RU2485347C1 - Wind-driven plant and wind-driven complex on its base - Google Patents

Abstract

FIELD: power engineering.

SUBSTANCE: plant comprises a bearing volume shell filled with gas, which is lighter than air, a sling, connecting it via a hoist with an anchor, a stiff rod fixed at the bottom of the shell with the help of the stiff rod sling via its hoist on its anchor, sections connected to each other and to the stiff rod of the section, every of which comprises an additional stiff rod and a wind engine with a wind wheel and with a tail. The shell is made with bracing, in the base of the shell there is a frame fixed with a roller, inside of the stiff rod there is the main shaft installed. The wind engine is made in the form of an airplane comprising a body, wings, brackets, which rigidly connect the body with additional stiff rods. Inside the body there is a horizontal shaft with a conical gear being engaged with the gear of the main shaft. The stiff rod is fixed on the frame by means of the stiff rod sling pulled via the roller on the frame. Sections of wind engines are connected with the stiff rod and to each other by means of couplings. The wind-driven complex comprises several wind-driven plants by means of brackets fixed on braces of bearing volume shells.

EFFECT: increased capacity due to stable position of wind engines relative to wind direction and reduced load at a plant due to occurrence of lifting force in wind engines.

17 cl, 6 dwg

Description

The proposed group of inventions relates to renewable energy sources, in particular through the use of wind power to generate electricity, relates to a wind power installation and a wind power complex based on it.

A wind power installation is known, comprising a supporting high-rise volume casing filled with gas lighter than air with a wind turbine attached to it from below on a rigid rod and a flexible central guy to hold in a fixed high-altitude position in air above this surface a volumetric high-rise casing and rod with a wind turbine (GB 1546467 A1 , CL F03D 11/04, publ. 1979).

The disadvantage of this installation is the unreliability of holding it in the airspace above a given surface in sharply changing weather and climate conditions, especially when utilizing wind energy at high altitudes, which affects the efficiency of the installation and the stability of the uniform power supply to energy consumers.

The closest in technical essence and the achieved result to the proposed utility model is a wind power installation, protected by patent RU 2064603 C1, cl. F03D 5/00, publ. 07/27/1996, adopted for the closest analogue (prototype).

The wind power installation, according to the prototype, contains a carrying high-rise volume casing filled with gas lighter than air, and a wind turbine attached to the casing from below by means of a rigid rod, while the casing is equipped with a flexible central guy, the installation additionally contains a central and lateral movable blocks attached like to a bar, and to the shell, fixed blocks and autonomous winches installed on the foundation, and additional flexible tie-rods attached to the side surfaces of the shell with possibly Tew bracing and adjustment in length, together with the central sling, wherein each link-brace secured to its anchor and monolithic foundation zapasovana in mobile units shell and rod a fixed foundation blocks, followed by winding of the autonomic winch. At least two wind turbines can be placed on the shell rod. Wind turbines can be placed on additional rigid rods connected to each other and suspended from the same shell. A wind power installation can be used in wind power parks (complexes).

The installation described as a prototype has a small capacity due to the limited number of wind motors (maximum two), which reduces its efficiency and does not allow use on an industrial scale. In addition, a large number of tie-rods complicates the installation and use of the installation.

The objective of the invention is the creation of an effective wind power installation and a wind energy complex based on it.

The technical result from the use of the group of inventions is to increase the capacity of the wind power installation and the wind energy complex.

