KR102570857B1 - Nacelle fire sprinkler extinguishing device of wind power generator in the onshore and offshore - Google Patents

Abstract

In a wind power generator including a tower, a nacelle installed on top of the tower, a hub disposed in front of the nacelle, and a plurality of blades coupled to the hub, Fire extinguishing water rise pipe arranged in the tower; a fire extinguishing water movement pipe supplied from the fire extinguishing water riser pipe and disposed inside the nacelle; and a plurality of injection nozzles disposed in the fire extinguishing water moving pipe.

Description

Nacelle fire sprinkler extinguishing device of wind power generator in the onshore and offshore}

The present invention relates to a nacelle fire extinguishing device for a wind power generator, and more particularly, to a nacelle fire extinguishing device for a wind power generator installed on land or at sea.

Recently, new and renewable energy is being expanded to prepare for global warming, and as part of this, the installation of wind power generators is increasing.

A typical wind turbine is shown in FIG. 1 . As shown in FIG. 1, the wind power generator includes a tower 10, a nacelle 20 installed on top of the tower 10, and a plurality of blades 30 connected to the nacelle 20.

The tower 10 of the wind turbine has a height of approximately 80 to 100 m from the ground, and the nacelle 20 is installed on the top of the tower 10.

The nacelle 20 is generally located at an altitude of 80 to 100 m, and its main components are a main bearing that supports the axis of the hub 31, which generally supports three blades 30, and is directly connected to the axis of the hub to adjust the speed. It consists of a gearbox, a generator that converts the rotational force of the hub into electrical energy, an inverter that converts the power produced by the generator, a transformer for power transmission, and a control device.

Therefore, when the three blades 30 are generally rotated by the wind, the wind power generator converts the rotational force into electrical energy in the generator.

However, in a wind turbine, the nacelle 20 is installed compactly because the main core parts must be installed, so the space is narrow. However, it is located at a high altitude, so if a fire occurs due to a facility abnormality, it is difficult to extinguish the first movement by golden time and spread It is almost impossible to extinguish according to this, resulting in human casualties as well as economic losses.

Accordingly, the present invention has been made to solve the problems of the prior art, and an object of the present invention is to provide a nacelle fire sprinkler fire extinguishing device capable of quickly extinguishing a nacelle fire of a wind power generator.

In a wind power generator including a tower, a nacelle installed on top of the tower, a hub disposed in front of the nacelle, and a plurality of blades coupled to the hub, Fire extinguishing water rise pipe 500 disposed in the tower; a fire extinguishing water transfer pipe 540 supplied from the fire extinguishing water riser pipe 500 and disposed inside the nacelle; and a plurality of injection nozzles 600 disposed in the fire extinguishing water movement pipe 540.

In addition, a ground supply pipe disposed on the ground and connected to the fire extinguishing water rising pipe; and a fire hydrant connected to the ground supply pipe.

In addition, a fire extinguishing water supply vehicle for supplying fire extinguishing water connected to the fire hydrant; a pump for supplying the fire extinguishing water supplied to the fire hydrant from the fire extinguishing water supply vehicle to the fire extinguishing water riser; and a generator for operating the pump.

In addition, a bending extension pipe 501 bent at the top of the fire extinguishing water riser pipe and extending toward the center of the tower; a rotation joint 520 connected to an end of the bent extension tube 501; and an upper moving pipe 530 having one end connected to the rotation joint 520 and the other end connected to the fire extinguishing water moving pipe 540.

In addition, the upper moving pipe 530 includes an outer extension pipe 531 having one end connected to the rotation joint 520 and extending horizontally so that the other end is connected to one end of the upper moving pipe 530 .

Also, the rotation joint 520 is disposed on a rotational axis on which the nacelle 200 rotates with respect to the tower.

In addition, inside the nacelle, a gearbox 220 to which the shaft of the hub is connected, a generator 230 to convert the rotational force of the hub into electrical energy, and an inverter 240 to convert the power generated by the generator 230 , and a transformer 250 are disposed, and the injection nozzle 600 is disposed above the gearbox, the generator, the inverter, and the transformer, respectively.

Accordingly, according to the present invention, a nacelle fire extinguishing device capable of extinguishing a nacelle fire within a golden time and quickly extinguishing a nacelle fire of a wind power generator is provided.

