JP2005054695A - Wind power generating device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a simply formed and inexpensive wind power generating device for relatively small-scale power generations such as illumination use in street lamps and advertising towers and power supply use to motors by solving problems in widely used conventional wind power generating devices wherein since the devices are of a system directly rotating a large propeller by wind force, it cannot effectively generate power unless the scale of the device is large to some degree and wind force is strong. <P>SOLUTION: In this wind power generating device, guide plates 3 are fixedly vertically and radially installed circumferentially on a disk 2, and a wind receiving drum 1 with a space 4 is installed at the center thereof. A drum type windmill 5 formed by fixedly forming rotating vanes 7 radially around the periphery of a rotating shaft 6 is inserted into the space 4 of the wind receiving drum 1 and pivotally supported by bearings 7, and the rotation of the rotating shaft 6 is transmitted to the rotating shaft 9 of the power generating device 10. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

The present invention relates to a wind turbine generator having a drum wind turbine in a wind drum, and the drum wind turbine is rotated in a fixed direction by wind blown from an arbitrary direction of the circumference of the wind drum, and the rotation of its rotating shaft is generated by the power generator. It is related with the wind power generator of the very simple structure equipped to transmit to the rotating shaft of this and to generate electric power.

Conventionally, wind power generators that have been widely used mainly rotate large propellers directly with wind energy. Therefore, a large installation space is required. As a result, there is a need to change the direction of the propeller according to the situation, and as a result, there is a problem that power generation cannot be effectively performed unless the scale is somewhat large and the wind is strong. That is, it is not suitable for relatively small-scale power generation such as lighting of street lamps, advertising towers, signboards, etc. and motor power.

  The problem to be solved is that it has not been possible to provide a wind power generator with a simple configuration and low cost for relatively small-scale power generation such as lighting for street lamps, advertising towers, etc., and power supply for motors.

In the present invention, a narrow and long guide plate is established and fixed radially at the same angle around the center of the circular plate or circular frame between the circumferential portions of the circular plate or circular frame opposed to each other at intervals. A wind receiving drum having a cylindrical space in the center,

A drum-type windmill provided with rotating blades fixed at every equal angle radially around the center of the rotating shaft is inserted into the cylindrical space of the wind receiving drum, The upper and lower sides of the rotation shaft are supported by bearings, and the rotation of the rotation shaft is provided to be transmitted to the rotation shaft of the power generation device.

A wind blown from an arbitrary direction on the circumference of the wind drum is introduced between the guide plates, and the guide plate guides and converts the air into a wind in a set angle direction with respect to the center of the wind drum, thereby It is provided that wind is blown to the rotating blades as wind in the angular direction, the drum-type windmill is rotated in a certain direction by the wind force, and the rotation of the rotating shaft is transmitted to the rotating shaft of the power generator to generate power. The problem was solved by the wind power generator.

The wind power generator according to the present invention introduces all the wind blown from the 360 ° circumferential direction of the wind receiving drum and the oblique vertical direction between the guide plates, and blows the wind to the drum type windmill by the action of the guide plates. It has an excellent feature that it can rotate and transmit the rotation to the rotating shaft of the power generator to generate power. Therefore, all the winds blown from any direction can be effectively used.

It can be easily installed anywhere on the rooftop, rooftop, garden, on the road, in the mountains, on the beach, etc., and used as a power source for various electrical devices.

Since the outer periphery is a fixed wind direction drum (not rotating), it is safe for children to touch.

  The unit-type wind power generator provided with a plurality of stacked units has an advantage that it can rotate even with a small wind force because the drum-type wind turbine of each unit can be provided in a small size.

  By installing solar panels for solar power generation on each guide plate of the wind receiver drum, wind power and solar power can be generated synergistically, and when there is no wind, it can generate power on cloudy days and nights. There is an advantage that can complement each other.

  The wind blown in between the guide plates is gradually narrowed from the wide circumference to the narrow inner end, and then released from the inner end at once to blow, so the wind speed is accelerated and the drum wind turbine rotates. There exists an effect which can collide with a blade | wing.

  If a power storage device (battery) is additionally provided, the charged surplus power can be stored.

Just by installing a drum-shaped windmill in the wind-receiving drum, the drum-shaped windmill is rotated in a fixed direction by wind blown from the circumferential direction of the wind-receiving drum, and the rotation of the rotating shaft is used as the rotating shaft of the power generator We realized an extremely compact wind power generator characterized by transmitting power to generate electricity.

1 is a cross-sectional view taken along line AA in FIG. 2, and is a longitudinal front view of the apparatus according to the embodiment of the present invention. FIG. 2 is a cross-sectional view taken along line BB in FIG.

See FIG. 1 and FIG.
Narrow elongated plate-like guide plates 3 are established and fixed radially at equal angles around the center of the disc 2 between the circumferential portions of the discs 2 facing each other at intervals, and a cylindrical space 4 at the center. A wind drum 1 having

A drum-shaped windmill 5 provided with rotation blades 7 fixed radially at equal angles around the center of the rotation shaft 6 around the circumference of the rotation shaft 6 is disposed in the cylindrical space 4 of the wind receiving drum 1. And the upper and lower sides of the rotary shaft 6 are pivotally supported by the bearing 7 and the rotation of the rotary shaft 6 is transmitted to the rotary shaft 9 of the power generation device 10.

A wind 11 blown from an arbitrary direction of the circumference of the wind receiving drum 1 is introduced between the guide plates 3, and is converted and rectified into a wind 11 in a set angle direction with respect to the center of the wind receiving drum 1 by the guide plate 3. The drum-shaped windmill 5 is blown to the rotating blades 7 of the drum-shaped windmill 5 as the wind 11 in the angular direction, and the drum-shaped windmill 5 is rotated in a certain direction by the wind force. It is the wind power generator provided to transmit to and generate electric power.

