RU2484295C2 - Byte wind-driven power plant - Google Patents

Abstract

FIELD: power industry.

SUBSTANCE: byte wind-driven power plant includes at least one wind-driven generator and electric generator, which are installed on the suspension device, the lower end of which is attached to the foundation. The suspension device represents an internal axle, a shaft of a wind-driven generator and shaft of electric generator are tubular, connected to each other and installed on the internal axle with possibility of their free rotation about it. Upper end of the internal axle is suspended by means of a flexible rod and fasteners to natural elevation, artificial structures or buildings. Shaft of the wind-driven generator is connected to the shaft of the electric generator by means of a coupling and installed on the internal axle through movable connections.

EFFECT: simplifying the design and operation, flexibility, reducing the occupied space at arrangement, reducing labour intensity and associated equipment, materials and tools at installation.

3 cl, 1 dwg

Description

The invention relates to wind turbines and may find application for generating electrical energy using wind flows.

Many types of wind power plants are known, and the most applicable ones still turn out to be: with a horizontal axis of rotation when placed on expensive complex tower mast structures or with a vertical axis of rotation when placed on expensive foundations according to individual projects. Given the obvious advantages and development of the field of composite materials, the range of close to expanded use of technical solutions for wind turbines with a vertical axis of rotation is obstructing the classic propeller horizontal-axis wind turbines. The present invention expands the fleet of wind power plants with a vertical axis of rotation in the direction of simplification, mobility and reduce requirements, both to placement and to reduce the occupied space.

Known wind power installation (US Pat. USA No. 4084102, publ. 04/11/1978), which use a gas filled balloon with a lift-stabilizing wing, a wind power installation (US Pat. USA No. 4164468, publ. 08/21/1979), which use natural elevations of the terrain with transversely stretched rails for suspending wind generators with a vertical axis of rotation. In known devices, the supporting cable-stayed system is combined with the working shaft of wind motors connected to electric generators installed on the ground.

The disadvantages of these devices are the complexity of the practical implementation of technical solutions and operation during use.

Known wind turbine (AS USSR No. 1273638, publ. 11/30/1986), containing a flexible shaft stretched between the bearing supports, tiers of profiled wind turbine blades located along it and kinetically connected to the shaft through a multiplier electric generator mounted on a trolley.

The disadvantages of this solution are the complexity of the design of the wind turbine, the individuality with the reservation of the extended occupied space for an electric generator with a trolley during installation, the insufficiently high efficiency due to additional opposing tension forces on the bearings and the use of the multiplier, as well as the difficulties of operating the wind turbine in winter conditions.

Known wind power unit Bolotov (US Pat. RF No. 2352809, publ. 04/20/09), including a frame with cylindrical stators, playing the role of guiding devices for the wind, and rotors mounted in the frame, connected to an electric generator, made with the possibility of rotation in opposite directions, converting wind energy into rotational motion of their tubular section shafts. The shaft of one of the rotors of the unit passes inside the shaft of the other for connection with the rotor and stator of the electric generator, which is also made with a movable rotor and an electric stator rotating outside the rotor to increase, during operation, their relative rotation speed. In practical implementation, the Bolotov wind turbine is equipped as a mast with guy wires (www.eneesis.ru).

The disadvantages of this unit are the complexity of operation and manufacture of components: an electric generator with a movable rotor and an electric stator rotating outside the rotor, which reduce reliability and lead to an increase in the cost of the product and its operation.

Known rotary wind turbine (US Pat. RF №2210000, publ. 10.08.03) containing a frame, with a shaft fixed to it using bearings with working blades in the form of plates with a variable thickness and width. These blades are also curved in a vertical plane in a spiral, and in a horizontal plane - in an arc. All this ensures that the blades always turn to the incoming air flow, minimum starting torque and stability of operation. For power take-off, a second shaft is provided in the wind turbine, and it is made in the form of a separate structure, requiring a solid foundation.

The disadvantages of this device are the need to use a rigid frame for installing a rotor of a wind turbine and a power take-off device or an electric generator, as well as a solid foundation.

Known wind power installation of Professor Merkulov (Pat. RF №2384730, publ. 20.03.10), containing wind generators consisting of blades and associated electromechanical converters using the total, combined exposure to wind energy, when placing them, for the effective use of translational energy the area of the wind flow, in the cells of the grid posted with the help of masts and extensions.

The disadvantages of such a wind power installation are the complexity of the design and operation of both individual devices and groups and in groups, in a suspended position, entailing additional adjustment to ensure their compliance with the required position.

Closest to the proposed technical solution is a wind turbine (Pat. RF 1550207, publ. March 15, 1990), which uses a lift balloon connected to the ground by a cable, on which wind motors are installed, combined with electric generators and connected to consumers by a cable running down the cable .