The problem is achieved in that in a wind power installation comprising a supporting bulk shell filled with gas lighter than air, a sling of the supporting bulk shell connecting the supporting bulk shell through the winch of the supporting bulk shell to the anchor of the supporting bulk shell, a rigid rod fixed to the bottom of the supporting bulk shell, fixed with the help of a rigid rod sling through a rigid rod winch at the anchor of a rigid rod, wind turbine sections connected to each other and to a rigid rod, each of which x contains an additional rigid rod and a wind turbine with a wind wheel and a tail, a generator, a strapping is made around the perimeter of the supporting volumetric shell, a frame with a roller (block) is fixed at the base of the supporting volumetric shell, the main shaft is installed inside the rigid rod, the wind turbine is made in the form of an airplane and additionally contains a body, wings with an angle of attack, brackets, a horizontal shaft with a gearbox, with a bevel gear meshed with the gear of the main shaft, is made inside the wind turbine case, at the rigid rod is fixed to the frame by means of a rigid rod sling passed through the roller (block) on the frame, the wind turbine sections are connected to the rigid rod and to each other by means of couplings, the wind turbine brackets rigidly connect the wind turbine case with additional rigid rods; inside the rigid rod and additional rigid rods of wind turbine sections, one main shaft is made along the entire height; inside each additional rigid rod of the wind turbine section, its own internal shaft is made; the main shaft of the rigid rod is connected to the internal shaft of the additional rigid rod of the wind turbine section by means of a cardan; internal shafts of additional rigid rods of wind turbine sections are interconnected by means of a cardan; the main shaft is centered and rotated by means of bearings of a rigid rod; at the junction of the rigid rod with additional rigid rods of the wind turbine sections, or at the junction of the additional rigid rods of the wind turbine sections, flanges are made on the rigid rod and / or at the additional rigid rods of the wind turbine sections; the coupling contains flanges made of two halves connected by bolts; support bearings are located between the flanges of the rods and the flanges of the coupling; the cardan rotates and is centered by means of bearings of a rigid rod; supporting bulk shell made in the form of a balloon; the harness is made of cables; a rigid rod and additional rods of wind turbine sections are made of pipes; each section of wind turbines is equipped with a gearbox and a generator; Recycled electricity is supplied through a cable located inside the rigid rod and / or additional rigid rods of the wind turbine sections.

The task is also achieved by the fact that in a wind power complex containing several wind power plants, wind power plants are connected by means of brackets fixed to the strapping of the supporting bulk shells; wind turbines of wind power plants are installed at different levels of rigid rods of wind power plants; due to the specific location of the wind power plants relative to each other, the wind power complex can have a square shape in plan.

Figure 1 shows a wind power installation.

Figure 2 shows a section of a wind turbine of a wind power installation.

Figure 3 shows a section of a wind turbine of a wind power installation in section.

Figure 4 shows the wind energy complex.

Figure 5 shows the wind energy complex, a General view.

Figure 6 shows a wind power complex, a top view.

Structurally, the wind power installation in figure 1-4 contains:

1 - supporting bulk shell;

2 - strapping;

3 - a sling of a supporting volumetric shell;

4 - winch supporting bulk shell;

5 - anchor of the supporting volumetric shell;

6 - foundation of the anchor of the supporting volumetric shell;

7 - a frame;

8 - roller (block);

9 - a rigid bar;

10 - a sling of a rigid rod;

11 - a winch of a rigid rod;

12 - anchor of a rigid rod;

13 - the main shaft;

14 - connecting sleeve;

15 - section of a wind turbine;

16 - additional rigid bar;

17 - wind turbine;

18 - case;

19 - wind wheel;

20 - fuselage (tail);

21 - wings;

22 - brackets;

23 - horizontal shaft;

24 - gear;

25 - bevel gear;

26 - a gear wheel of the main shaft;

27 - bearing of the main shaft;

28 - flanges of rods;

29 - thrust bearings;

30 - cardan;

31 - flanges of the coupling;

32 - coupling bolts;

33 - generator;

34 is the foundation for the generator.

Structurally, the wind energy complex in Fig.5-6 contains:

35 - wind power plants;

36 - brackets of supporting bulk shells.

The wind power installation contains a supporting volumetric casing 1, filled with gas lighter than air, a strapping 2 made along the perimeter of the supporting volumetric casing 1, a sling of the supporting volumetric casing 3, connecting the supporting volumetric casing 1 through a winch 4, mounted on an anchor 5 mounted on a monolithic foundation 6.

At the base of the supporting volumetric shell 1, a frame 7 with a roller 8 is fixed.

A rigid rod 9 is fixed from the bottom of the supporting volumetric shell 1 on the frame 7 by means of slings 10, is held by a winch 11 having an anchor 12.

A sling of a rigid rod 10, passed through the roller 7, connects and holds the rigid rod 9 with sections of the wind turbines 15 with the winch of the rigid rod 11, mounted on the anchor of the rigid rod 12.

Inside the rigid rod 9 is made of the main shaft 13.

From the bottom, to the supporting volumetric shell 1, by means of a rigid rod 9 and a coupling 14, sections of wind turbines 15 are attached.

Also, by means of couplings 14, wind turbine sections 15 are interconnected.

Each section of the wind turbine 15 contains an additional rigid rod 6 and the wind turbine 17.

The wind turbine 17 is made in the form of an airplane and contains: a housing 18, a wind wheel 19, a fuselage (tail) 20, wings 21 with an angle of attack, brackets 22.

