WO2016007038A1 - Wind and solar energy installation - Google Patents

Abstract

The invention relates to solar and wind energy and can be used for converting solar and wind energy into electrical energy. The aim of the invention consists in increasing the specific generating capacity of an installation, and is achieved in that a vertical shaft has, rigidly affixed thereto, a stationary aerodynamic structure consisting of a lower foundation and of an upper foundation which are connected by means of vertical aerodynamic blades; a housing is installed on a platform and around the aerodynamic structure, said housing consisting of a lower foundation, which is rigidly installed on the platform, and of an upper foundation, which is connected to the lower foundation by means of guide panels; wherein solar panels are positioned on the surface of the upper foundation of the housing and on the surface of the guide panels, the electrical outputs of which solar panels are connected in-parallel to a power generator rotor winding and to a voltage conversion unit; a power generator starter winding is additionally connected to the voltage conversion unit. The useful technical effects of using the utility model consist in improving specific energy efficiency to 620-640 watts per square meter, in increasing the energy efficiency of the aerodynamic structure, in increasing the energy efficiency of the solar panels, and also in decreasing the dimensions of the installation, by means of improvements to the structure which allow for aggregating same vertically or horizontally.

Description

 WIND-HELIO POWER INSTALLATION

DESCRIPTION

The invention relates to solar and wind energy and can be used to convert solar and wind energy to electrical [F03D3 03/00, F03G 6/00, H02N 6/00].

Known HELIOAEROBARIC ENERGY UNIT [RF patent N2 2422732], formed by a transparent exhaust pipe, wind turbines with electric generators and transparent wind traps. The exhaust pipe is equipped with a movable reflective screen, and the air flow leading the wind turbines with electric generators into rotation is regulated and activated by transparent wind traps equipped with gates that direct the air flow during solar heating from the base of the exhaust pipe and its top, and in the absence of solar heating, to reverse direction.

 The disadvantage of the analogue is the complex design, as well as the low conversion efficiency of wind and solar energy.

 Also known from the prior art HELIOVETER POWER INSTALLATION [RF patent N22187693], containing a wind turbine, the electric generator of which is mounted on a vertical shaft, and solar panels. A beam on a movable hinge is attached to the back of the generator, while one horizontal and two side solar panels connected by rotary hinges and spring-loaded at both ends are hinged to the top of the beam, and arcuate solar panels are mounted on studs and rods to the trunk according to its height, and between the back of the generator and the deaf bottom of the beam there is a wedge connected to a manual drive through a cracker attached to the bottom of the generator using a plan ki.

The disadvantage of a solar wind power plant is low efficiency when using wind energy and a complex design for orientation in the direction of the wind.

 The closest in technical essence is an ENERGY INSTALLATION FOR USE OF WIND AND SOLAR ENERGY [RF patent N ° 2347942], containing a platform on which a vertical shaft is mounted in the bearing supports, communicating with the generator rotor, while on the vertical shaft are rigidly fixed with the core aerodynamic blades are placed, the installation also contains solar panels.

 The disadvantage of the prototype is the low efficiency of the conversion of solar energy associated with the location of solar panels in one plane, as well as a complex structure and large overall dimensions.

The purpose of the invention is to increase the specific energy capacity of the installation.

Achievable technical result of the invention is to increase the efficiency of use of wind and solar energies, as well as to reduce the mass-dimensional indicators and improve the design of the installation.

The technical result is achieved due to the fact that the wind turbine installation containing a platform on which a vertical shaft is mounted in the bearing support communicating with the rotor of the electric generator and solar panels placed on top, characterized in that a stationary aerodynamic structure consisting of a lower and the upper base, which are connected by vertical aerodynamic blades, around the aerodynamic structure on the platform there is a housing, a cat The first one consists of a lower base rigidly mounted on the platform and an upper base connected to the lower base by guide panels, while solar batteries are placed on the surface of the upper base of the housing and on the surface of the guide panels, the electrical outputs of which are parallel connected to the winding of the rotor of the generator and the conversion unit

voltage, to which the winding of the starter starter is also connected.

 In particular, the electrical outputs of the solar panels and / or the starter of the generator can be connected to a battery, the output of which is connected to a voltage conversion unit.

 In particular, the guide panels may be located on a circle centered on the longitudinal axis of the vertical shaft at an angle to the tangent.

 In particular, the housing may include vertical support-amplifiers, made with the possibility of strengthening the structure under significant wind loads.

 In particular, in a horizontal section, aerodynamic blades can be made with a thick chord and have a symmetrical (quasi-symmetric) toe and flap.

 In particular, the vertical shaft preferably communicates with the rotor of the electric generator by a gear transmission.

 In particular, the vertical shaft can be mounted in bearings of the upper and lower base of the housing.

Brief Description of the Drawings

 Figure 1 presents a General view of a wind turbine installation.

 Figure 2 presents the wind and solar installation in the context of a top view.

