SU1453081A1 - Wind-driven power unit - Google Patents

Abstract

The invention allows to increase the reliability and simplify the design of the unit. The blades 3 fixed on the hull 1 under the action of the wind rotate the hull with windows 2 with respect to the fixed frame 4, along the perimeter of which sails 7 are located. Airflow through the windows sequentially affects each of the sails. Under pressure, the sail with the blocks 8 fixed on it sags. The blocks 8 are in contact with the cable 9 and tighten it. The cable 9 is connected at one end to the upper part of the frame 4, and the other to the spring-loaded piston 11 of the pneumatic pump 10. Therefore, the cable raises the piston to the upper position, and the pneumatic pump fills with air from the atmosphere. When body 1 overlaps sail 7, piston 11 forces air from a pneumopump to high pressure receiver 5 under the action of a spring. From the receiver, compressed air at constant pressure enters the air turbine. 3 il.

Description

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The invention relates to wind power and relates to units that convert the high-speed wind pressure of any direction into compressed air energy and its subsequent use.

The purpose of the invention is to increase reliability and simplify the design. I FIG. 1 shows the wind power unit, general view; in fig. 2 is a view A of FIG. one; in fig. 3 is a section BB in FIG. one.

The wind power unit contains a rotatable vertical housing 1 with windows 2 and blades 3 fixed on it, a frame 4 fixedly mounted inside housing 1, placed on the last mechanical wind transducer, high pressure receiver 5 and an air turbine 6 connected to it. located around the perimeter of the frame 4 sails 7, blocks 8 fixed to them, in contact with the last cables 9 connected by one ends with the upper part of the frame 4, and pneumatic pumps 10 connected to res A cross 5 and having spring-loaded pistons 11 connected to the other ends of the cables 9.

Pneumopumps 10 and turbine b are connected to the receiver 5 through pipelines 12 with valves 13.

Under the action of the wind, the blades 3 rotate the hull I around the frame 4. In this case, the windows 2 alternately open access to the air flow to the sails 7. Under pressure

By the flow, the sail 7 is curved, through the blocks 8, it pulls the cable 9 and raises the piston 11. Under the action of a vacuum in the cavity of the pneumatic pump 10, the inlet valve 13 opens and air enters the pneumatic pump 10. When wind access to the sail 7 is blocked The piston 11 is lowered, the air is forced out through the valve 13 into the cavity of receiver 5 and straightening through cable 9 and blocks 8 sail 7. Thus, the pneumatic pumps 10 are sequentially operated and the receiver 5 is inflated. Compressed air comes from receiver 5 to the turbine 6, causing Rotation of the latter.

Claims (1)

Invention Formula five A wind power unit containing a rotatable vertical hull with windows and blades fixed to it, 0 fixedly mounted inside the frame of the frame, placed on the last mechanical wind transducer, high pressure receiver and an air turbine connected to it, characterized in that, in order to increase reliability and simplify the design, the wind transducer is made in the form of sails located on the frame perimeter in contact with the last cables, connected by one ends with the upper part of the frame, and pneumopumps, connected to the receiver and having spring-loaded pistons, connected the other ends of the cables. Buff A  turned Fig.Z