RU2045683C1 - Wind power plant - Google Patents

Abstract

FIELD: wind power engineering. SUBSTANCE: plant has a surface exposed to the wind. The surface is constructed as a folding grid frame. The members of the frame are pivotally interconnected. The wind power plant is positioned on the frame. The plant is constructed as interconnected propellers and generator. The pivot support is connected with the folding grid frame through connecting members. The lifting unit made up as an inflatable aerostat is secured to the folding grid frame. The design of the plant allows it to be positioned on water surface as well as on solid surface. EFFECT: enhanced power and operation capabilities. 5 dwg

Description

 The invention relates to wind energy and can be used to generate electricity when the installation is located both in water and on the surface of the earth.

 Known wind power installations contain wind wheels, an electric generator, a support, connecting elements. These installations are located on a solid foundation. These units have a metal-intensive design. Maintenance and repair of such structures is time consuming and expensive.

 A device is known for deflecting a wind flow, comprising a wind receiving surface fixed with connecting elements to a support, a lifting device connected to a wind receiving surface and a wind power installation. This device involves its installation in the water. The disadvantages of this design are the low efficiency due to the fact that not all the energy of the air flow enters the wind turbine (a significant part of it envelops the intercepting surface and is not used), the complexity and high cost of attaching the floating system to a fixed center, since traction and anchors are required for this purpose .

 The objective of the invention is to increase the capacity of the installation and its performance, the possibility of its placement both in water and on the surface of the earth.

 The problem is achieved in that the surface receiving the wind is made in the form of a folding lattice frame, on which the wind power installation is placed in the form of interconnected windscrews and a generator. The wind-receiving surface is connected by connecting elements to a hinged support with the possibility of radial movement. The design of the installation allows it to be placed on the water surface, securing the installation on rafts or pontoons, as well as on a solid flat surface or on rails, for example on rails, providing it with wheels or other rotating supports.

 The possibility of radial movement of the wind-receiving structure eliminates the need to use rods and anchors necessary to hold the structure in the case of a fixed center, which significantly reduces the installation cost and simplifies the design.

 Figure 1 shows the installation, placed on the water surface, General view; figure 2 installation, placed on a solid surface; figure 3 is the same, a top view; figure 4 is a view along arrow A in figure 1; figure 5 installation diagram in the working and folding positions.

 The installation consists of a frame 1, made in the form of articulated interconnected elements.

 A wind power installation is placed on the frame 1 in the form of interconnected windscrews 2 and a generator 3. The hinged support 4 is connected to the folding lattice frame 1 by means of connecting elements, for example, cables 5. A lifting device 6 in the form of an inflatable balloon is mounted on the frame 1.

 Installation works as follows.

 Placed on a pontoon, raft, barge or on a solid surface and oriented against the wind, the installation is brought into working position with the help of a lifting device 6 and fixed with the help of fasteners 7. After that, the lifting device 6 is lowered and, if necessary, it can be folded and removed. Then, the connecting elements 5 are fixed on the frame 1 and the support 4. For folding the frame 1, which is necessary in cases of routine inspection and repair of the installation, the attachment points 7 are released and, lowering the lifting device 6, fold the lower and then the upper parts of the frame 1.

Claims (1)

 A WIND POWER PLANT containing a wind-receiving structure connected by connecting elements to a support, a wind power installation and a lifting device, characterized in that the structure is made in the form of a folding lattice frame, the elements of the latter are articulated interconnected, while the wind power installation contains interconnected windscrews and a generator and placed on the frame, and the support is made with the possibility of radial movement of the structure.