KR20130062009A - Rotor shaft locking apparatus for wind power generator - Google Patents

Abstract

PURPOSE: A rotary shaft locking apparatus of a wind power generator is provided to reduce working hours by making a locking rod to be locked in a locking hole, and to have no need for installing a senor or other equipment to find an exact locking position. CONSTITUTION: A rotary shaft locking apparatus of a wind power generator includes a locking plate(10) and a locking device(20). The locking plate is installed on a rotor of the wind power generator, and provided with multiple locking holes(11) on the circumferential surface. The locking device is provided on a nacelle of the wind power generator, and equipped with a locking rod(21) which is inserted in the locking hole for the locking plate to be locked.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a rotary shaft lock device for a wind turbine generator,

The present invention relates to a rotation shaft locking device for a wind turbine, and more particularly, to a rotation shaft locking device for a wind turbine that prevents rotation of the rotor during maintenance or installation of the wind generator.

Wind power refers to a power generation system that turns a wind turbine by natural wind and drives the generator by increasing the speed by using a gear mechanism. Wind power is a non-polluting energy source in the natural state. It is the most economical energy source among the alternative energy sources. It is a technology that directly supplies power generated by converting the wind power into rotational power to the power system or consumer.

A wind turbine is a device that converts wind energy into mechanical energy using various types of windmills, and drives the generator with this mechanical energy to obtain electric power. Unlike conventional power generation systems using fossil fuels and uranium, these wind power generators are pollution-free power generation systems that do not have problems such as heat generation due to heat generation, air pollution, and radioactive leaks, because wind power, which is an infinite clean energy, is used as a power source.

In wind power, wind energy is converted into electric energy by using wings. In theory, only 59.3% of the wind energy of the wing can be converted into electric energy. Considering the efficiency depending on the shape of the wing, the mechanical friction, and the efficiency of the generator, practically, only 20 to 40% can be used as electric energy.

The wind turbine generator is divided into a horizontal axis generator and a vertical axis generator according to the direction in which the rotation axis of the blade is laid. Vertical axis wind turbine is a wind turbine in which the axis of rotation is perpendicular to the wind direction. This generator can be operated irrespective of the direction of the wind (yawing system is not necessary), the load is relatively low because the generator and the generator are installed on the ground. The construction cost is low. However, there is a disadvantage in that the total system efficiency is low, self-starting is impossible, and a starting torque is required.

Since the vertical axis generators are less efficient than the horizontal axis generators, the wind turbines currently being used are mostly horizontal axis generators. The horizontal axis wind turbine is a wind turbine that is horizontal in the direction of wind blowing and is recognized as the most stable and highly efficient wind turbine.

Horizontal axis wind turbines can also be divided into three, two, and one. The two-wing type is mostly in the large-scale generator (estimated 3-6 megawatts) installed on the sea, and the wind turbine on the ground has mostly three wings. It also depends on whether the force from the wind is transmitted to the generator or whether the force is transmitted directly without any intermediary other than the wing.

On the other hand, if you look at the main components of the wind turbine, the wind turbine is a device that converts the energy of the wind into rotational force, the blade (blade) connected to the rotating body, and the turbine and mechanical brake system Brake system that operates on the principle of braking the rotor with maximum aerodynamic resistance by rotating the pitch angle 90 degrees so that the blade main cord direction is perpendicular to the plane of rotation, and a constant power regardless of the wind strength It is composed of a driving system for producing a, and a tower (Tower) for supporting the rotor.

1 is a view schematically showing a rotation shaft locking device of the wind power generator according to an embodiment of the prior art, Figure 2 is a locking device of the locking device in the locking hole of the locking plate in the rotation shaft locking device of the wind turbine shown in FIG. FIG. Is a view schematically showing a locked state of a rod.

As shown in FIG. 1, the rotary shaft locking device for a wind turbine according to an embodiment of the present invention includes a ring-shaped locking plate 110 through which a rotary shaft S of a rotor R passes, And a locking unit 120 inserted into a plurality of locking holes 111 provided in the locking plate 110 to prevent the locking plate 110 from rotating.

When the wind turbine is not repaired or driven for a long time, a rotation shaft locking device for inserting the locking rod 121 into the locking hole 111 to fix the rotation shaft S is used.

In the rotating shaft locking device according to the exemplary embodiment of the prior art, since there is almost no tolerance between the locking rod 121 and the locking hole 111, the locking rod 121 is connected to the locking hole 111. Difficult to insert and time consuming

Specifically, since there is almost no tolerance between the locking hole 111 and the locking rod 121, the locking shaft 111 is moved little by little to insert the locking rod 121 into the locking hole 111, and the locking hole 111 and the locking rod ( Since the position of 121) or additional mounting of the sensor to find the coupling position takes a long time and wastes manpower and money.

