RU2471343C2 - Method and device of shield from sun rays at pastures - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to agriculture and can be used for shielding the pastures from sun rays. The method of shielding from sun rays at pastures includes the use of flying structures (1) lighter than air over the places of animals' location. For placement of structures (1) at a given height and position the hot air is used inside the structures (1), the direction of wind flow, and flexible rods (5). The device of shield from the sun rays at the pastures consists of one or more flying structures (1) of soft toroid-shape membranes which are lighter than air, with bypass valves (2), flexible rods (5), and winches (7). The device comprises a shielding grid (3), compartments (6) of the ballast fluid, hoses of the compartments (6) of the ballast fluid, an air compressor (9), a water pump (11), an actuator (8), a transport trolley (4), a self-contained power-supply source. The carrying shielding grid (3) is attached along the inner perimetre of the flying structures (1). The compartments with the ballast fluid (6) and an air compressor (9) are placed on the upper part of the flying structure (1). The actuator (8) of the air compressor (9), water pump (11), winch (7) and wheels, the self-contained power-supply source and the winch (7) are placed on the transport trolley (4). The output of the water pump (11) is connected to the compartments (6) of the ballast fluid with the hoses of the compartments (6) of the ballast fluid. The drive provides the operation of the air compressor (9), the water pump (11) and the wheels.

EFFECT: increased shielded pasture areas, adaptation of the device to changing weather and climatic conditions.

4 cl, 3 dwg

Description

The invention relates to agriculture, in particular to methods and devices for the implementation of technological processes in animal husbandry, and in particular to the technique of creating structures lighter than air to protect pastures from the sun.

Known methods for creating a zone of protection from the rays of the sun on pastures, when in the hot season using artificial awnings and / or fabric awnings [1. Otto F. Pneumatic building structures. / F. Otto, R. Trostel - M .: Stroyizdat, 1967.320 s.].

The disadvantage of this technical solution is the attachment of the device to the place of pasture, which limits the mobility of animal nutrition under a canopy due to the rapid destruction of feed.

The closest to the method of implementation and technical execution is the method of creating a zone of protection of the territory and objects using tethered barrage balloons [2. Results of science and technology. Air Transport. T.18. "The use of modern aerostatic aircraft." M., VINITI, 1989]. The barrage balloon, tied by a flexible rod to the winch, was used in the military for air defense of military, industrial and other objects; it can be used to block from the rays of the sun on pastures.

The disadvantage of this method and device in solving the problem is the low functional efficiency, since aerostatic devices form, as a rule, insignificant dimming spots due to limited intrinsic sizes and correspondingly shaded area. Another disadvantage of the known method and device is the low mobility of the mobile winch, which needs its own energy source, the inability to quickly move the protection zone when changing external conditions, namely: the angle of the sun's rays to the horizon, wind direction.

The objective of the invention is to increase the technical and economic efficiency of the technological properties of barriers from the rays of the sun, which can be placed on pastures at the location of the animals, in particular, the increase in the protected areas of pastures, adaptation of the device to changing weather and climate conditions, reduction of energy costs of technological processes, etc. d.

The problem is solved in that to place the flying structures at a given height and in a given inclined position to the sun's rays, to control the size of the dimming area, heated air inside the flying structures, the direction of the wind flow and flexible traction are used, while the lower density of the heated air inside the flying structures, in comparison with the density of the ambient air, and the ascending winds create a force that raises the flying structure above the pasture, and the length of the flexible rods are regulated by Kim manner to situate letayuschie structure at an angle providing the best possible barrier area from the sun, depending on the position of the sun and wind flow direction.

The above technical result is achieved by the fact that the carrier barrier is introduced into the device, ballast fluid compartments, hoses of the ballast fluid compartments, air compressor, water pump, power drive, transport trolley, autonomous power supply source, while the flying structures are made of a mountainous shape, and the bearing barrier the grid is fixed along the inner perimeter of the flying structures, compartments with ballast liquid and an air compressor are located on the top of the flying structure, what flying structures have bypass valves, while the power drive of the air compressor, water pump, winch and wheels, an autonomous power supply and a winch are placed on a transport trolley, and the outlet of the water pump is connected to the ballast fluid compartments by hoses of the ballast fluid compartments, while the drive ensures operation air compressor, water pump, wheels.

The technical result is achieved by the fact that an autonomous source of energy supply is made in the form of flexible solar panels, and the batteries are mounted on a supporting fencing grid.

The technical result is achieved by the fact that a polarizing film is used as a blackout of the blocking grid, creating a piezoelectric current for an autonomous power supply source.

The invention is illustrated figure 1-3.

Figure 1 shows the barrier device in a horizontal position, figure 2 shows the barrier device in an inclined position to the direction of the sun's rays, figure 3 shows the structural options of the device.

