KR20020073967A - Double Axis Water Spinner - Google Patents

Abstract

PURPOSE: A biaxial rotating apparatus by using wind power is provided to generate power by turning the rotating apparatus around a vertical shaft or a horizontal shaft according to wind direction with installing plural wind plates. CONSTITUTION: A symmetric wing body is formed to generate bi-directional force, and plural wind preventive units are installed in the outside of the symmetric wing body to form wind power. Symmetric wing body support plates(4) are mounted at the inside of the body, and support plate holding units(3) are stuck to the symmetric wing body support plates and a supporting pipe(11). A variable blade(2) is connected to the lower part of the symmetric wing body by plural hinges(13), and bent in blowing by attaching plural steel pieces(5) in the symmetric wing body. The supporting pipe is inserted to a rotating shaft(10). Power is generated with turning the wind plate biaxially corresponding to intensity or direction of wind.

Description

Double-axis wind rotator {omitted}

According to the present invention, the wind blown from the slopes or the plains and the sea is in the form of wind turbines and rotating shafts, which can be rotated in accordance with the direction of the air flow, which is changed to a vertical axis or a horizontal axis depending on the installation location. A biaxial wind rotator which can be switched.

Conventional water-swivel rotating device is a situation that has been developed, such as the propeller type, multi-wing type, Bernoulli type, Darius type, Savonius type and Cyclo tabbing type.

The present invention has been developed in view of the above point in the rotation axis to the vertical axis or horizontal axis in the zoom to form a large number of wind plates that are both inclined both sides, and binding them with the rotation axis by the support plate to receive all the wind blowing from all directions When described with reference to the drawings that can be converted to power energy to be as follows.

1. Manufacturing composition of the laminar wind blower and rotating device

In the fabrication and construction of the double-shaped water-receiving plate (A), the symmetrical wing body (1) (1 ') to receive the wind from both sides to generate the lifting force, and the symmetrical wing body (1) (1') The outer side surface (7) has a plurality of airflow prevention devices (8) are folded to receive the blowing wind blowing to give more wind power, and the inner side (6) a plurality of symmetrical blade body support plate (4) (4 ') abutment The symmetrical blade body support plate support (3) (3 ') is attached to one side of the symmetrical blade body support plate (4) (4') and the support tube (11) is bonded to support it. In the lower end of the symmetrical airfoil body (1) (1 '), the variable wings (2) (2') of symmetrical airfoils are attached to each other, and are fastened to a plurality of hinges (13) for zooming. A plurality of steel sheet pieces (5) and (9) are bonded only to the symmetrical blade bodies (1) and (1 ') side so that the variable blades (2) and (2') can be bent during strong winds to collect strong and weak winds. Receiving the structure to induce rotation to receive the rotation of the support tube 11 of the two-piece type windshield (A) made in this way by setting the two blade type or three blade type or four blade type or five blade type or six blade type Shaft (10) and the insertion was made.

2. Assembly of two vane rotator

In assembling the two blade-shaped rotating device B (Fig. 5 cross-sectional view), the support tube 11 of the fertilizing-type windshield A manufactured in the first process can be inserted into the rotating shaft 10 and inserted. To let you turn the wind.

3. Assembly of 3-wing rotor

In assembling the three-wing rotor C (Fig. 7 cross-sectional view), the support tube 1 1 ² of the fertilizing-type windshield plate 1 manufactured in the first step is inserted into the rotating shaft and inserted into the water. To make it rotate,

4. Assembly of 4-wing rotor

In the assembly and zoom of the four-wing rotary device D (Fig. 6 cross-sectional view), the support tube 11 ¹ of the fertilizer-type water-fusing plate A manufactured in the first step is inserted into the rotary shaft. It was to make the wind rotation,

5. Assembly of 5-wing rotor

5 airfoils rotating device (E) given by the support tube (11 ³⁾ for rotating Shah foot and sapchak of non-formation can shroud (A) both been produced in the first step in the zoom to assemble (the eighth degree cross section) It was to make the wind rotation,

6. Assembly of 6-wing rotor

6 airfoils rotating device (F) (FIG. 9 a cross-sectional view) of the assembly to be given to the support tube (11, ⁴⁾ for rotating Shah foot and sapchak number shroud (A) I-free both been produced in the first step to the zoom supung It is possible to rotate.

