SU8970A1 - High altitude wind power installation - Google Patents

Description

In the most constant air currents of the upper layers, which have a higher average annual wind speed, the wind engine would have more power and more productivity. To use wind power under the specified conditions, in the proposed high-altitude wind power installation, equipped with a winch with a tied cable, a snake balloon is used, lifting one or several wind engines.

In FIG. 1 is a side view of a wind-driven snake balloon tied to a winch; FIG. 2 - the same, front view; FIG. 3 is a side view of a kite with several wind engines; FIG. 4 - the same, front view.

The high-altitude wind power installation consists (Fig. 1.2) of a snake balloon 1 attached to the cable, to which a light metal form 2 with a wind motor 3 is suspended descending from the bottom 3. The latter is mounted on a horizontal axis 4 fixed to two bearings 5 and parallel to axis of the balloon. By rotating the axis 4,

An electric generator 6 is put into operation connected with an accelerating gear. It is placed in a hermetically sealed casing 7. The marked truss 2 in its upper part, in front, has the form of a triangle lowered toward the bottom, whose base is connected to the balloon shell made in the form of a triangle. The upper part of the truss is designed to support the rotating device, and the lower part is made to attach the lower process of the cable 8. The middle and upper processes of the same cable are attached to two other points, namely, the middle is at the axis of the rotating device and . At the bottom of the ground, the cable can be wound onto the drum of the winch 9 attached to the ground and turning around its vertical axis. To increase the lift of the balloon, plans 10 are attached to it sideways. The plane of these plans, in its normal position, stands at some counter-angle of attack, like an airplane wing. In case of a storm, plans can come to a neutral position.

in which their drag decreases. The current from the generator 6 can be supplied to the ground or via a separately hanging cable, or the supporting cables can be used as conductors. To protect the structure from the effects of atmospheric electricity, an appropriate grounding conductor with grounding 11 is arranged.

In a modified high-altitude wind power installation (Fig. 3, 4), the internal cavity of the aerostat is divided by a rigid hermetic garden into two unequal parts 11 and 12. The large cavity is constantly filled with a light gas. Inside the smaller cavity there is a soft balloon communicating with cavity 11 by means of two valves 13 and 14. One of the safety valves releases gas during its expansion from cavity 11 into the balloon placed in cavity 12, and through the other valve is fed with gas released into the balloon cavity 11. The valve 15 is safety for the balloon 12. The vane plans 10 are retracted into the tail of the balloon, around the largest section of which a more rigid ring is attached, serving as a base for attaching several light metal rm 2 raspolagayuschihs symmetrically around the balloon. The tops of the trusses are interconnected. The number of farms is set so that when

the operation of the blades of the neighboring propeller wind engines did not touch each other. This number will be maximum with the closest approach of the heads of wind engines and placing them not in the same plane. On the horizontal axis of each engine 3, behind Him, a pear-shaped casing 7 of smoothly streamlined shape is placed. Inside the casing is placed a gear and an electric generator. The current from each generator is transmitted to earth through separate conductors, which can together form one common cable.

Subject Patent a.

1. A high-altitude wind power installation supplied with an attachment cable winch, characterized using a kite that serves to lift a wind engine 3 (Fig. 1 and 2) mounted on an axis 4 parallel to the axis of the balloon and rotated in farm 2, is fixed connected to the lower surface of the shell of the balloon.

2. Variation of the high-altitude wind power installation described in paragraph 1, characterized in that instead of a single wind engine 3, several were used (Fig. 3, 4) placed circumferentially in a plane perpendicular to the axis of the balloon and fortified in a ring farm 2. to the patent B. B. Kazhinsky and No. 8970 A. G. Ufimtseva

1.