JPS61175274A - Rotor blade construction of wind mill - Google Patents

Abstract

PURPOSE:To prevent loss of a rotor blade when it is broken by connecting a support arm to the rotor blade with a rope, in a wind mill in which the metal support arm is mounted on a rotor hub and the resin rotor blades are fixed to the arm. CONSTITUTION:A nacelle 3 rotatable around a strut 1 is mounted on the upper end of the strut 1 provided vertically, and a pair of fiber reinforced resin rotor blades 6 are mounted through a rotor hub 5 on one end of a rotary shaft 4 supported by a bearing in a support arm 3a extending in the lateral direction of the nacelle 3. In this case, the blade 6 are attached to the rotor hub 5 via a rotatable metallic support arm 7. That is, the beam 6b of a blade 6 is fixed to the arm blade 7b of a support arm 7, and base end of the blade body 6a is secured to a flange part 7a of the support arm 7. Both 6 and 7 are connected together by inserting a rope 10 through a ring-shaped metal fitting 8 mounted to the blade 7b and holes 9, 9 of the beam 6b.

Description

DETAILED DESCRIPTION OF THE INVENTION [Technical Field of the Invention] The present invention relates to a rotor blade structure of a wind turbine used in a wind power generator or the like.

[Prior art]

Some devices use windmills to extract wind energy and use that wind energy to drive generators.

Generally, the rotor blades of this wind turbine are molded from a resin reinforced with fibers or the like to reduce weight, and are attached to a rotor hub via a metal support arm. Because of this configuration, the resin rotor blade may break at the connection portion with the metal support arm and be lost.

[Purpose of the invention]

An object of the present invention is to provide a wind turbine rotor blade structure that prevents a resin rotor blade from being lost when it breaks.

[Structure of the invention]

To achieve the above object, the present invention is a wind turbine in which a metal support arm is attached to a rotor hub and a resin rotor blade is fixed to the support arm, and a rope is connected to each other between the support arm and the rotor blade. It is characterized by this.

〔Example〕

The present invention will be explained below with reference to embodiments shown in the drawings.

In the windmill shown in FIG. 2, reference numeral 1 denotes a support, and this support 1 is vertically erected by a plurality of strings 2.

A nacelle 3 is provided at the upper end of the column 1 and is rotatably supported around the column 1. This nacelle 3 is the support arm 3
A extends laterally, and a rotating shaft 4 is pivotally supported in the supporting arm 3a. Two rotor blades 6.6 are attached to the ends of this rotating shaft 4 via a rotor hub 5. The number of rotor blades 6 is not limited to two, but may be one.
Alternatively, the number of sheets may be three or more. The rotor blade 6 is attached to the rotor hub 5 via a rotatable support arm 7, and its attachment angle is automatically changed according to wind force.

The rotor blade 6 is a downwind type wind turbine that moves to the leeward side while rotating the nacelle 3 around the support column in response to the wind in the direction of the arrow W, and rotates the rotating shaft 4 by its own rotation. The rotation of the rotating shaft 4 rotated by the rotor blade 6 drives a generator (not shown) provided in the yaw case 11 via a bevel gear (not shown).

FIG. 1 shows details of the attachment portion of the rotor blade 6 to the support arm 7. As shown in FIG.

The support arm 7 is made of metal and has a flange portion 7a and an arm blade 7b integrally fixed to the flange portion 7a.

On the other hand, the rotor blade 6 is molded from fiber-reinforced resin and has a main body 6a constituting an outer shell, and a girder 6b extending in the longitudinal direction inside the main body 6a.

The rotor blade 6 has a base end portion of a main body 6a fixed to a flange portion 7a of the support arm 7, and a base end portion of a spar 6b to an arm blade 7b of the support arm 7.

Further, an annular metal fitting 8 is attached to the arm plate 7b made of metal, and a through hole 9.9 is provided in the beam 7b made of fiber reinforced resin.

The annular fitting 8 and the through hole 9.9 are connected to each other by a rope 10 made of high strength polyaramid fiber. For the rope 10, the above-mentioned polyaramid fibers are most suitable because of their high strength, but polyamide fibers, polyester fibers, polyvinyl alcohol fibers, etc. used for high-strength tire cords can also be used as the rope material.

According to the windmill described above, the resin rotor blade 6 is
Since stress tends to be concentrated at the base end portion fixed to the metal support arm 7, it may break at the portion indicated by the broken line B. However, the rotor blade 6 with the above-described structure
Even if it breaks at the part indicated by the broken line B, the rope 10 connects the part of the rotor blade 6 separated from the support arm 7, so it will not be lost. Further, even after the rotor blade 6 is broken, it is connected to the support arm 7, so that its repair process can be made extremely easy.

In order to ensure such loss prevention, the above-mentioned rope 10
Preferably, the material is not impregnated with resin. Ropes that are not impregnated with resin elongate to a moderate degree in response to tensile force, so when a large impact load is applied, the rope is able to soften the impact.
This is because it can prevent itself from breaking.

〔Effect of the invention〕

As described above, the present invention provides a wind turbine in which a metal support arm is attached to a rotor hub and a resin rotor blade is fixed to the support arm, in which a rope is connected to each other between the support arm and the rotor blade. Therefore, even if the fixing part for the support arm of the rotor blade breaks, the broken part will not be lost due to the connection of the rope.

[Brief explanation of the drawing]

FIG. 1 is a partially cutaway perspective view of the rotor blade structure of the present invention, and FIG. 2 is a side view of a wind turbine having the same rotor blade. 5... Rotor hub, 6... Rotor blade, 6
a... Main body, 6b... Girder, 7... Support arm, 7a... Flange portion, 7b... Arm blade, 8... Annular metal fitting, 9... Through hole, 10.
··rope.

Claims (1)

[Claims] A rotor blade of a wind turbine, characterized in that a metal support arm is attached to a rotor hub, and a resin rotor blade is fixed to the support arm, wherein a rope is connected to each other between the support arm and the rotor blade. structure.