RU176781U1 - Wind power plant - Google Patents

Abstract

The proposed utility model relates to wind energy and can be used in the manufacture of wind power plants (wind turbines) of medium and high power. The technical result of the claimed utility model is to simplify and accelerate the installation of structural elements of wind turbines, facilitate maintenance of wind turbine equipment. The technical result is achieved by the fact that the wind power installation with a three-bladed turbine contains a generator, a converter and a transformer, an elevator, a support tower, which is made in the form of two truncated equal-angled lattice pyramids placed one on top of the other, the lower of which is mounted on the foundation, while the upper pyramid is fixed head in the form of a hollow truncated cone and a cylinder, inside of which there are tiers with a converter, a transformer and an elevator, which, in the working position of the installation, is pulled into the hole The term in the floor of the lower tier. In this case, the truncated pyramids of the supporting tower are made of four-, six- or octahedral; the truncated cone and cylinder are thin-walled with reinforcing ribs, which are a continuation of the bearing ribs of the underlying lattice pyramid; the angle at the base of the lower pyramid is less than the angle at the base of the upper pyramid. 1 n and 3 z.p. f-ly, 1 ill.

Description

The proposed utility model relates to wind energy and can be used in the manufacture of wind power plants (wind turbines) of medium and high power.

Known technical solution The tower of a wind turbine (RU 2095624) contains a two-bladed wind turbine, a generator, a converter, a transformer and auxiliary equipment, a support tower, which has an upper section and a lower conical section mounted on the foundation, which coincides with the essential features of the proposed.

In addition, the analogue contains an internal vertical rod connected to the outer casing by jumpers, the position and dimensions of which govern the natural frequency of the tower, and the upper section is cylindrical.

The disadvantage of the analogue is that the through lifting of loads inside the tower is complicated, which complicates the installation of the upper part of the wind turbine and increases the cost of both construction and maintenance work.

Also known technical solution The tower of a wind turbine (RU 2075644) contains a three-bladed wind turbine, a generator, a converter, a transformer and auxiliary equipment, a support tower installed on the foundation, which coincides with the essential features of the proposed.

In addition, the tower case is equipped with windows made on each face and communicating with the internal volume of the tower, located relative to each other along a helical line within the height of the tower, measured from the upper base according to a certain dependence.

The disadvantage of this technical solution is similar to the previous one.

As a prototype closest to the proposed solution, a wind power installation (EP 1729007 A2) was selected, containing a wind turbine of two or three blades, a generator, a converter, a transformer and auxiliary equipment, a support tower, which is made in the form of two sections placed one on top of the other, the lower of which has the form of a truncated equiangular lattice pyramid and is installed on the foundation, which coincides with the essential features of the proposed.

In this case, the upper section has the form of a cylindrical or conical pipe on which a wind turbine nacelle is installed.

The disadvantage of this technical solution is similar to the previous one.

The purpose of the utility model is to overcome these shortcomings with the following technical result:

- simplification and acceleration of the installation of structural elements of wind turbines, facilitating maintenance of wind turbine equipment.

The technical result is achieved by eliminating these shortcomings in the proposed wind power installation, containing a three-bladed wind turbine, generator, converter and transformer, elevator, support tower, which is made in the form of two truncated equal-angled lattice pyramids placed one on top of the other, the lower of which is installed on the foundation, and on the upper pyramid a head is fixed in the form of a hollow truncated cone and a cylinder, inside of which there are tiers with a converter, a transformer and an elevator, to tory in the operating position retracted into the installation hole in the floor of the lower tier.

In addition, the truncated pyramids of the supporting tower are made of four-, six- or octahedral.

In addition, these truncated cone and cylinder are made thin-walled with reinforcing ribs, which are a continuation of the bearing ribs of the underlying lattice pyramid.

In addition, the angle at the base of the lower pyramid is less than the angle at the base of the upper pyramid.

The essence of the utility model is illustrated in the drawing:

FIG. 1 - Wind power plant according to claim 1 of the formula, where the notation is used:

1 - turbine; 2 - generator; 3 - converter; 4 - transformer; 5 - reference tower; 6 - upper trellised pyramid; 7 - lower lattice pyramid; 8 - foundation; 9 - tip; 10 - elevator; 11 - upper tier; 12 - middle tier; 13 - lower tier.