 Fig. 3 shows a horizontal section of an aerodynamic blade. The implementation of the invention

Wind turbine installation (see Fig. 1) can be installed, for example, on the support posts 1, on top of which the platform 2 is placed. On the platform 2, the housing is fixedly mounted, the upper base 3 and the lower base 4 of which are interconnected, for example, by four guide panels 5. An aerodynamic structure 7 is installed on the shaft 6. In the bushings of the upper 3 and bearings 8 are installed in the lower 4 bases of the housing, in which the vertical shaft 6 is placed. The aerodynamic structure 7 consists of the lower 9 and the upper 10 bases connected by aerodynamic blades 11.

 For installation, a specially designed profile of the aerodynamic blade 11 (see Fig. 3) with a thick chord and symmetrical (quasisymmetric) toe and flap. This form, with a slight deterioration in drag and a slight decrease in lift, can significantly reduce the inductive resistance of the blade and allows the blade to work effectively at all angles of attack, in all sectors of the device, and not in a narrow range of the wind front.

 The device is easily aggregated, both vertically, when several devices can be installed on top of each other, and horizontally, when several devices can form energy bands of several tens and hundreds of meters and kilometers, for example, along the coastline of large reservoirs and rivers, and also along the shores of the seas.

 Also, the device can be located in inconveniences and in exclusion zones, for example above / below roads and railways. With proper execution and control over its technical condition, it guarantees the necessary safety for the environment and traffic flow.

 Wind turbine installation works as follows:

 The air flow passing through the guiding panels 5 of the casing, enters the aerodynamic blades 11, which transfer the mechanical energy of the wind to the shaft 6. Through the gear 12 of the shaft 6, the rotation is transmitted to the rotor of the electric generator 13. The solar panels 14 located in the upper part of the upper base 3 of the casing guide panels 5, convert solar energy into electrical energy and feed it to the winding of the rotor of the electric generator 13.

In addition, the electric current from the generator 13 and / or the battery (not shown in the drawings) can be supplied to a voltage conversion unit (not indicated in the drawings), which is converted into alternating current of a given frequency, power and voltage, which allows you to refuse to use additional current converters, if the current was generated only by the rotor. Thanks to the use of well-known components and parts, the establishment of serial industrial production of the installation does not seem to be a difficult technological process.

 Useful technical effects from using the utility model are:

 - improvement of specific energy efficiency to 620-640 watts per square meter. meter in comparison with analogues (for wind generators no more than 500 watts per square meter, for solar panels no more than 200 watts per square meter) due to the fact that the installation can simultaneously convert wind and solar energy;

 - increasing the energy efficiency of the aerodynamic structure 7 due to the fact that the aerodynamic blade 11 has a high aerodynamic quality that allows you to work in all angles of attack and in all sectors increasing the utilization of the wind flow, as well as significantly reducing the inductive drag of the blade with a slight deterioration in drag and a slight lower lift;

 - increasing the energy efficiency of solar cells 14 due to the fact that their location allows them to receive the energy of direct and diffused solar radiation;

 - simplification of the design due to the fact that the device has an external fixed body, inside which is located the aerodynamic structure 7;

 - reducing the overall dimensions of the installation, due to improvements in the design, allowing it to be vertically or horizontally aggregated.

 As an additional positive effect, it is possible to single out a reduction in the noise level due to the fact that the aerodynamic rotor blades are fixed on both sides between the bases of the aerodynamic structure.

Claims

Claim  1. Wind turbine installation containing a platform on which a vertical shaft is installed in the bearing support, communicating with the rotor an electric generator and solar panels placed on top, characterized in that a stationary aerodynamic structure consisting of a lower and an upper base, which are connected by vertical aerodynamic blades, is fixed on a vertical shaft, a housing is installed around the aerodynamic structure, which consists of a lower base, rigidly mounted on the platform, and the upper base connected to the lower base by guide panels, while on the surface of the upper base of the body There are solar panels on the surface of the guide panels, the electrical outputs of which are connected in parallel with the rotor winding of the generator and the voltage conversion unit, to which the starter winding of the generator is also connected.  2. Wind turbine installation according to claim 1, characterized in that the electrical outputs of the solar panels and / or starter of the generator are connected to battery, the output of which is connected to the voltage conversion unit. 3. Wind turbine installation according to claim 1, characterized in that the guide panels are located on a circle centered on the longitudinal axis of the vertical shaft at an angle to the tangent.  4. Wind turbine installation according to claim 1, characterized in that the casing may contain vertical support-amplifiers made with the possibility of strengthening the structure with significant wind loads.  5. Wind turbine installation according to claim 1, characterized in that in horizontal section aerodynamic blades are made with a thick chord and have a symmetrical or quasi-symmetrical toe and flap.  6. Wind turbine installation according to claim 1, characterized in that the vertical shaft communicates with the rotor of the generator through a gear transmission.  7. Wind turbine installation according to claim 1, characterized in that the vertical shaft is installed in the bearings of the upper and lower bases of the housing.