The brackets 22 rigidly connect the housing 18 of the wind turbine 17 with an additional rigid rod 16 of the wind turbine section 15.

Inside the housing 18 of the wind turbine 17 on the horizontal shaft 23 is installed a gearbox 24, a bevel gear 25, which is meshed with the gear of the main shaft 26, rigidly fixed to the main shaft 13.

Inside the rigid rod 9 and wind turbine sections 15, one main shaft 13 can be made along the entire height, or each inner shaft of the wind turbine 16 can have its own internal shaft, then the main shaft 13 of the rigid rod 9 is connected to the shaft shafts of the wind turbines 16 and / or the internal shaft shafts of the wind turbine rods 16 are interconnected by means of a cardan 30. The main shaft 13 is centered and rotates by means of bearings of a rigid rod 27.

At the junction of the rigid rod 9 with additional rigid rods 16 of the wind turbines 17, or at the junction of the additional rigid rods 16 of the wind turbines 17, the flanges 28 are made on the rigid rod 9 and / or on the additional rigid rods 16 of the wind turbines 17.

The coupling 14 contains the flanges 31, made of two halves connected by bolts 32.

Between the flanges 28 and the flanges of the coupling 31, thrust bearings 29 are located.

The cardan 30 is rotated and centered by the bearings of the rigid rod 27.

The carrier volumetric shell 1 is made, for example, in the form of a balloon.

The strapping 2 is made, for example, of cables.

The rigid rod 9, the rod of the wind turbine 16 is made, for example, of pipes.

In necessary cases, each section of the wind turbine 15 can be equipped with a gearbox 24 and a generator.

Recycled electricity can be supplied through a cable located inside the rigid rods 9 and / or inside additional rigid rods 16 of the sections of the wind turbines 15.

The wind energy complex contains several wind energy installations 35, at least two interconnected.

The supporting volumetric shells 1 of wind power plants 35 are connected by means of brackets 32 fixed to the strapping 2 of the supporting volumetric shells 1.

Wind turbines 17 can be installed at different levels of rigid rods 9 of wind power plants 35.

Due to the specific location of the wind power plants 35 relative to each other, the wind power complex can have in plan, for example, a square shape.

The assembly of the invention is as follows.

Bearing bulk shells 1 are arranged on the ground, made, for example, in the form of balloons filled with gas lighter than air, in the right amount, placing them relative to each other in plan, for example, in the form of a square. Bearing volumetric shells 1 are interconnected by means of brackets 32 mounted on the strapping 2, creating a single wind energy complex.

Under the supporting volumetric shells 1 on the frames 7, through the rollers (blocks) 8 pass the slings of the rigid rods 10, one end of which is fixed on the rigid rods 9, and the other on the winches of the rigid rods 11.

To lift the load-bearing volume shells 1, the slings of the load-bearing volume shells 10 are etched using the synchronous operation of the winchs of the load-bearing volume shells 4. Having brought the load-bearing volume shells 1 to the desired height, the lifting sections of the wind turbines 15 begin.

The rigid rods 9 are connected to the additional rigid rods 16 of the wind turbine sections 15 by means of couplings 14 consisting of two halves connected by bolts 32. In this case, the main shafts 13 of the rigid rods 9 are connected to the shafts of the additional rigid rods 16, for example, by cardans 30. Connecting in series the required number of wind turbine sections 15, with the help of slings 10 and winch 11, lift the rigid rods 9 with wind turbine sections 15 to the supporting volumetric shells 1 to the desired height.

The wind turbine sections of 15 wind power plants are located, combined into a single wind power complex, at different levels, in a checkerboard pattern.

The position of the rigid rods 9 relative to the supporting volumetric shells 1 is fixed by installing the rigid rods 9 in the holes (not shown) located in the frame 7. In this position, the winch of the rigid rods 11 are locked.

At a height, the wind wheels 19 of the wind turbines 17 are launched.

The present invention works as follows.

The rotation of the wind wheel 19 is transmitted through the horizontal shaft 23 and the gearbox 24 to the bevel gear 25, which in turn drives the gear of the main shaft 26, rigidly fixed to the main shaft 13. All units connected to the rigid rod 9, rotate the main shaft 13 , which is connected with the generator 33 mounted on the foundation 34. From the generator 33, the utilized wind energy in the form of electric current is transmitted to the consumer.

