KR101352599B1 - A wind power generator - Google Patents

Abstract

The longitudinal axis wind turbine with a spring shock absorber according to the present invention is provided with a spring buffer at the lower portion of the support wing fixed, the first, it can absorb the shock, such as centrifugal force applied to the power generating wing through the spring buffer. As a result, it is possible to effectively absorb the impact on the power generating wing, and thus it is possible to easily absorb the impact caused by the power generation, to extend the durability life of the wind turbine and to not damage the building in which the wind turbine is installed. It can be installed anywhere.

Description

Longitudinal Vane Wind Power Generator with Spring Shock Absorber

The present invention relates to a longitudinal axis wind turbine with a spring shock absorber portion, and more specifically, to support the power generation wing to absorb the impact on the longitudinal axis wind turbine is installed a lot without the generation of noise The spring buffer is installed on the top of the column to effectively absorb the impact on the power generating wing through the spring buffer, which can prolong the life span of the support pillar or building and reduce the vibration of the pillar to extend the life of the pillar. It relates to a longitudinal axis wind turbine with a spring buffer unit.

In general, a wind turbine is divided into a propeller-type wind turbine and a vertical blade wind turbine in which both wings are arranged vertically.

Propeller-type generators have the advantage of being capable of large capacity, but due to severe noise damage, they are installed in mountainous or marine areas where people are inhabited, and vertical wing generators have small power generation capacity but damage to noise. Although there are few, many installations have been made in the inhabited areas, but the pollution of the vertical axis generator is greatly reduced, but the load on the support column due to the impact on the power wing by wind is increased. The shock absorber is absorbed by installing a separate shock absorber on the support pillar.

That is, the shock absorber of the longitudinal blade generator, as shown in Figure 1, because the support pillar (2) for supporting the power generation wings (1) arranged vertically arranged in the 'H' shape is supported by such power generation wings (1) is subjected to centrifugal force (W) outward, so that the support pillar (2) is subjected to a large horizontal force, the support pillar (2) is bent and damaged and the durability of the wind turbine itself is shortened Of course, along with this, there is a problem in that many cracks are generated by the horizontal force on the installation surface of the building in which the support pillars 2 are installed, which makes installation difficult due to damage to the building.

An object of the present invention is to solve this problem, the spring buffer unit is installed on the top of the support pillar for supporting the power generation wing so as to absorb the impact on the vertical axis wind power generator which is installed a lot without the occurrence of noise It is to provide a longitudinal blade wind power generator having a spring shock absorber portion that can be effectively absorbed through the spring buffer applied to the power generating wing to easily absorb the impact of the power generation.

This object of the present invention, in the vertical axis wind turbine installed with a support pillar, and the 'H' shaped generator blade is rotated and installed on the upper portion of the support pillar, the spring buffer is fixed to the lower portion of the support wing is fixed It is achieved by the longitudinal axis wind turbine with a spring shock absorber portion according to the present invention additionally installed.

The longitudinal axis wind turbine with a spring shock absorber according to the present invention is provided with a spring buffer at the lower portion of the support wing fixed, the first, it can absorb the shock, such as centrifugal force applied to the power generating wing through the spring buffer. As a result, it is possible to effectively absorb the impact on the power generating wing, and thus it is possible to easily absorb the impact caused by the power generation, to extend the durability life of the wind turbine and to not damage the building in which the wind turbine is installed. There is an excellent effect that can be installed anywhere.

Figure 1a, 1b is a schematic perspective view and cross-sectional view of a conventional longitudinal axis wind turbine
Figure 2a, 2b is a perspective view of a longitudinal axis wind turbine with a spring shock absorber portion and a longitudinal cross-sectional view of the spring shock absorber portion according to the first embodiment of the present invention
Figure 3 is a longitudinal sectional view of the longitudinal axis wind turbine with a spring buffer device according to a second embodiment of the present invention
Figure 4 is a longitudinal sectional view of the longitudinal axis wind turbine with a spring buffer device according to a third embodiment of the present invention

As illustrated in FIG. 2, the longitudinal axis wind turbine generator A having the spring shock absorber unit according to the first embodiment of the present invention includes a power generation blade 1 disposed in an 'H' shape and the power generation wing ( 1) is provided on the upper side is provided with a support pillar (2) for supporting the power generating wing (1).

Although the rotor 11 rotates together with the power generation blade 1 and the generator 12 generates electricity while the magnetic flux is cut by the rotation of the rotor 11, the power generation blade 1 is disposed. The structure is already known and description thereof will be omitted.

