RU2231680C1 - String-horizontal wind power station with universal turbines - Google Patents

Abstract

FIELD: wind power engineering.

SUBSTANCE: proposed string-horizontal wind power station contains wind propulsion devices mounted on support poles assembled into several rectilinearly horizontal strings, each rotating only its electric generator. Turbines consisting of two three-blade propellers are mounted on shaft of each wind propulsion device. Edges of blades are made flexible, and propeller is cut out of round blank made of thin elastic plate. Non-cut part blades of propeller. Hole for fitting blades on shaft is made in center of hub. Second propeller is installed at rear side of first propeller. Limiting bushings are used in mounting of propellers. Turbine propellers are secured by studs. Two angle plates from outer end face sides of turbine are used to fasten both turbine propellers on shaft of wind propulsion device.

EFFECT: increased efficiency and power output, reduced cost of building and operation and ground area of power station.

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Description

The invention relates to the field of wind energy, namely to wind farms.

A wind-driven horizontal daisy-chain power plant is known, comprising windmills mounted on supporting poles combined in several straight-horizontal daisies rotating each of its own electric generator (see, for example, RU, 2182257 C2, class F 03 D 3/00, 10.05. 2002).

The disadvantages of the power plant include low efficiency (efficiency) and power, as well as the bulkiness of the structure.

The technical result, which consists in increasing the coefficient of useful power (efficiency) and power, reducing the cost of construction and operation, as well as reducing the total area of the power plant, is ensured by the fact that in a wind-powered daisy-horizontal power plant containing wind turbines mounted on supporting poles , combined in several rectilinear-horizontal garlands, each rotating only its own electric generator, according to the invention, several mounted on the shaft of each wind turbine there are only universal turbines, each consisting of two three-bladed propellers, the edges of the blades of which are flexible, and each propeller is cut from a round billet from a thin elastic cord fabric so that three straight cuts from the edge of the circle to its center for a length of 2/3 of its radius made at an angle of 120 ° to each other, and the uncut part of the circle is the hub of the propeller, and the three corner edges of the blades of the six formed from these cuts are bent to the center of the hub, alternating through one, form three half the lobes are mounted on the shaft of the propeller blade, and in the center of the hub there is a hole for fitting the propeller blades on the shaft and one hole is made on three corner edges of the blades, all the edges of the holes on both sides are reinforced with cord washers, and the second propeller is installed with its back to the back side of the first propeller, its angular edges are bent to the other side, while the blades of the first propeller are symmetrical to the blades of the second plane relative to the separating propellers, when installing the propellers at three restrictive bushings are installed with a length of 1/3 of the radius of the round billet: one sleeve between the rear sides of the propellers and one sleeve between the corner edges of the blades of each propeller and their hubs, both turbine propellers are fixed together by two studs, and two angles are fastened from the outer end faces of the turbine bolted both of its propellers with a wind turbine shaft.

In FIG. 1 shows a wind turbine with universal turbines; in FIG. 2 - six-bladed turbine (general view); in FIG. 3 shows the fastening of parts of two turbine propellers on a wind turbine shaft.

The construction of a wind-powered horizontal daisy-chain power plant requires a large number of windmills combined into rectilinear-horizontal garlands (not shown) mounted on supporting posts 1. Each garland rotates only its own powerful electric generator (not shown). Several universal turbines with blades 3 (propellers) are mounted on each shaft 2 of the wind turbine, rotating in any direction of the wind and not changing their direction of rotation. The ends of the shafts 2 are fastened together by clamps 4. The edges of the turbine blades 3 with strong gusts of wind bend towards the wind, thereby relieving the increased air pressure from the blades 3 and thereby protecting the wind turbines from damage.

Each turbine is made of two three-bladed propellers 3 mounted on a shaft 2. Each propeller 3 is cut from a round billet from thin elastic cord or a similar cloth according to its properties, and three straight cuts (not shown) with a length of 2/3 of its radius are made on it and at an angle of 120 ° to each other from the edge of this circle to its center. The part of the circle that is not cut near its center acts as the hub (not shown) of this propeller 3, and the three corner edges of the six formed from these three cuts, bent to one side of the hub, alternating through one, form three semi-cylindrical blades 3 of the propeller , and in this form, the propeller is mounted on the shaft 2, for which there are holes (not shown) with a diameter equal to the diameter of the shaft of the wind turbine 2. One hole in the center of the hub and one hole on the three corner edges of the blades 3.

It is similarly made (only with the bend of the corner edges on the other side of the cuts) and mounted on the wind turbine shaft 2 with the second propeller with its back to the back of the first propeller, but so that the blades 3 of the first propeller are symmetrical with the blades 3 of the second relative to the plane separating these two propellers and also, when installing the propellers, three restrictive bushings 5 must be placed on the shaft 2, each approximately 1/3 of the radius of the workpiece — a circle, one bush 5 between the rear sides of these two propellers and one bush 5 between the corner edges of the blades 3 of each propeller and the hubs of these propellers.

Both propellers are fastened together by two studs 6, and two squares (not shown) from the outer end sides of this universal turbine are fastened by both of its propellers to the wind turbine shaft 2 using bolts 7.

The edges at all holes are reinforced both in the hub and on the corner edges of the propellers with cord washers (not shown) with a diameter slightly smaller than the hub diameter, gluing these washers with waterproof Octopus glue or the like.

The ends of the two shafts of the wind turbine 2 are connected to each other by a cord hose 8 using clamps 9.

Wind daisy-horizontal power plant operates as follows.

On each shaft 2 of the wind turbine several universal turbines with blades 3 are mounted, made in the form of cylindrical propellers and combined into rectilinear-horizontal garlands mounted on support pillars 1. Under the influence of wind, the blades of 3 propellers rotate and rotate the support pillars 1 into their turn transmitting rotation to a powerful electric generator (not shown), with which the rotation energy is converted into other types of energy (for example, electric).

Claims (1)

A horizontal horizontal wind power plant containing wind turbines mounted on support poles combined into several rectilinear horizontal garlands, each rotating its own electric generator, characterized in that several universal turbines are mounted on the shaft of each wind turbine, each consisting of two three-bladed propellers, the edges of the blades which are flexible, with each propeller cut from a round billet of thin elastic cord fabric so that three straight lines cuts from the edge of the circle to its center for a length of 2/3 of its radius are made at an angle of 120 ° to each other, the uncut part of the circle being the hub of the propeller, and the three corner edges of the blades of the six formed from these cuts are bent to the center of the hub, alternating through one , form three semi-cylindrical propeller blades mounted on the shaft, and in the center of the hub there is a hole for fitting the propeller blades on the shaft and one hole is made on three corner edges of the blades, all the edges of the holes on both sides of the force with cord washers, and the second propeller is installed with its rear side to the rear side of the first propeller, its angular edges are bent to the other side, while the blades of the first propeller are symmetrical with the blades of the second plane relative to the separating propellers, when installing the propellers, three restriction sleeves 1/3 length are installed radius of the round billet: one sleeve between the rear sides of the propellers and one sleeve between the corner edges of the blades of each propeller and their hubs, both turbine propellers slivers together by two pins, and two end-sided polygon with the outer sides of both the turbine bolts with its propeller shaft vetrodvizhiteley.

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