The disadvantages of the known wind turbine are both the complexity of the practical implementation of technical solutions and operation during use, and the reduction in efficiency due to the use of rotary suspension and mounting devices in connection with the suspension elements and the ground.

The technical result, to which the claimed invention is directed, is to simplify the design and operation, versatility and reduce the occupied space when placing.

To achieve the technical result, a cable-stayed wind power installation containing at least one wind generator and an electric generator installed on the suspension device, the lower end of which is fixed to the foundation, is characterized in that the suspension device is an internal axis, the wind generator shaft and the generator shaft are made tubular and connected between themselves and mounted on the inner axis with the possibility of free rotation around it, and the upper end of the inner axis through flexible traction through blocks and using fixation devices suspended from a natural elevation, artificial structures or buildings. The shaft of the wind generator is connected to the shaft of the generator by means of a coupling, the shaft of the wind generator and the shaft of the generator are installed on the internal axis through movable joints.

Due to the fact that the movable joints are intended only to ensure rotation of the tubular shaft and are structurally free from stress when the cable-stayed system is tightened, the efficiency reduction of this wind power installation with a vertical axis of rotation, unlike analogues, does not occur.

In the vertical operating position, the upper end of the internal axis is suspended through the blocks and fixing devices by the flexible rod through the support mast console, and the lower end of the internal axis and the electric generator are fixed to the foundation. In addition, in the vertical operating position, a version is possible when the upper end of the elongated internal axis, passed through the tubular shaft of the electric generator, is fixed to the mast-support console, and the lower end of the internal axis is attached to the armature by a link. And also, when the upper end of the internal axis is suspended by the upper console of the mast - supports, and the lower end of the internal axis and the electric generator are fixed to the lower console of the mast-supports. At the same time, a power take-off device is additionally placed in the lower part of the tubular shaft of the wind generator, configured to transmit or receive it to a common electric generator or other wind generators from several wind generators.

The proposed cable-stayed wind power installation can be used in an inclined working position. For this, the upper end of the inner axis is suspended by means of rods and fixation devices to a natural elevation, artificial structures or structures, and the lower end of the inner axis and the electric generator are fixed to the foundation or anchor. In this version, when using one wind generator, the surface of the wind rotor swept by the wind flow will not be the same from different angles of wind rose.

In addition to this, a promising direction is the use of the proposed installation as a backup, mobile, with the operational assembly and disassembly of the electricity source, as well as seasonal for summer cottages or field expeditions.

Thus, the proposed frameless and frameless, for hanging during operation cable-stayed wind power installation with increased efficiency, with the possibility of expanded simplified manufacturing and placement will allow increasing the reliability of the unit and the cost of a unit of installed capacity, to increase the use of environmentally friendly renewable energy.

The essence of the invention is illustrated in the drawing.

Figure 1 shows a General view of the cable-stayed wind power installation, which contains the inner axis 1, the tubular shaft 2, the working blades 3 connected to the shaft 2 with the possibility of rotation with it around the inner axis 1, the coupling 4, the tubular shaft 5 of the generator 6, elements 7 carrier cable-stayed system for fixing the wind generator in the working position and device 8 for power take-off.

Cable-stayed wind power installation works as follows.

The flow of moving air, running onto the profiled working blades 3, drives the wind generator, causing the rotation of the tubular shaft 2 around the axis 1, which is connected to the power take-off device 8 and / or with the tubular shaft 5 of the rotor of the electric generator 6, which generates electricity when the rotor rotates . The operation of the wind power installation in the working position is provided by a cable-stayed suspension when using elements of the supporting cable-stayed system 7, which are motionless, by using a portion of the internal axis 1 around which the tubular shaft 2 and the tubular shaft 5 of the electric generator can freely rotate.

The technical advantages of using a cable-stayed wind power installation are frameless and frameless use when operating a wind power unit with a simplified design, increased reliability of the device and a reduction in the cost of a unit of generated power.

Claims (3)

1. Cable-stayed wind power installation, containing at least one wind generator and an electric generator installed on the suspension device, the lower end of which is fixed to the foundation, characterized in that the suspension device is an internal axis, the wind generator shaft and the generator shaft are tubular, interconnected and installed on the inner axis with the possibility of their free rotation around it, and the upper end of the inner axis by means of flexible traction and using locking devices suspended from e natural to the elevation, artificial structures or buildings. 2. Installation according to claim 1, characterized in that the shaft of the wind generator is connected to the shaft of the generator using a coupling. 3. Installation according to claim 1, characterized in that the shaft of the wind generator and the shaft of the generator are installed on the internal axis through movable joints.