JP2013181437A - Wind mill rotary blade - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a wind mill rotary blade that can protect a base material in a blade tip part of the wind mill rotary blade against droplet erosion due to a raindrop, improve durability of the wind mill rotary blade and prolong a maintenance period of the wind mill rotary blade.SOLUTION: A wind mill rotary blade includes: a base material 11 having a skin material formed by a fiber reinforced plastic; protective coating 12 having wear resistance, which is coated on the whole surface of the base material 11; and a protective tape 13 having wear resistance, which is stuck to a front edge in a blade tip part of the protective coating 12.

Description

  The present invention relates to a wind turbine for wind power generation, and more particularly to a wind turbine rotor blade constituting a wind turbine for wind power generation installed on the ocean.

  As a wind turbine rotor blade constituting the wind turbine for wind power generation, for example, the one disclosed in Patent Document 1 is known.

US Patent Application Publication No. 2011/0142678

  Now, with the recent increase in the size of wind turbines for wind power generation, the blade lengths of the wind turbine rotor blades constituting the wind turbine for wind power generation have become longer, and the peripheral speed at the blade tip portion of the wind turbine rotor blades is also increasing. Therefore, there is a possibility that droplet erosion due to raindrops (erosion generated by collision of droplets: a phenomenon in which an object collided by droplet collisions is physically scraped) occurs at the tip of the wind turbine rotor blade. is there.

  The present invention has been made in view of the above circumstances, and protects the base material at the blade tip of the wind turbine rotor blade from droplet erosion caused by raindrops, improves the durability of the wind turbine rotor blade, An object of the present invention is to provide a wind turbine rotor blade capable of extending the maintenance period.

The present invention employs the following means in order to solve the above problems.
A windmill rotor blade according to the present invention includes a base material provided with a skin material formed of fiber-reinforced plastic, a protective paint having wear resistance applied to the entire surface of the base material, and a blade tip of the protective paint. And a protective tape having wear resistance attached to the front edge of the portion.

According to the wind turbine rotor blade according to the present invention, the entire surface of the base material is protected by the protective paint, and the front edge portion at the blade tip portion of the protective paint is protected by the protective tape.
As a result, even if the protective tape is damaged by droplet erosion caused by raindrops, the protective coating placed inside protects the base material from droplet erosion caused by raindrops and improves the durability of the wind turbine rotor blade. The maintenance period of the wind turbine rotor blade can be extended.
Moreover, since the protective tape damaged by the droplet erosion caused by raindrops can be easily replaced, the maintainability can be improved.

  A windmill rotor blade according to the present invention includes a base material provided with an outer skin material formed of fiber-reinforced plastic, a protective paint having wear resistance applied to a front edge portion of a blade tip portion of the base material, and And a protective tape having abrasion resistance attached to the entire surface of the protective coating.

According to the wind turbine rotor blade according to the present invention, the front edge portion at the blade tip portion of the base material is protected by the protective paint, and the entire surface of the protective paint is protected by the protective tape.
As a result, even if the protective tape is damaged by droplet erosion caused by raindrops, the protective coating placed inside protects the base material from droplet erosion caused by raindrops and improves the durability of the wind turbine rotor blade. The maintenance period of the wind turbine rotor blade can be extended.
Moreover, since the protective tape damaged by the droplet erosion caused by raindrops can be easily replaced, the maintainability can be improved.
Furthermore, since the protective coating is applied only to the leading edge portion at the blade tip, the weight and cost of the wind turbine rotor can be reduced.

  In the wind turbine rotor blade, it is more preferable that the leading edge portion at the blade tip portion is a region where droplet erosion due to raindrops may occur.

  According to such a windmill rotor blade, the base material can be reliably protected from droplet erosion caused by raindrops, the durability of the windmill rotor blade can be improved, and the maintenance period of the windmill rotor blade can be extended.