The structure of the device includes: flying structure 1; bypass valve 2; supporting fence net 3; transport trolley 4; flexible traction 5; ballast fluid compartment 6; winch 7; power drive 8 of the air compressor 9; water pump 11; winches 7 and wheels of the transport trolley 4, air compressor 9; pump 1, solar panels 12. Figure 2 shows the dimming spot 14, the rays of the sun 10.

The device of the barrier from the rays of the sun works as follows.

Flying structures 1 are delivered assembled to the installation site. The flying structure 1 laid out on the ground through the bypass valves 2 is connected to an air compressor 9 pumping atmospheric air into the shell of the flying structure 1 to a pressure of 1-1.5 kPa, which is necessary for straightening and tensioning the load-bearing barrier net 3. After filling the volume of the shell 1, the valves 2 lock, and the compressor 9 is turned off. To compensate for the excess lifting force, the ballast compartment 6 of the shell 1 using a water pump 11 is visually filled with water through the hoses of the ballast fluid compartments, after which the water pump 11 is turned off.

Under the influence of the rays of the sun 10, the air inside the flying structures 1 will begin to heat up and gain lift. As it reaches its rated power, the shell 1 takes on a predetermined shape, stretches the load-bearing barrier net 3, and provides a maximum dimming spot 14 on the surface of the pasture to be blocked.

To set the given angle of inclination and installation height of the flying structures 1, the lengths of the flexible rods 5 are regulated by a winch 7. To maintain the maximum area of blackout, the flying structures 1 are deployed using flexible rods 5 in the direction of the wind perpendicular to the rays of the sun 10 and are fixed on the transport carriage 4. When the temperature changes of air and wind direction, the position of the flying structures 1 is adjusted using a transport trolley 4. The excess pressure in the shells of the flying structures 1 is automatically adjusted by vent valve 2.

After sunset, due to cooling of the air outside and inside, flying structures 1 lose their lifting force and fall under their own weight onto the supporting surface, where they must be folded and fixed. To service the device requires a team of 2-5 people.

The method is implemented as follows (figure 1, 2).

A barrier from 10 rays of the sun on pastures provides for the use of one or more flying structures 1 lighter than air, with diameters of 30-50 meters, installed above the places of animals at a height of 30-50 meters. For their placement at a given height and in a given inclined position to the sun's rays 10, to regulate the dimming spot 14 of the maximum area, heated air, the direction of the wind flow and the length of the flexible rods are used 5. The lower density of the heated air inside the flying structures, compared with the density of the ambient air , and the ascending winds create a lifting force that raises the flying structure above the pasture, and the lengths of the flexible rods are adjusted so as to position the flying structures at an angle scrap, providing the maximum possible area of the fence, depending on the position of the sun and the direction of wind flows.

In addition to heated air, it is possible to use another working gas lighter than air to fill patching structures.

Using the proposed invention improves the technical and economic characteristics, the effectiveness of the device in extreme conditions and the performance of technological processes. A set of such devices allows you to provide a given habitat for people and animals in extreme conditions of a hot climate.

Claims (4)

1. The method of barrage from the rays of the sun on pastures, which involves the use of flying structures lighter than air and placing them above the places of animals, characterized in that for heating the flying structures at a given height and in a given inclined position to the sun's rays, control the size of the dimming area using heated air inside the flying structures, the direction of the wind flow and flexible traction, while the lower density of the heated air inside the flying structures, compared with the density of the surrounding about atmospheric air, and ascending wind currents create a force that raises the flying structure above the pasture, and the length of the flexible rods are adjusted so that the flying structures are angled to provide the maximum possible area from the sun's rays, depending on the position of the sun and the direction of wind flows . 2. The device is a barrier from the rays of the sun on pastures, including one or more flying structures with flexible rods, a winch, and flying structures made in the form of soft shells lighter than air, characterized in that the carrier barrier is introduced into the device, compartments of ballast fluid, compartment hoses ballast liquid, air compressor, water pump, power drive, transport trolley, autonomous power supply, while the flying structures are made in a mountain shape, with a supporting fence the flying grid is mounted along the inner perimeter of the flying structures, ballast compartments and an air compressor are located on the upper part of the flying structure, the flying structures having bypass valves, while the power drive of the air compressor, water pump, winch and wheels, an autonomous power supply and a winch are placed on a transport trolley, and the outlet of the water pump is connected to the ballast fluid compartments by hoses of the ballast fluid compartments, while the drive provides air compressor, water pump, wheels. 3. The device according to claim 2, characterized in that the stand-alone power supply is made in the form of flexible solar panels, the batteries being mounted on a supporting grid. 4. The device according to claim 2, characterized in that a polarizing film is used as a blackout of the obstructing grid, creating a piezoelectric current for an autonomous power supply source.

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