KR20110046202A - Parasail wind power generator - Google Patents

Abstract

PURPOSE: A wind power generator for a parasail is provided to obtain a high energy effect in a narrow area because wind power in a high altitude is used as a power source. CONSTITUTION: A wind power generator for a parasail comprises a parasail, top and bottom adjusting ropes, an operation winch, and a power transmission unit. An inverted triangular helium gas balloon is installed on the top of the parasail and stabilizes the movement of the parasail. The angle of the parasail can be changed by the bottom adjusting rope. The top and bottom adjusting ropes are used for positioning the parasail at the original position. The operation winch and the power transmission unit are used for raising the parasail.

Description

Parasail wind power generator {

The present invention relates to wind power generation using wind blowing at high altitudes, and uses a parasail combined with a helium gas balloon in a fixed area. Windmill-type generator in the conventional invention can not only have a limit of the height can not use the wind blowing stably at high altitude, the ship power generation method using a parasail can not overcome the limitation of the region.

Convection power generation has a limitation of scale, and air wind power generation has a weight limitation because generators must be located at high altitudes.

The technology can easily use high-altitude wind power in a fixed area and can be scaled to produce stable green energy.

The present invention raises the parasail combined with the helium gas balloon (mechanism) to raise the wind power to generate the wind power to operate the generator using a parasail having a strong pressure received the wind and the parasail proceeded by a certain length Reduce the pressure with the regulating furnace and repeat the method.

Wind power generated during power generation is transmitted to the accelerator gear through the bevel gear and the clutch, and the acceleration gear is generated by rotating the generator.

When repositioned, the clutch of the power train relaxes and the rewind motor is activated. This is done automatically in the control box.

The classification of current wind power generation methods includes low and high altitude, fixed and mobile, large scale and small scale, and recycling of discarded wind power. Each has its advantages and disadvantages.

While using green energy called wind power, it is possible to obtain stable wind power by using high altitude. It should not occupy much space and should be fixed.

This is the problem to be solved.

Using parasail combined with an inverted triangle helium gas balloon (instrument), the parasail is easily raised at high altitude, and then the lower rope is adjusted to receive wind power, and the power generated by the parasail being separated by the pressure is sent to the generator through the accelerator gear. do.

When returning the distant parasail to its original position, adjust the lower rope so that the parasail is not pressurized and then return to the rewind motor.

Because it is a parasail combined with an inverted triangle helium gas balloon, it is easy to operate and safe to use without a specific technology.

The high wind power is used as a power source, so high energy efficiency can be obtained in a small area and constant power generation is possible.

Representative diagrams include a parasail part for generating pressure, a driving position part for transmitting power, a bevel gear, a drive shaft, and a clutch part for transmitting and disconnecting pressure, and a flywheel part for storing pressure in the lower part so that no wind is generated. When the parasail is in place, the flywheel's centrifugal force keeps the generator running.

Hereinafter, the detailed description will be described with reference to the conceptual diagrams and drawings.

1 is a perspective view of power generation as a representative view.

FIG. 2 is a representative view-2 illustrating a perspective view when the pressure is lowered to its original position. FIG.

3 is a conceptual diagram-1 when the parasaile is raised to the sky.

FIG. 4 is a conceptual diagram-2 showing a state in which parasails receive wind power to produce electric power. FIG.

FIG. 5 is a conceptual diagram-3 illustrating a case where the parasailed away.

FIG. 6 is a conceptual diagram-4, which shows a case when the parasaile receives wind power to produce electric power.

7 is a plan view of a power generation apparatus.

8 is a front view of the power generation apparatus.

9 is a side view of the power generation apparatus,

10 is a rear view of the power generation apparatus.

11 is a side view of the power generation apparatus, showing a state where the clutch is not connected.

Claims (5)

A parasail with an inverted triangle helium gas balloon on top. Upper and lower adjustment ropes used when the parasale is under pressure and when it is put back Drive winch and power transmission device for use when raising the parasale to high altitude. Parasail wind power generating power using the power. A parasail combined with an inverted triangle helium gas balloon that keeps the parasails stable and can change the angle with the lower adjustment furnace. Rope drive winch that raises the parasail to a high altitude and provides a pair of winches as a combination of winches to change the length of the upper rope and lower rope respectively. As a power transmission device for transmitting the pressure generated by the rope, the bevel gear connecting the winch and the drive shaft and the clutch to disconnect the power, the lower bevel gear and the accelerator gear Energy stored as a flywheel, a power storage device connected to the drive shaft, to compensate for pressure that does not occur while the parasail is in situ.

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