Korean Patent Registration No. 10-0934205 (Hyosung Corporation) Dec. 18, 2009

Therefore, the technical problem to be achieved by the present invention, the locking rod for fixing the rotating shaft can be easily locked to the locking hole to shorten the working time, the need of installing a sensor and other devices to find the exact locking position of the wind power generator It is to provide a rotating shaft locking device.

According to an aspect of the invention, the locking plate is provided on the rotating shaft of the rotor of the wind power generator is provided with a plurality of locking holes on the outer peripheral surface; And a locking device provided in the nacelle of the wind turbine and having a locking rod inserted into the locking hole to lock the locking plate, wherein the locking hole extends from the center of the locking plate toward the outer circumferential surface of the locking plate. The length of the direction is provided longer than the length of the horizontal direction of the longitudinal direction, the locking rod is provided in a shape corresponding to the locking hole, when the locking rod is inserted into the locking hole and the locking rod and the locking hole There is no contact area between the two, and when the locking rod is rotated, the rotation axis locking device of the wind turbine, characterized in that the longitudinal wall portion of the locking hole and the horizontal outer peripheral surface of the locking rod in contact with each other to lock the locking plate. have.

The locking hole may be manufactured in a rectangular shape with rounded corners, and the locking rod may be manufactured in an elliptic shape.

In addition, according to another embodiment of the present invention, in order to prevent the rotation of the rotor during maintenance or installation of the wind power generator is installed on the rotating shaft of the rotor and provided with a plurality of locking holes, and inserted into the locking hole The rotation shaft locking device of a wind turbine comprising a locking device having a locking rod for locking the locking plate, wherein the locking hole has a length in the longitudinal direction from the center of the locking plate toward the outer circumferential surface direction of the locking plate. It is provided longer than the length of the horizontal direction, the locking rod is provided in a shape corresponding to the locking hole, characterized in that for locking the locking plate by contact friction with the locking hole by rotation in the locking hole. Rotation axis locking device of the wind turbine can be provided.

Embodiments of the present invention, the locking rod for fixing the rotating shaft can be easily locked to the locking hole to reduce the work time, it is not necessary to install the sensor and other devices to find the exact locking position can reduce the cost .

1 is a view schematically showing a rotation shaft locking device of a wind power generator according to an embodiment of the prior art.
FIG. 2 is a view schematically illustrating a state in which the locking rod of the locking device is locked in the locking hole of the locking plate in the rotation shaft locking device of the wind power generator shown in FIG. 1.
3 is a view schematically showing a rotation shaft locking device of the wind power generator according to an embodiment of the present invention.
4 is a view schematically illustrating a state in which the locking rod of the locking device is locked in the locking hole of the locking plate in the rotation shaft locking device of the wind power generator shown in FIG. 3.
5 is a view sequentially showing a state in which the locking rod is fastened to the locking hole of the locking plate shown in FIG.

In order to fully understand the present invention, operational advantages of the present invention, and objects achieved by the practice of the present invention, reference should be made to the accompanying drawings and the accompanying drawings which illustrate preferred embodiments of the present invention.

Hereinafter, the present invention will be described in detail with reference to the preferred embodiments of the present invention with reference to the accompanying drawings. Like reference symbols in the drawings denote like elements.

3 is a view schematically showing a rotation shaft locking device of the wind turbine according to an embodiment of the present invention, Figure 4 is a locking device of the locking device in the locking hole of the locking plate in the rotation shaft locking device of the wind turbine shown in FIG. FIG. Is a view schematically showing a locked state of a rod.

As shown in these drawings, the rotation shaft locking device 1 of the wind power generator according to the present embodiment is installed in the rotor R of the wind power generator and the locking plate 10 provided with a plurality of locking holes 11 on the outer circumferential surface thereof. And a locking device 20 provided in the nacelle N and having a locking rod 21 inserted into the locking hole 11 to lock the locking plate 10.

The locking plate 10 is a ring-shaped plate which is installed in the rotor R and penetrates the rotation shaft S to the center thereof, and as illustrated in FIGS. 3 and 4, a plurality of locking plates 10 are provided on the outer circumferential surface of the locking plate 10. The locking hole 11 is provided.

As shown in FIG. 4, the locking rod 21 is inserted into and coupled to the locking hole 11 to prevent rotation of the locking plate 10, and the rotation shaft S is provided on the locking plate 10. 10) is coupled to rotate integrally so that the rotation of the rotary shaft (S) is also prevented.

In this embodiment, the locking hole 11, as shown in Figures 3 and 4, is formed in a rectangular shape with rounded corners, but the locking rod to enable the rotation of the locking rod 21 in the interior of the locking hole 11 It has a volume larger than 21.

Therefore, unlike the embodiment of the prior art, the locking rod 21 can be easily inserted into the locking hole 11, thereby reducing the work time for inserting the locking rod 21 into the locking hole 11, and an accurate insertion position. This eliminates the need to install additional sensors and other equipment to find the cost.

