utility model relates to the design of cargo platforms for transporting goods and conducting combat operations. The universal remote-controlled platform consists of a quadcopter, two balloons made of porous material with a cellular structure, which are attached from below with a rectangular base, and winches for lifting cargo mounted on transverse beams. The quadcopter consists of a rectangular base consisting of steel trusses fastened together with rivets; between the truss beams there are crossbars on which winches are installed for lifting the load. Hybrid engines are located at the corners of the quadcopter’s base; four VK-2500 turboshaft engines and solar panels mounted on top of a flat surface are attached to the edge of the platform. Fuel tanks and batteries are located on top of the base of the quadcopter near the engines. The platform is equipped with mounts for equipment and weapons. In this case, the balloon is made with a system for pumping and heating gas, a valve for remote bleeding and cooling of gas for landing the platform on the surface, and steam generators with containers are installed under the hybrid engines. The technical result is the creation of a multifunctional platform with balloons, which is capable of staying in the air for a long time, as well as generating electricity and water. 11 salary f-ly, 3 ill.

Description

The utility model relates to the design of cargo platforms for transporting goods and conducting combat operations.

The closest analogue is a hybrid transport system containing a balloon and a towing helicopter connected to it, characterized in that it contains a supporting frame with a platform for a helicopter, into which fasteners are built-in to hold the helicopter on the platform; a stiffening frame is mounted in the middle part of the supporting frame for forceful holding of at least three balloons placed horizontally in it and made with the possibility of filling them with lighter-than-air gas until the system is buoyant, two transport canister cars for transporting goods are rigidly attached to the side platforms of the supporting frame and the side walls of the stiffening frame, in Shock-absorbing cushions filled with air are mounted in the lower part of the supporting frame, and a control unit is built into the helicopter cabin to ensure optimal inertial dynamics of flight, takeoff and landing in real weather conditions (invention patent 2566455, 10.27.2015). The disadvantage of the analogue is that it cannot hang in the air for a long time, and also has little functionality compared to the declared device.

The purpose of the utility model is to create a universal flying platform.

This problem is solved by a universal remote-controlled platform consisting of a quadcopter, two balloons made of a porous material with a cellular structure, which are attached from below with a rectangular base, winches for lifting cargo mounted on transverse beams, the quadcopter consists of a rectangular base consisting of fixed steel trusses are riveted together, between the truss beams there are cross members on which winches are installed for lifting the load, hybrid engines are located at the corners of the quadcopter base, four VK-2500 turboshaft engines are attached to the edges of the platform, solar panels mounted on top of a flat surface, fuel tanks , the batteries are located on top of the base of the quadcopter near the engines, the platform is equipped with mounts for equipment and weapons, characterized in that the balloon is made with a system for pumping and heating gas, a valve for remote bleeding and cooling of gas for landing the platform on the surface, and steam generators with containers are installed under the hybrid engines .

Engines running on liquid carbon fuel (gasoline, diesel fuel) during lifting use solar panels and batteries with accumulated electrical energy when transporting cargo.

The platform is capable of carrying weapons for striking ground and air targets, and is capable of carrying equipment for jamming radio signals, the Internet, transmitting radio signals and the Internet.

The platform is capable of carrying equipment for monitoring ground and air targets.

The platform is capable of carrying a modular installation of missile and artillery systems.

The platform is capable of joining several air platforms into one large platform with the ability to dismantle and transfer the engines to the edge of the new platform formed.

Fuel tanks are plastic, covered with heat-absorbing material.

The metal surfaces of the platform are painted with heat-reflecting paint.

The platform is masked using steam generated by the engines.

Additional camouflage of the platform is achieved by painting it in the color of the sky and clouds.

Anode protection against electricity is carried out. Anodic protection of metal structures can consist of copper wires bolted to the metal parts of the platform; the loose ends of the copper wires are exposed and hang freely in the air from below the platform, allowing charges from static voltage removed from the metal parts of the platform into the atmosphere.

The technical result is the creation of a multifunctional platform with balloons, which is capable of staying in the air for a long time, as well as generating electricity and water, as it includes a quadcopter, two balloons, winches for lifting cargo, hybrid engines are located at the corners of the base of the quadcopter, along the edge of the platform four turboshaft engines, solar panels installed on top of a flat surface, fuel tanks, batteries, and steam generators with containers are fixed.

When the balloon is punctured, the fabric tightens the puncture site as much as possible.

The utility model is illustrated in Figs. 1-3.

In fig. 1 shows a top view of the device;

In fig. 2 shows a bottom view of the device;

In fig. 3 shows a side view of the device,

where 1 is a balloon;

2 - container (truck);

3 - winch (crane);

4 - engines;

5 - beam (truss);

6 - control cabin;

7 - solar panels;

8 - fuel tanks;

9 - batteries.

The platform can rise to a height of more than 18,000 meters and be invisible to air defense systems.

If the balloons are damaged, the ability to plan and safely descend to the surface remains, while the balloons protect the engines from damage from the surface. The balloons also protect the platform control module from damage.

Balloons are used to support structures in the air and move to specified coordinates.

A flat surface is installed on top of the balloons above the beams. The flat surface on top of the platform is formed from a mesh consisting of iron rods installed on top of the platform and metal formwork around the edges. The mesh is filled with concrete or cement. The formwork protects the reinforced concrete platform from destruction by temperature changes and air flows and becomes the roof of the aircraft. On this roof, an area is distributed in the middle for installing solar panels and batteries. Four VK-2500 turboshaft engines are mounted at the edges of the platform. These motors are silent and can move the platform both forward and backward.