1 is a view showing a wind power generator,
2 is a block diagram of a nacelle fire sprinkler fire extinguishing device of a wind power generator according to the present invention;
3 is a view showing the inside of a tower of a wind power generator according to the present invention;
Figure 4 is a partial detail of Figure 3,
Figure 5 is a view showing the inside of the upper part of the wind turbine including the nacelle in the present invention.

Advantages and features of the present invention, and methods of achieving them, will become clear with reference to the detailed description of the following embodiments taken in conjunction with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but will be implemented in various different forms, only these embodiments make the disclosure of the present invention complete, and common knowledge in the art to which the present invention belongs. It is provided to fully inform the holder of the scope of the invention, and the present invention is only defined by the scope of the claims. Thus, in some embodiments, well-known process steps, well-known device structures, and well-known techniques have not been described in detail in order to avoid obscuring the interpretation of the present invention. Like reference numbers designate like elements throughout the specification.

In the drawings, the thickness is shown enlarged to clearly express the various layers and regions. Like reference numerals have been assigned to like parts throughout the specification. When a part such as a layer, film, region, plate, etc. is said to be “on” another part, this includes not only the case where it is “directly on” the other part, but also the case where there is another part in between. Conversely, when a part is said to be "directly on" another part, it means that there is no other part in between. In addition, when a part such as a layer, film, region, plate, etc. is said to be "below" another part, this includes not only the case where it is "directly below" the other part, but also the case where another part is present in the middle. Conversely, when a part is said to be "directly below" another part, it means that there is no other part in between.

The spatially relative terms "below", "beneath", "lower", "above", "upper", etc. It can be used to easily describe the correlation between elements or components and other elements or components. Spatially relative terms should be understood as encompassing different orientations of elements in use or operation in addition to the orientations shown in the figures. For example, when flipping elements shown in the figures, elements described as “below” or “beneath” other elements may be placed “above” the other elements. Thus, the exemplary term “below” may include directions of both below and above. Elements may also be oriented in other orientations, and thus spatially relative terms may be interpreted according to orientation.

In this specification, when a part is said to be connected to another part, this includes not only the case where it is directly connected, but also the case where it is connected with another element interposed therebetween. In addition, when a part includes a certain component, it means that it may further include other components without excluding other components unless otherwise specified.

In this specification, terms such as first, second, and third may be used to describe various components, but these components are not limited by the terms. The terms are used for the purpose of distinguishing one component from other components. For example, a first component may be termed a second or third component, etc., and similarly, a second or third component may be termed interchangeably, without departing from the scope of the present invention.

Unless otherwise defined, all terms (including technical and scientific terms) used in this specification may be used in a meaning commonly understood by those of ordinary skill in the art to which the present invention belongs. In addition, terms defined in commonly used dictionaries are not interpreted ideally or excessively unless explicitly specifically defined.

Hereinafter, a nacelle fire extinguishing device of a wind power generator according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Figure 2 is a block diagram of a nacelle fire sprinkler fire extinguishing device of a wind power generator according to the present invention, Figure 3 is a view showing the inside of a tower of a wind power generator according to the present invention, Figure 4 is a partial detailed view of Figure 3, 5 is a view showing the inside of the top of the wind turbine including the nacelle in the present invention.

Nacelle fire extinguishing device of wind power generator according to the present invention includes a tower 100, a nacelle 200 installed on top of the tower 100, a hub 310 disposed in front of the nacelle 200, and the hub ( 310), fire extinguishing water is supplied from the fire extinguishing water rising pipe 500 disposed in the tower 100, and the fire extinguishing water rising pipe 500 is supplied to the nacelle ( 200) a fire extinguishing water movement pipe 540 disposed inside, and a plurality of spray nozzles 600 disposed in the fire extinguishing water movement pipe 540.

The tower 100 has a height of approximately 80 to 100 m from the ground, a nacelle is disposed on top of the tower 100, and a fire extinguishing water riser pipe 500 is disposed inside the body of the cylindrical tower 100.

As shown in FIGS. 3 and 4, the fire extinguishing water rising pipe 500 is fixed to the inner circumferential surface of the tower 100 to guide the movement of fire extinguishing water from the lower part of the tower 100 to the upper part, and the fire extinguishing water rising pipe The lower part of the 500 is connected to the ground supply pipe 510.