A wind power installation, as shown in FIG. 1, comprises a turbine 1 located above the head 9, a generator 2; a converter 3 and a transformer 4 located in the upper 11, middle 12 and lower 13 tiers of the supporting tower 5. On the foundation 8, there is a lower truncated trellis pyramid 7, on which there is an upper trellis pyramid 6, above which the head is installed 9. Through openings in the floor the upper 11, middle 12 and lower 13 tiers, if necessary, lift 10.

Wind turbine works as follows.

The wind stream rotates the turbine, which transfers mechanical energy to a generator 2, converting it into electrical energy, followed by its conversion by converter 3 and transformer 4.

The presence of an internal cavity in the tower 5 allows you to place equipment in the latter, provide access for personnel and use the elevator 9 to move goods from the ground level to the upper part of the tower 5. In the upper 11, middle 12 and lower 13 tiers of the head 9 there are a converter 3, a transformer 4 and elevator 10 respectively.

We show that the technical result is ensured by the essential features of the proposed.

The presence of a turbine, generator, converter, transformer and auxiliary equipment provides the perception of mechanical wind energy, its transformation and transmission to the consumer. The specificity of wind turbines intended for use in low-speed flows consists primarily in the fact that the wind turbine has significant dimensions and an increased area and, accordingly, increased aerodynamic drag and increased dynamic loads, since the wind turbine is optimized for operation in low-speed wind flows, and the range of modes should correspond to general requirements for wind turbines in terms of their operability at speeds of 20 ... 30 m / s and ensuring mechanical resistance in stormy winds. Thus, to ensure the operation of wind turbines in conditions of low-speed flows and high power, requirements arise for the large dimensions of the support tower, since an increase in the size of the turbine blades is required. This problem is solved, as in the prototype, by making the tower in the form of two truncated equal-angled lattice pyramids placed one on top of the other, the lower of which is installed on the foundation. It is the lattice structure that provides a combination of increased strength, minimal material consumption and reduced wind load. In this case, the air flow is divided into smaller vortex structures, acoustic vibrations are reduced, the environmental characteristics of the object are improved, the reliability of the structure and its long-term strength are increased. This makes it possible to obtain a more stable picture of the formation of a vortex wake in the range of wind flow velocities from 3.0 to 60 m / s, in which both the wind turbine and the tower experience reduced dynamic loads.

The fact that the head is fixed on the upper pyramid in the form of a hollow truncated cone and cylinder, inside of which there are tiers with a converter, a transformer and an elevator, which, in the working position of the installation, are pulled into the hole in the floor of the lower tier, also provides a convenient arrangement of the installation for practical use, increasing convenience its operation, reliability of protection against weather conditions and looting.

The execution of truncated pyramids of the support tower with four-, six- or octahedral increases the tipping moment compared to the triangular version and at the same time simplifies and speeds up the installation of wind turbines compared to wind turbines with more than 8 faces.

Reinforcing ribs of a thin-walled head made in the form of a truncated cone and cylinder, located on the continuation of the bearing ribs of the underlying lattice pyramid, also provide simplification and acceleration of the installation of wind turbines. Reducing the angle at the base of the lower pyramid compared to the angle at the base of the upper pyramid increases the stability of the structure, its strength and reliability, and, among other things, minimizes the length of the turbine shaft and, accordingly, the effect of bending moments. This eliminates the need for additional measures to ensure the required wind turbine performance (reliability, service life, resistance to dynamic loads), which simplifies and speeds up the installation of wind turbines.

Studies have confirmed the efficiency of the proposed technical solution.

Claims (4)

1. A wind power installation with a three-bladed turbine, containing a generator, a converter and a transformer, an elevator, a support tower, which is made in the form of two truncated equal-angled lattice pyramids placed one on top of the other, the lower of which is mounted on the foundation, while the head of the upper pyramid is fixed in the form a hollow truncated cone and a cylinder, inside of which there are tiers with a converter, a transformer and an elevator, which, in the working position of the installation, is pulled into a hole in the floor of the lower tier. 2. Wind power installation according to claim 1, characterized in that the truncated pyramids of the supporting tower are made of four-, six- or octahedral. 3. Wind power installation according to claim 1, characterized in that said truncated cone and cylinder are made thin-walled with reinforcing ribs, which are a continuation of the bearing ribs of the underlying lattice pyramid. 4. Wind power installation according to claim 1, characterized in that the angle at the base of the lower pyramid is less than the angle at the base of the upper pyramid.

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