A lower portion of the generator 12 supports the generator 12, and a support pipe 13 having a circular plate portion 131 formed thereon is provided on the bottom thereof, and a support pillar spaced apart at regular intervals from the lower portion of the support pipe 13. A support plate portion 21 at the top of (2) is provided, and a primary spring shock absorber portion 3 is provided between the support pipe 13 and the support column 2 spaced apart.

In the present embodiment, the primary spring shock absorber portion 3 includes six coil springs 31 inserted between the circular plate portion 131 of the support pipe 13 and the support plate portion 21 of the support pillar 2. And a coil spring 31 is fixed to penetrate between the circular plate portion 131 of the support pipe 13 and the support plate portion 21 of the support pillar 2 so that the coil spring 31 is supported. Screw 32 and a fixing nut 33 is fixed to the end of the fixing screw 32.

The fixing screw 32 and the fixing nut 33 for fixing the coil springs 31 are fixed so that the coil springs 31 are loosely arranged without being tightened tightly, and the fixing screw 32 is inserted therein. The through hole 132 of the circular plate portion 131 of the support pipe 13 is formed wider than the diameter of the fixing screw 32, so that the coil spring 31 is smoothly operated.

Referring to the operation of the longitudinal axis wind turbine (A) with a spring buffer device according to the first embodiment of the present invention having the configuration as described below, the power generation is started when the wind power blade (1) is rotated by wind When centrifugal force (W) is generated by the rotation of the power generating blade (1), such centrifugal force (W) is applied to the support column (2), but this centrifugal force (W) is the primary spring buffer unit ( To be offset by 3).

That is, when the centrifugal force (W) is generated to affect the support pillar (2), first, the centrifugal force (W) is transmitted to the support pipe 13, the centrifugal force transmitted on the support pipe 13 in this way Centrifugal force (W) by canceling the centrifugal force (W) generated while repeating the expansion and contraction of each coil spring 31 while being transmitted to each coil spring 31 installed below the circular plate portion 131 of the support pipe 13 Is largely offset or attenuated to be transmitted to the support pillar 2, but is significantly reduced to be transmitted on the support pillar 2, so that the support pillar 2 is used as it is without significant impact. In addition, the power generation wing 1 is also such that the impact caused by the centrifugal force (W) is extinguished or at least mitigated by the primary spring shock absorber unit 3 can extend the life of the power generation wing (1).

In the above embodiment, the elastic modulus is 36.4 kgf / mm and the coil spring 31 performs an operation of canceling the centrifugal force with almost no visual shaking, but the coil spring 31 having the elastic modulus of 18.25 kgf / mm is It is observed that the coil spring 31 having such an elastic modulus is inadequate because a lot of shaking occurs with the naked eye.

 3 is a longitudinal cross-sectional view of a spring shock absorber portion of a longitudinal shaft wind turbine with a spring shock absorber portion according to a second embodiment of the present invention, the second elastic support portion 4 in the lower portion of the primary spring shock absorber portion 3; Is provided, and the support plate part 21 of the support column 2 is provided in the lower part of the said 2nd elastic support part 4. The second elastic support part 4 has upper and lower extension disk parts 41a and 41b extending upward and downward, and the upper spring support part 41a is provided with the primary spring buffer part 3. An elastic support plate 42 is disposed below the tube portion 41 and the lower extension disc portion 41b of the support tube portion 41, and the elastic support plate 42 has a lower extension disc portion 41b and a support pillar ( It is fixed between the support plate parts 21 of the upper part of 2). The elastic support plate 42 is preferably made of a synthetic resin material or rubber material that can be stretched.

Accordingly, the wind power generator according to the second embodiment of the present invention absorbs the centrifugal force primarily from the primary spring buffer part 3 and again absorbs the extra centrifugal force from the second elastic support part 4 so that The buffer effect will be complemented.

4 is a longitudinal cross-sectional view of a spring shock absorber part of a longitudinal shaft wind turbine with a spring shock absorber part according to a third embodiment of the present invention, wherein the secondary spring shock absorber part is disposed below the primary spring shock absorber part 3. (5) is disposed, the secondary spring shock absorber portion 5 is disposed a spring having an elastic modulus larger than the elastic modulus of the spring of the primary spring shock absorber portion 3, the primary spring shock absorber portion In (3), the shock is absorbed or canceled and again the extra impact force is absorbed by the secondary spring shock absorber portion 5, so that the impact force applied to the wind turbine can be more effectively absorbed.