The proposed design of a wind power installation and a wind power complex provides an increase in power due to better utilization of wind energy. The following factors contribute to this:

- the implementation of the wind turbine with wings having an angle of attack, ensures a stable position of the wind turbine sections, increases their lifting force, reduces the load on the wind power installation and allows you to install a large number of wind turbines with increased dimensions of the wind wheels;

- connection of wind turbine sections with a rigid rod and between each other through couplings with thrust bearings and shafts of additional rigid rods with the main shaft and between each other through cardans ensures that the wind motors rotate 360 ° around its axis in different directions, regardless of each other, helps to capture wind flows at different levels;

- placement of wind turbine sections of wind power plants, combined into a single wind power complex, at different levels, in a checkerboard pattern, also helps to capture wind flows at different levels;

- the connection of the supporting volumetric shells through the brackets ensures their location at the same height, which reduces the windage of the entire wind energy complex and energy loss.

Claims (17)

1. A wind power installation comprising a supporting bulk shell filled with gas lighter than air, a sling of the supporting bulk shell connecting the supporting bulk shell through the winch of the supporting bulk shell with an anchor of the supporting bulk shell, a rigid rod fixed to the bottom of the supporting bulk shell, secured with a rigid rod sling through a winch of a rigid rod anchored in a rigid rod, wind turbine sections connected to each other and with a rigid rod, each of which contains an additional rigid rod and a wind turbine with a wind wheel and with a tail, a generator, characterized in that a strapping is made around the perimeter of the supporting volumetric shell, a frame with a roller (block) is fixed at the base of the supporting volumetric shell, the main shaft is installed inside the rigid rod, the wind turbine is made in the form of an airplane and additionally contains a body, wings with an angle of attack, brackets, a horizontal shaft with a gearbox, with a bevel gear meshing with the gear of the main shaft, is made inside the case of the wind turbine, with a rigid rod akreplena on the frame by means of slings rigid rod passed through a roller (block) on a frame section of a wind turbine connected to a rigid rod and interconnected by couplings, turbine brackets rigidly associated with the turbine housing further rigid bars. 2. Wind power installation according to claim 1, characterized in that inside the rigid rod and additional rigid rods of the wind turbine sections, one main shaft is made along the entire height. 3. The wind power installation according to claim 1, characterized in that inside each additional rigid rod section of the wind turbine has its own internal shaft. 4. Wind power installation according to claim 2 or 3, characterized in that the main shaft of the rigid rod is connected to the inner shaft of the additional rigid rod of the wind turbine section by means of a cardan that rotates and is centered by means of bearings of the rigid rod. 5. Wind power installation according to claim 2 or 3, characterized in that the inner shafts of the additional rigid rods of the wind turbine sections are interconnected by means of a cardan, which rotates and is centered by means of bearings of a rigid rod. 6. Wind power installation according to claim 1, characterized in that the main shaft is centered and rotates by means of bearings of a rigid rod. 7. The wind power installation according to claim 1, characterized in that flanges are made at the junction of the rigid rod with additional rigid rods of the wind turbine sections or at the junction of the additional rigid rods of the wind turbine sections, flanges are made on the rigid rod and / or at the additional rigid rods of the wind turbine sections. 8. Wind power installation according to claim 1, characterized in that the coupling contains flanges made of two halves connected by bolts. 9. Wind power installation according to claim 1, characterized in that between the flanges of the rods and the flanges of the coupling are located thrust bearings. 10. Wind power installation according to claim 1, characterized in that the supporting volumetric shell is made in the form of a balloon. 11. Wind power installation according to claim 1, characterized in that the strapping is made of cables. 12. Wind power installation according to claim 1, characterized in that the rigid rod, additional rod sections of the wind turbines are made of pipes. 13. The wind power installation according to claim 1, characterized in that each section of the wind turbines is equipped with a gearbox and a generator. 14. The wind power installation according to claim 1, characterized in that the recycled electricity is supplied through a cable located inside the rigid rod and / or additional rigid rods of the wind turbine sections. 15. Wind power complex containing several wind power plants according to claims 1-15, characterized in that the wind power plants are connected by means of brackets fixed to the strapping of the supporting bulk shells. 16. The wind energy complex according to claim 15, characterized in that the wind turbines of the wind power plants are installed at different levels of the rigid rods of the wind power plants. 17. The wind energy complex according to claim 15, characterized in that due to the specific placement of the wind energy installations relative to each other, the wind energy complex can have a square shape in plan.

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