First view perspective view

Second view perspective view

3 is a perspective view of a two-wing type rotary device

FIG. 4 is a perspective view of the windshield support plate

5 is a cross-sectional view of the two-wing type wind rotator

Fig. 6 Sectional View of a Spiral Type Wind-Shaft Rotator

7 is a cross-sectional view of the three-wheeled water wind rotating device

8 cross-sectional view

9 is a cross-sectional view of the six-wheel type water jet rotating device

Explanation of symbols on the main parts of the drawings

A, A ': Non-fertilized windshield 1,1': Symmetric wing body

2,2 ¹ , 2 ² , 2 ³ , 2 ⁴ , 2 ⁵ : Variable wing

3,3 ¹ , 3 ² , 3 ³ , 3 ⁴ , 3 ⁵ : Symmetric wing body support plate support

4,4 ¹ , 4 ² , 4 ³ , 4 ⁴ , 4 ⁵ : Symmetric blade body support plate 5: Steel plate piece

6: inner side 7 outer side 8,8 ¹ , 8 ² , 8 ³ , 8 ⁴

9: side plate 10: Shah feet 11,11 ^1, 11 ^2, 11 ^3, 11 ^4: the support tube

12,12 ': End connector 13: Hinge

.

Thus, this wind rotator is manufactured and assembled on slopes, on the plain, on the roof of the sea, and on the roof of the building to receive all the blowing winds. The effect of allowing the wind to rotate by the support plate and the wind prevention device, the effect of preventing the strong rotation during the strong wind or the gust by the variable wing, and the effect of expanding the rotation function by the large area of the wind panel in the wind It is a double-axis water-wind rotating device that can be equipped.

Claims (6)

In the fabrication and construction of the double-shaped water-receiving plate (A), the symmetrical wing body (1) (1 ') to receive the wind from both sides to generate the lifting force, and the symmetrical wing body (1) (1') The outer side surface (7) has a plurality of airflow prevention devices (8) are folded to receive the blowing wind blowing to give more wind power, and the inner side (6) a plurality of symmetrical blade body support plate (4) (4 ') abutment The symmetrical blade body support plate support (3) (3 ') is attached to one side of the symmetrical blade body support plate (4) (4') and the support tube (11) is bonded to support it. In the lower end of the symmetrical airfoil body (1) (1 '), the variable wings (2) (2') of symmetrical airfoils are attached to each other, and are fastened to a plurality of hinges (13) for zooming. A plurality of steel plate pieces (5) and (9) are bonded only to the symmetrical airfoil bodies (1) and (1 ') side so that the variable wings (2) and (2') can bend during strong winds, thereby collecting the strong and weak winds. It is made by constructing to induce rotation while receiving two, and by setting up the support pipe (11) of the horn-shaped swash plate (A) constructed in this way by setting it to 2 blade type or 3 blade type or 4 blade type or 5 blade type or 6 blade type A double shaft type wind-rotating device made by inserting it with a dedicated shaft (10). 2. The rotating shaft according to claim 1, wherein the support tube 11 of the fertilizer-shaped windshield A manufactured in the first step is assembled in assembling two vane-shaped rotary devices B (FIG. 5 sectional view). A double shaft type wind rotating device which is inserted into and inserted with 10 so that the wind rotating can be performed. 2. The rotating shaft according to claim 1, wherein the support pipe (11 ² ) of the fertilizer-shaped windshield plate (1) manufactured in the first step is assembled in assembling the three-wheeled rotating device (C) (Fig. 7 sectional view). Double-shaft wind rotator to insert and insert to allow the wind to rotate. 2. The rotating shaft as set forth in claim 1, wherein, in assembling the four-wing rotary device D (FIG. 6 sectional view), the support tube ^{1 1 1} of the fertilizer-shaped windshield A manufactured in the first step is rotated. A double shaft type water rotating device that allows water to rotate by inserting and inserting a foot. The assembly of claim 1, wherein the support tube 1 1 ³ of the fertilizer-shaped windshield A produced in the first step is assembled in assembling the five-wing rotary device E (Fig. 8 sectional view). Double-shaft wind-rotating device that allows the wind to rotate by inserting and inserting. Claim 1 wherein in the six airfoils rotating device (F) (FIG. 9 a cross-sectional view) of assembled in the zoom claim Weeping-free ready-made in the first step shroud (A) the support tube (11, ⁴⁾ for rotating Shah foot of Double-shaft wind-rotating device that allows the wind to rotate by inserting and inserting.