That is, the vertical axis wind turbine with a spring shock absorber portion according to the third embodiment of the present invention, as shown in Figure 4, the secondary spring shock absorber portion in the lower portion of the primary spring shock absorber portion (3) (5) is provided, and the support plate part 21 of the support column 2 is provided in the lower part of the said secondary spring shock absorber part 5. The secondary spring shock absorber 5 is formed with upper and lower extension disc parts 51a and 51b extending upward and downward, and the primary spring shock absorber part 3 is installed on the upper extension disc part 51a. Six coil springs 52 and the coil between the support tube portion 51, the lower portion of the lower extension disk portion 51b of the support tube portion 51, and the support plate portion 21 at the upper portion of the support pillar 2; A fixing screw 53 to which each coil spring 52 is penetrated between the lower extension disk portion 51b and the support plate portion 21 of the support pillar 2 so that the spring 52 is supported, and the fixing screw Fixing nut 54 is fixed to the end of the 53.

The elastic modulus of the coil spring 52 provided in the secondary spring buffer part 5 should be larger than the elastic modulus of the coil spring 31 provided in the primary spring shock absorber part 3.

In the longitudinal axis wind turbine with a spring shock absorber portion according to the third embodiment of the present invention having such a configuration, the shock applied to the primary is absorbed by the primary spring shock absorber portion, and the remaining shock again is the secondary spring shock absorber. As it is absorbed by the device part, the shock absorbing power becomes better, so that the endurance life of the wind power generator is extended and the impact on the ground where the wind power generator is installed is almost canceled. Since it can be installed in the wind turbine generator will be almost no restrictions on the installation site.

The longitudinal axis wind turbine with a spring buffer device according to the present invention will be said to be an industrially applicable invention because it is possible to repeatedly manufacture the same product in a general wind turbine manufacturing industry.

1. Power wing 2. Support column 3. Primary spring buffer
4. Second elastic support 5. Second spring shock absorber
12. Generator 13. Support Pipe

Claims (4)

Longitudinal axis wing having a spring shock absorber unit having a power generating wing (1) arranged in the 'H' shape and the support wing (2) is disposed on the power generating wing (1) to support the power generating wing (1) In the wind turbine (A),
A generator 12 is disposed below the power generating wing 1, and a support pipe 13 having a circular plate portion 131 formed thereon is provided at the bottom of the generator 12 to support the generator 12. ,
The lower portion of the support pipe 13 is provided with a support plate 21 of the upper portion of the support column 2 to be spaced at a predetermined interval,
Between the support pipe 13 and the support column 2 is spaced apart from the primary spring buffer unit 3,
The primary spring shock absorber portion 3 includes a coil spring 31 inserted between the circular plate portion 131 of the support pipe 13 and the support plate portion 21 of the support pillar 2;
Fixing screw 32 to which each coil spring 31 is fixed to penetrate between the circular plate portion 131 of the support pipe 13 and the support plate portion 21 of the support pillar 2 so that the coil spring 31 is supported. )Wow,
Longitudinal axis wind turbine with spring shock absorber portion, characterized in that it comprises a fixing nut 33 is fixed to the end of the fixing screw 32
delete The method of claim 1,
The second elastic support portion 4 is provided at the lower portion of the primary spring shock absorber portion 3,
The second elastic support part 4 has upper and lower extension disc parts 41a and 41b extending upward and downward, and the upper extension disc part 41a has a support tube part in which the primary spring shock absorber part 3 is installed. With 41,
An elastic support plate 42 is disposed below the lower extension disc portion 41b of the support tube portion 41, and the elastic support plate 42 supports the lower extension disc portion 41b and the upper portion of the support pillar 2. Longitudinal axis wind turbine with spring shock absorber portion, characterized in that fixed between the plate portion 21
The method of claim 1,
The secondary spring buffer unit 5 is installed at the lower portion of the primary spring buffer unit 3,
The secondary spring shock absorber 5 is formed with upper and lower extension disc parts 51a and 51b extending upward and downward, and the primary spring shock absorber part 3 is installed on the upper extension disc part 51a. A support pipe portion 51,
A coil spring 52 provided between the lower portion of the lower extension disk portion 51b of the support tube portion 51 and the support plate portion 21 on the upper portion of the support pillar 2;
A fixing screw 53 for fixing the coil springs 52 through the lower extension disc part 51b and the support plate part 21 of the support pillar 2 so as to support the coil springs 52;
A fixing nut 54 fixed to an end of the fixing screw 53,
The elastic modulus of the coil spring 52 provided in the secondary spring buffer part 5 is larger than the elastic modulus of the coil spring 31 provided in the primary spring shock absorber part 3. Equipped longitudinal wing wind turbine

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