As shown in FIG. 2, the ground supply pipe 510 is installed on the ground to supply fire extinguishing water to the fire extinguishing water rise pipe 500, and one end is connected to the fire water rise pipe 500 and the other end is connected to the fire hydrant 400 It is connected to and supplies the fire extinguishing water supplied through the fire hydrant 400 to the fire extinguishing water riser pipe 500.

When a fire occurs, the fire hydrant 400 is connected to the fire extinguishing water supply vehicle 430, and the fire extinguishing water is supplied from the fire extinguishing water supply vehicle 430 to the fire hydrant 400, and the fire extinguishing water supplied to the fire hydrant 400 is transferred to the fire extinguishing water rise pipe ( A mobile high-pressure pump 410 is arranged to supply 500).

The mobile high-pressure pump 410 is a multi-stage centrifugal pump with a pressure of 15 atmospheres or more and serves to supply fire extinguishing water to the injection nozzle 600 in the nacelle 200.

And, the pump 410 is provided with a separate generator 420 for supplying power to the pump 410 .

The fire extinguishing water riser pipe 500 uses a carbon steel pipe or a product equivalent in strength, corrosion resistance and heat resistance, and a bent extension pipe 501 is disposed on the upper part of the fire water riser pipe 500.

The bending extension pipe 501 connects between the fire extinguishing water rise pipe 500 and the rotating joint 520, and one end is connected to the fire water rise pipe 500 and is bent at the top of the fire water rise pipe 500 to form a tower. 100 extends to the center and the other end is bent upward and connected to the rotation joint 520.

The rotating joint 520 is disposed on the rotation axis A line through which the nacelle 200 rotates with respect to the tower 100, the lower portion of the rotation joint 520 is connected to the end of the bent extension tube 501, and the rotation joint ( 520) is connected to an outer extension pipe 531.

One end of the outer extension tube 531 is connected to the rotation joint 520 and is bent and extended outward so that the other end is connected to the upper moving tube 530. Therefore, the outer extension tube 531 is arranged to rotate 360 degrees about the rotation joint 520 .

As shown in FIG. 5, the upper moving pipe 530 is disposed inside the nacelle 200, and the upper part of the upper moving pipe 530 is connected to the fire extinguishing water moving pipe 540.

The nacelle 200 is disposed on the top of the tower 100, a hub 310 supporting a plurality of blades 300 is disposed in front of the nacelle 200, and a shaft 311 of the hub 310 is disposed in the nacelle. (200). In general, three blades 300 are coupled to the hub 310 .

As shown in FIG. 5, inside the nacelle 200, a main bearing 210 supporting the shaft 311 of the hub 310 along the axial direction of the hub 310 and the shaft 311 of the hub 310 are provided. The connected gearbox 220 and generator 230 are sequentially arranged.

The shaft 311 of the hub 310 is supported by the main bearing 210, the rotational speed is adjusted from the shaft 311 of the hub 310 by the gearbox 220, and the hub ( 310) is converted into electrical energy.

In addition, an inverter 240 for converting the power generated by the generator 230, a transformer 250 for power transmission, and an adjustment device are additionally disposed in the nacelle 200.

Inside the nacelle 200, the upper moving pipe 530 is arranged in the vertical direction as shown, and the fire extinguishing water moving pipe 540 is connected to the upper part of the upper moving pipe 530.

As shown in FIG. 5, the fire extinguishing water movement pipe 540 extends along the axial direction of the hub, and a gear box 220, a generator 230, an inverter 240, and a transformer are installed below the fire extinguishing water movement pipe 540. 250 is placed.

A plurality of injection nozzles 600 for injecting fire extinguishing water are disposed in the fire extinguishing water moving pipe 540, and the injection nozzles 600 are gearbox 220, generator 230, inverter 240, transformer 250 placed on top of each other.

Therefore, when a fire occurs, the fire extinguishing water supply vehicle 430 is connected to the fire hydrant 400 to supply fire extinguishing water to the fire hydrant 400, and the supplied fire extinguishing water is raised through the ground supply pipe 510 by the high pressure pump 410 and the fire water rises. Through the pipe 500, the bent extension pipe 501, the outer extension pipe 531, and the upper moving pipe 530, the fire extinguishing water is supplied to the moving pipe 540, and the fire extinguishing water supplied to the moving pipe 540 is a plurality of spray nozzles It is sprayed from 600 to extinguish the fire in the nacelle 200.