  In the wind turbine rotor, the tip of the blade is 80% to 100% when the blade root is 0% and the blade tip is 100%, or when the wind turbine rotor is rotating at the rated speed. Further, the peripheral speed is in a range of 100 m / sec to 80 m / sec, and when the front edge is 0% in the front edge and 100% in the rear edge, A range of 0% to 10% is more preferable.

  According to such a windmill rotor blade, the base material can be reliably protected from droplet erosion caused by raindrops, the durability of the windmill rotor blade can be improved, and the maintenance period of the windmill rotor blade can be extended.

  A wind turbine for wind power generation according to the present invention includes any one of the wind turbine rotor blades described above.

According to the wind turbine for wind power generation according to the present invention, the base material at the blade tip of the wind turbine rotor blade is protected from droplet erosion caused by raindrops, the durability of the wind turbine rotor blade is improved, and the maintenance period of the wind turbine rotor blade is increased. Since the wind turbine rotor blade can be extended, the maintenance period of the wind turbine for wind power generation can be extended.
Here, the prolongation of the maintenance period is an advantageous advantage particularly for an offshore wind turbine (wind turbine for wind power generation installed on the ocean) that cannot be frequently maintained.

  According to the wind turbine rotor according to the present invention, the base material at the tip of the wind turbine rotor is protected from droplet erosion caused by raindrops, the durability of the wind turbine rotor is improved, and the maintenance period of the wind turbine rotor is extended. There is an effect that can be made.

It is a side view which shows the outline of the windmill for wind power generation provided with the windmill rotary blade which concerns on one Embodiment of this invention. It is the figure which looked at the windmill rotary blade shown in FIG. 1 from upper direction. It is AA arrow sectional drawing of FIG.

Hereinafter, a wind turbine rotor blade according to an embodiment of the present invention will be described with reference to FIGS. 1 to 3.
FIG. 1 is a side view showing an outline of a wind turbine for wind power generation provided with a wind turbine rotor blade according to the present embodiment, FIG. 2 is a view of the wind turbine rotor blade shown in FIG. 1 as viewed from above, and FIG. It is A arrow sectional drawing.

  As shown in FIG. 1, the wind turbine 1 for wind power generation is configured to be rotatable around a substantially horizontal axis line with a column (tower) 3 standing on a foundation 2, a nacelle 4 installed at the upper end of the column 3. The rotor head 5 provided in the nacelle 4 and a plurality of, for example, three windmill rotor blades 6 mounted radially around the rotation axis of the rotor head 5 are provided. The wind force applied to the wind turbine rotor blade 6 from the direction of the rotation axis of the rotor head 5 is converted into power for rotating the rotor head 5 around the rotation axis.

In addition, an anemometer 7 for measuring the peripheral wind speed value, an anemometer 8 for measuring the wind direction, and a lightning rod (not shown) are provided on the upper part of the nacelle 4.
Inside the nacelle 4, although not shown in the figure, a generator connected to the rotor head 5 via a coaxial gearbox is installed. In other words, the generator output is obtained from the generator by driving the generator by increasing the rotation of the rotor head 5 with the gearbox.

  As shown in FIG. 2 or FIG. 3, the wind turbine rotor blade 6 according to the present embodiment includes a base material 11 including an outer skin material (not shown) formed of fiber reinforced plastic, and the entire surface of the base material 11. A protective paint (first protective material) 12 having wear resistance (corrosion resistance) applied, and a protection having wear resistance (corrosion resistance) applied to the leading edge of the blade tip of the paint 12 A tape (second protective material) 13.

  Specific examples of the protective paint 12 having abrasion resistance include, for example, a fluororesin paint (for example, “Sky Hello Top Coat FLV2” or “Sky Hello Top Coat # 400” from Nippon Special Paint Co., Ltd.), polyurethane paint (for example, PPG Aerospace's “Desothane HS Polyurethane Topcoats / CA 8000 Series”) and epoxy paints (eg, PPG Aerospace's “Koropon HS Epoxy Topcoats CA 3000 Series”).