Fuel tanks are mounted underneath the engines. The coating of the fuel tanks is explosion-proof.

The invisibility of the platform is achieved by reducing thermal and electrical conductivity, so that thermal imagers cannot determine what kind of object, the scale of the object, so that the thermal systems of the missiles do not react to the object in any way. Create a blur effect for optical instruments by masking the object with the steam created when the engines are running, painting it in the color of the sky and clouds.

Steam is created by steam generators, which are mounted under the engines or nearby. Attached to the steam generator are containers for the liquid from which steam is created. The liquid accumulates in a container of air condensate under the influence of the difference in ambient air temperatures and the heat of solar panels from a running engine. The steam generator is powered by an engine and electricity. You can pre-fill the containers with water for steam.

The balloon consists of several sections, isolated from each other, and includes a system for pumping gas and releasing gas into each section. When the balloon is punctured, the fabric tightens the puncture site as much as possible. Self-tightening of balloon holes occurs due to containers with gel and polyurethane foam installed inside the balloons, equipped with a high-pressure compressor and a valve that is activated when the pressure inside the balloon decreases. When the pressure decreases, the valve opens, the compressor begins to drive foam out of the container, the foam, under the influence of the air flow formed by the movement of air from the hole, rushes to the place where the balloon is damaged and begins to expand, sealing the hole.

Motors, batteries, solar panels, steam generators are secured with bolts, nuts and locknuts with washers. Since the area of the device is large, welding seams will not provide sufficient strength; welding seams and rivets will not allow replacing worn parts. The water tanks are attached to the beams with rivets; welding does not provide sufficient strength. The rest of the attachments are also fastened with bolts and nuts and locknuts with washers, since they must be periodically replaced with a new one or something else.

Removal, installation, and fastening of equipment are provided using slides with bolts to prevent slipping. To lift and move loads, standard winches with hooks and slings are used.

The carrying capacity of the device allows you to mix and launch intercontinental missiles.

The platform is capable of creating stations and settlements above the surface of the earth. To do this, the engines are removed from small platforms when docked with other platforms and installed in a new designated location. As a result, a flat space of large area is formed on the upper surface of the newly formed large platform.

The platform can be used to supply electricity and water to populated areas. It is enough to attach containers for transporting goods with batteries and a large container for water instead of cargo. On earth, solar panels cannot be used everywhere due to the lack of sun and the required degree of sunlight. It is advisable to use solar panels high in the atmosphere to reduce negative effects and increase the efficiency of solar panels. A side effect of using solar panels is the condensation of fresh water.

The energy intended for movement will be accumulated in batteries; when the batteries are completely filled, the container with them is lowered to the ground next to the transformer booth, where electricity is transferred to the consumer.

Water formed by condensation of moisture from the atmosphere produced by solar panels flows into tanks and accumulates there. As the tanks fill, the tanks are lowered to the ground and connected to the water supply systems. Water tanks are attached to water supply systems in populated areas with corrugated hoses equipped with quick-release nuts.

Claims (12)

1. A universal remote-controlled platform consisting of a quadcopter, two balloons made of a porous material with a cellular structure, which are attached from below with a rectangular base, winches for lifting cargo mounted on transverse beams, the quadcopter consists of a rectangular base consisting of rivets fastened together steel trusses, between the beams of the trusses there are cross members on which winches are installed for lifting the load, hybrid engines are located at the corners of the base of the quadcopter, four VK-2500 turboshaft engines are attached to the edge of the platform, solar panels installed on top of a flat surface, fuel tanks, batteries are located on top of the base of the quadcopter near the engines, the platform is equipped with mounts for equipment and weapons, characterized in that the balloon is made with a system for pumping and heating gas, a valve for remote bleeding and cooling of gas for landing the platform on the surface, and steam generators with containers are installed under the hybrid engines. 2. The universal remote-controlled platform according to claim 1, characterized in that the engines running on liquid carbon fuel during lifting use solar panels and batteries with accumulated electrical energy when transporting goods. 3. A universal remote-controlled platform according to claim 1, characterized in that the platform is capable of carrying weapons for striking ground and air targets. 4. A universal remote-controlled platform according to claim 1, characterized in that the platform is capable of carrying equipment for jamming radio signals, the Internet, transmitting radio signals and the Internet. 5. A universal remote-controlled platform according to claim 1, characterized in that the platform is capable of carrying equipment for monitoring ground and air targets. 6. A universal remote-controlled platform according to claim 1, characterized in that the platform is capable of carrying a modular installation of missile and artillery systems. 7. A universal remote-controlled platform according to claim 1, characterized in that the platform is capable of joining several air platforms into one large platform with the ability to dismantle and transfer the engines to the edge of the new formed platform. 8. Universal remote-controlled platform according to claim 1, characterized in that the fuel tanks are plastic and covered with heat-absorbing material. 9. Universal remote-controlled platform according to claim 1, characterized in that the metal surfaces of the platform are painted with heat-reflecting paint. 10. Universal remote-controlled platform according to claim 1, characterized in that the platform is camouflaged using steam generated during engine operation. 11. Universal remote-controlled platform according to claim 1, characterized in that additional camouflage of the platform is achieved by painting it in the color of the sky and clouds. 12. Universal remote-controlled platform according to claim 1, characterized in that anodic protection from electricity is carried out.