In addition, a camera or a plurality of fire detection sensors (not shown) may be installed inside the nacelle 200 to monitor a fire. The fire detection sensor may include a temperature sensor and a gas detection sensor, and when a certain temperature or higher is detected by the temperature sensor or gas is detected by the gas detection sensor, it may be determined that a fire has occurred.

Further, the fire detection sensor is disposed near the gearbox 220, the generator 230, the inverter 240, and the transformer 250, respectively.

Therefore, when the fire detection sensors disposed near the gearbox 220, the generator 230, the inverter 240, and the transformer 250 respectively detect a temperature higher than a certain temperature or a gas caused by a fire, the control unit (not shown) sprays Fire extinguishing water may be sprayed through the nozzle 600. In addition, the control unit may spray extinguishing water only to a specific part that detects a fire. For example, when a fire detection sensor disposed near the generator 230 detects a fire, only the spray nozzle 600 disposed above the generator 230 may intensively spray fire extinguishing water so as to rapidly extinguish the fire.

Meanwhile, in this embodiment, a wind power generator installed on land has been described as an example, but it may also be applied to a wind power generator installed on the sea. In the case of an offshore wind power generator, seawater can be used as fire extinguishing water, and seawater can be supplied to the fire extinguishing water riser 500 using a high-pressure pump to be used as fire extinguishing water.

Although the present invention has been described with preferred embodiments as described above, it is not limited to the above embodiments, and by those skilled in the art to which the present invention pertains within the scope not departing from the technical spirit of the present invention Various changes and modifications will be possible.

100: tower 200: nacelle
300: blade 310: hub
400: fire hydrant 410: pump
420: generator 430: fire extinguishing water supply vehicle
500: fire extinguishing water rise pipe 501: bending extension pipe
510: ground supply pipe 520: rotation joint
530: upper moving pipe 531: outer extension pipe
540: fire extinguishing water movement pipe 600: injection nozzle

Claims (7)

In a wind power generator including a tower, a nacelle installed on top of the tower, a hub disposed in front of the nacelle, and a plurality of blades coupled to the hub,
Fire extinguishing water rise pipe 500 disposed in the tower;
a fire extinguishing water transfer pipe 540 supplied from the fire extinguishing water riser pipe 500 and disposed inside the nacelle;
A plurality of injection nozzles 600 disposed in the fire extinguishing water movement pipe 540;
a bent extension pipe 501 bent at the upper end of the fire extinguishing water riser pipe 500 and extending toward the center of the tower;
a rotation joint 520 connected to an end of the bent extension pipe 501; and
an upper moving pipe 530 having one end connected to the rotation joint 520 and the other end connected to the fire extinguishing water moving pipe 540;
including,
The upper moving pipe 530 has one end connected to the rotating joint 520 and extending outwardly, and the other end connected to one end of the upper moving pipe 530 and rotatably disposed around the rotating joint 520 Nacelle fire sprinkler fire extinguishing device of a wind power generator including an outer extension pipe (531). According to claim 1,
A ground supply pipe 510 disposed on the ground and connected to the fire extinguishing water ascending pipe 500; and
A fire hydrant 400 connected to the ground supply pipe 510;
A nacelle fire sprinkler fire extinguishing device of a wind power generator further comprising a. According to claim 2,
A fire extinguishing water supply vehicle 430 connected to the fire hydrant 400 to supply fire extinguishing water;
A pump 410 for supplying the fire extinguishing water supplied to the fire hydrant 400 from the fire extinguishing water supply vehicle 430 to the fire extinguishing water uplift pipe 500; and
a generator 420 for operating the pump;
A nacelle fire sprinkler fire extinguishing device of a wind power generator further comprising a. delete delete According to claim 1,
The rotational joint 520 is disposed on a rotation axis (A) line on which the nacelle 200 rotates with respect to the tower. According to claim 1,
Inside the nacelle, a gearbox 220 to which the shaft 311 of the hub 310 is connected, a generator 230 that converts the rotational force of the hub into electrical energy, and a generator that converts the power generated by the generator 230 An inverter 240 and a transformer 250 are disposed,
The spray nozzle 600 is disposed above the gearbox 220, the generator 230, the inverter 240, and the transformer 250, respectively.

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