  Specific examples of the abrasion-resistant protective tape 13 include, for example, a polyurethane tape (for example, “3M Wind Blade Protection Tape W8607, W8607R” manufactured by 3M (registered trademark)), and a polyurethane paint (for example, A tape coated with “3M Wind Blade Protection Coating W4600 of 3M (trademark registered) company or polyurethane paint of BASF” can be mentioned.

Here, the blade tip portion to which the protective tape 13 is attached is an area of 80% to 100% when the blade root indicated by reference numeral 21 in FIG. 2 is 0% and the blade tip indicated by reference numeral 22 is 100% ( Range), or a region (range) in which the peripheral speed is 100 m / sec to 80 m / sec, or droplet erosion due to raindrops may occur when the wind turbine rotor 6 rotates at the rated speed. It is a certain area (range).
Moreover, the front edge part to which the protective tape 13 is affixed means 0% to 10% of the back surface when the front edge indicated by reference numeral 31 in FIGS. % Region (range) and 0% to 10% region (range) on the back surface, or a region (range) in which droplet erosion may occur due to raindrops.

According to the wind turbine rotor blade 6 according to the present embodiment, the entire surface of the base material 11 is protected by the protective paint 12, and the leading edge portion at the blade tip portion of the protective paint 12 is protected by the protective tape 13.
As a result, even if the protective tape 13 is damaged by the droplet erosion due to raindrops, the base material 11 is protected from the droplet erosion due to raindrops by the protective coating 12 disposed inside thereof, and the wind turbine rotor 6 The durability can be improved and the maintenance period of the wind turbine rotor blade 6 can be extended.
Moreover, since the protective tape 13 damaged by the droplet erosion caused by raindrops can be easily replaced, the maintainability can be improved.

  The wind turbine 1 for wind power generation according to the present embodiment protects the base material 12 at the tip of the wind turbine rotor blade 6 from droplet erosion caused by raindrops, improves the durability of the wind turbine rotor blade 6, and improves the wind turbine rotor blade 6. Since the wind turbine rotor blade 6 capable of prolonging the maintenance period is provided, the maintenance period of the wind turbine 1 for wind power generation can be prolonged.

The present invention is not limited to the above-described embodiments, and various changes and modifications can be made without departing from the gist of the present invention.
For example, in the embodiment described above, the protective coating 12 is applied to the entire surface of the base material 11 as a specific example, but the present invention is not limited to this. The protective coating 12 may be applied only to the front edge portion of the blade tip, and the protective tape 13 may be applied to the entire surface of the protective coating 12.
Thereby, the weight reduction and cost reduction of the windmill rotor blade 6 can be achieved.

DESCRIPTION OF SYMBOLS 1 Windmill 11 for wind power generation Base material 12 Protective paint 13 Protective tape 21 Blade root 22 Blade tip 31 Leading edge 32 Trailing edge

Claims (5)

A base material with an outer skin formed of fiber reinforced plastic;
A protective paint having wear resistance applied to the entire surface of the base material;
A windmill rotor blade comprising: a protective tape having wear resistance attached to a front edge portion of a tip portion of the blade of the protective paint. A base material with an outer skin formed of fiber reinforced plastic;
A protective paint having wear resistance applied to the leading edge of the wing tip of the base material;
A wind turbine rotor blade comprising: a protective tape having abrasion resistance attached to the entire surface of the protective coating.   The windmill rotor blade according to claim 1 or 2, wherein the leading edge portion of the blade tip portion is a region where droplet erosion due to raindrops may occur. The blade tip has a peripheral speed of 100 m when the blade root is 0% and the blade tip is 100%, or when the wind turbine rotor blade is rotating at the rated rotational speed. / Sec ~ 80m / sec area,
The front edge portion is a region of 0% to 10% on the back surface and a region of 0% to 10% on the back surface when the front edge is 0% and the rear edge is 100%. The windmill rotor blade according to 1 or 2.   A wind turbine for wind power generation, comprising the wind turbine rotor blade according to any one of claims 1 to 4.

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