Although the shape of the locking hole 11 is illustrated in a substantially rectangular shape in the drawing, the shape of the locking hole 11 is not limited thereto. If the length in the longitudinal direction is provided longer than the length in the horizontal direction can be produced in any shape, the scope of the present invention is not limited to the right range of the locking hole 11 has a rectangular shape.

As shown in FIG. 3, the locking device 20 locks the locking rod 21 installed in the nacelle N and installed in the front portion to the locking hole 11 of the locking plate 10 to lock the locking plate ( 10) prevents rotation.

In the present embodiment, the locking device 20 rotates the inserted locking rod 21 in the locking hole 11 in addition to the function of inserting the locking rod 21 into the locking hole 11 and the locking rod 21. It has a function of locking by the frictional contact of the locking hole (11).

In addition, in the present exemplary embodiment, the locking rod 21 may have a shape corresponding to the locking hole 11 as shown in an oval shape (see FIG. 5A). In this embodiment, the shape corresponding to the locking hole 11 refers to the shape of the locking plate 10 at the center of the locking plate 10 on the basis of the shape of the locking rod 21 after being inserted into the locking hole 11 and before being rotated. It means the shape in which the length of the longitudinal direction to an outer peripheral surface direction is provided longer than the length of the horizontal direction of a longitudinal direction.

In addition, in the present embodiment, the locking rod 21 has a smaller size than the locking hole 11 since the locking rod 21 should be rotatable inside the locking hole 11 for locking after being inserted into the locking hole 11. After the locking hole 11 has to be locked by the contact friction force, the longitudinal length of the locking rod 21 may be manufactured to be the same as the horizontal length of the locking hole 11.

5 is a view sequentially showing a state in which the locking rod 21 is fastened to the locking hole of the locking plate shown in FIG. Hereinafter, a fastening process of the rotation shaft locking device 1 of the wind power generator according to the present embodiment will be described with reference to FIG. 5.

First, as shown in (a) of FIG. 5, the locking rod 21 is inserted into the locking hole 11 of the locking plate 10 by the operation of the locking device 20 (see FIG. 3). In this state, since the locking hole 11 is larger in size than the locking rod 21, it can be seen that the locking rod 21 is easily inserted.

Next, as shown in (b) of FIG. 5, the inserted locking rod 21 is rotated 90 ° to the right so that the outer circumferential surface of the locking rod 21 is in close contact with the vertical wall of the locking hole 11. Keep your status.

As described above, in the present embodiment, the locking hole 11 is made larger than the locking rod 21, but the locking rod 21 and the locking hole 11 can be locked to fix the rotating shaft S. The locking rod 21 can be easily locked to the locking hole 11 to shorten the working time, and there is no need to install sensors and other devices in order to find the correct locking position, thereby reducing costs.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention. Accordingly, such modifications or variations are intended to fall within the scope of the appended claims.

1: Rotation axis locking device of wind power generator 10: Locking plate
11: locking hole 20: locking device
21: locking rod H: hub
N: Nacelle R: Rotor
S: axis of rotation

Claims (3)

A locking plate installed in the rotor of the wind power generator and having a plurality of locking holes provided on an outer circumferential surface thereof; And
A locking device provided in the nacelle of the wind turbine and having a locking rod inserted into the locking hole to lock the locking plate,
The locking hole has a length in the longitudinal direction from the center of the locking plate in the direction of the outer peripheral surface of the locking plate is longer than the length in the horizontal direction of the longitudinal direction, the locking rod is provided in a shape corresponding to the locking hole ,
When the locking rod is inserted into the locking hole, there is no contact area between the locking rod and the locking hole, and when the locking rod is rotated, the longitudinal wall portion of the locking hole and the horizontal outer circumferential surface of the locking rod are in contact with each other to lock the locking rod. Rotary shaft locking device of the wind turbine, characterized in that for locking the plate. The method according to claim 1,
The locking hole is made of a rectangular shape with rounded corners,
The locking rod is a rotation shaft locking device of the wind turbine, characterized in that the elliptic shape is manufactured. A locking device provided with a locking plate installed in the rotor and provided with a plurality of locking holes to prevent rotation of the rotor during maintenance or installation of the wind power generator, and a locking rod inserted into the locking hole to lock the locking plate. In the rotation shaft locking device of a wind turbine comprising:
The locking hole has a length in the longitudinal direction from the center of the locking plate in the direction of the outer peripheral surface of the locking plate is longer than the length in the horizontal direction of the longitudinal direction, the locking rod is provided in a shape corresponding to the locking hole The rotation shaft locking device of the wind power generator, characterized in that for locking the locking plate by contact friction with the locking hole by the rotation inside the locking hole.

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