  In the above, the wind-receiving drum 1 is provided in the form of a hollow drum in which narrow guide plates 3 are radially fixed at equal intervals between circumferential portions between discs 2 opposed to each other at intervals. And

  Each guide plate 3 is fixed radially and equiangularly with the center of the disc 2 as the center, and the inner end portion 12 of each guide plate 3 is fixed by being bent at a set angle. A guide plate is formed as a wind 11 in a certain direction converted and rectified into a direction in which the guide plate 3 is bent at a set angle, that is, the wind 11 introduced between the blowing guide plates 3 from an arbitrary direction of the circumference of the receiving drum 1. 3 is provided so as to blow air toward the rotary blades 7 of the drum-shaped windmill 5 from between the inner end portions 12 of the drum-shaped wind turbine 5.

  The space between the guide plates 3 of the wind-receiving drum 1 is wide at the circumferential portion of the circular plate 2 or the circular frame because the guide plate 3 is fixed radially around the center of the circular plate 2 or the circular frame. The inner end 12 is narrowly formed, and therefore, the wind 11 introduced from the wide circumferential portion is squeezed by the narrow inner end 12 and then accelerated and blown toward the drum-shaped wind turbine 5. Is.

  The drum-type windmill 5 has a flat plate shape (illustrated example), a corrugated plate shape, an arm shape, a box shape, and other arbitrary shapes of rotating blades 7 or rotating blades around the rotating shaft 6, and the shape of the wind turbine 5 is received by wind. It is formed in a drum shape that can be inserted and installed in the central space 4 of the drum 1.

FIG. 3 is a front view of the embodiment device in which three units 13 each including the wind receiving drum 1 and the drum-shaped windmill 5 are stacked.

  The unit type wind power generator provided with a plurality of units 13 stacked thereon can be provided with a small drum-type windmill 5 of each unit 13, so that it can rotate even with a small wind force.

  Although not shown in the figure, a wind turbine generator is characterized in that two or more drum-shaped wind turbines formed in a short size are stacked and installed on the same rotation axis in one wind receiving drum formed in a long size. I will provide a.

  Although not shown, a wind power generator is provided, in which a solar panel (solar power generation panel) is attached to the surface of each guide plate of the wind receiving drum.

It can be easily installed anywhere on the rooftop, rooftop, garden, on the road, in the mountains, on the coast, etc., and used as a power source for various electrical devices. It can be widely used as an inexpensive wind power generator.

It is AA arrow sectional drawing of FIG. 2, The longitudinal cross-sectional front view of this invention Example apparatus. FIG. 3 is a cross-sectional view taken along line B-B in FIG. 1. The front view of the Example apparatus which stacked three units.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Wind-receiving drum 2 Disc 3 Guide plate 4 Space 5 Drum type windmill 6 Rotating shaft 7 Rotating blade 8 Bearing 9 Rotating shaft (power generation device)
10 power generator 11 wind 12 inner end 13 unit

Claims (7)

A narrow plate-shaped guide plate is established between the circumferences of discs or circular frames facing each other at intervals, and is fixed radially at equal angles around the center of the disc or circular frame, and is cylindrical at the center. A wind drum having a space of
A drum-type windmill provided with rotating blades fixedly arranged at equal angles radially around the center of the rotating shaft is inserted into the cylindrical space of the wind-receiving drum and rotated. The upper and lower shafts are supported by bearings, and the rotation of the rotary shaft is provided to be transmitted to the rotary shaft of the power generator.
A wind blown from an arbitrary direction on the circumference of the wind drum is introduced between the guide plates, and the guide plate guides and converts the air into a wind in a set angle direction with respect to the center of the wind drum, thereby It is provided that wind is blown to the rotating blades as wind in the angular direction, the drum-type windmill is rotated in a certain direction by the wind force, and the rotation of the rotating shaft is transmitted to the rotating shaft of the power generator to generate power. And
Wind power generator. The wind-receiving drum is a hollow drum formed by radially fixing and fixing narrow elongated plate-like guide plates between circumferential portions between discs or circular frames facing each other at regular intervals.
Each guide plate is fixed radially and equiangularly around the center of the disc or circular frame, and the inner end of each guide plate is fixed by bending or shifting by a set angle. The guide plate is converted into a direction in which the guide plate is bent or shifted by a set angle from the arbitrary direction of the wind guide drum in the circumferential direction of the wind receiving drum, or converted into the target direction. Characterized in that it is provided to squirt toward the rotating blades of the drum-shaped windmill from between the inner ends of
The wind turbine generator according to claim 1. The spacing between the guide plates of the wind receiving drum is wide at the circumferential portion of the disc or circular frame and at the inner end because the guide plates are fixed radially around the center of the disc or circular frame. Therefore, it is characterized in that the wind introduced from the wide circumferential portion is squeezed at the narrow inner end portion and then accelerated and blown toward the drum type windmill.
The wind turbine generator according to claim 1. A drum-type windmill has a flat plate, corrugated plate, arm, box, or any other shape of rotating blade or blade fixed radially around the rotation axis, and the shape is in the center space of the wind-receiving drum. It is formed into a drum shape that can be inserted and installed.
The wind turbine generator according to claim 1. A unit provided with a drum-shaped windmill in the wind-receiving drum is characterized by having a plurality of units stacked on the same rotational axis.
The wind turbine generator according to claim 1. Two or more drum-type windmills are stacked and installed on a rotating shaft in one wind-receiving drum,
The wind turbine generator according to claim 1. A solar panel is attached to the guide plate of the wind drum,
The wind turbine generator according to claim 1.

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