KR101330752B1 - Test device of yaw drive and pitch drive for wind power generator - Google Patents

Abstract

The present invention relates to an apparatus for testing a yaw drive and pitch drive for a wind power generator, and, more specifically, to the apparatus for testing the performances of the yaw drive and pitch drive installed at the wind power generator, and discloses the apparatus including: a base having a space inside; a mounting hole being formed at the upper side of the base and on which the yaw drive or pitch drive to be tested is mounted so that the output part of the yaw drive or pitch drive is placed in a space formed inside the base; a rack being engaged with the output part of the yaw drive or pitch drive, which is inserted inside the base through the mounting hole, and converting the rotational motion of the output part into the linear motion of the output part; a guide being inside the base and guiding the linear motion of the rack; and a hydraulic cylinder being connected to the lack, which linearly moves along the guide, and applies a load on the linear motion of the rack, wherein at least two mounting holes are formed at the upper side of the base, and the rack and hydraulic cylinder are installed at each mounting hole. Therefore, the present invention separately or simultaneously tests multiple yaw drives and pitch drives to be tested, thereby quickly gaining test results.

Description

TEST DEVICE OF YAW DRIVE AND PITCH DRIVE FOR WIND POWER GENERATOR}

The present invention relates to a test apparatus for a wind drive yaw drive and a pitch drive, more specifically, a plurality of mounting holes are formed on the upper surface of the base and linear movement of the rotational movement of the output of the yaw drive or pitch drive for each of the mounting holes. It relates to a test device for a yaw drive and pitch drive for a wind power generator, which is installed with a rack for converting the load into a hydraulic cylinder which loads the rack, so that a plurality of yaw drives and pitch drives can be tested individually or simultaneously.

In general, the wind generator is a device that converts the energy of the wind into electrical energy, and rotates the blades of the wind generator to produce electricity by the rotational force of the blades generated at this time. Wind generators are devices that convert wind energy into electrical energy. That is, the wind rotates the blades of the wind generator can produce electricity by the rotational force of the blades generated at this time.

The wind kinetic energy used in the wind generators, compared with the energy using fossil fuels such as petroleum and coal, has no emission of pollutants, and there is a risk of depletion of resources due to not using fossil fuels with limited reserves. In addition, the use of natural energy as compared to nuclear energy, which has a high possibility of leakage of radioactivity, has been spotlighted as environmentally friendly energy due to its high stability.

The wind generator using the wind as described above is composed of a tower fixed to the ground and the top of the tower is installed in the top of the tower (NACELLE) and the generator is installed in the blade and the blade rotated by the wind connected to the shaft of the generator of the nussel do.

In particular, in the wind generator as described above, the yaw DRIVE is installed in the tower and the nussel so as to increase the power generation efficiency by allowing the nussel to rotate in the direction of the wind blowing, and the pitch of the angle of each blade is adjusted in the nussel. PITCH DRIVE is installed.

Particularly, the yaw drive and the pitch drive are provided with an input unit such as a drive motor or a servo motor which largely converts electric energy into a rotational motion, and a deceleration unit for converting the rotational force provided from the input unit to an appropriate rotational speed and the rotational force through the deceleration unit. It consists of an output unit for rotating the nussel or blade.

Yaw drive and pitch drive installed in the wind power generator having such a configuration can be reduced in replacement and repair during use, because the use of a durable one because there is a difference in the direction and strength of the wind depending on the installation environment of the wind generator.

Therefore, a test procedure for testing the performance of the yaw drive and the pitch drive is required before the yaw drive and the pitch drive are mounted in the wind generator. To this end, conventionally, the yaw drive and the pitch drive are continuously generated to perform forward and reverse cycle test of the yaw drive or the pitch drive, accelerated life test accommodating 120% of the rated torque, monitoring and recording drive torque. In this case, the performance is checked by a test apparatus provided with a rotating body corresponding to the yaw drive or the pitch drive to be tested to generate a load on the yaw drive or the pitch drive.

However, in the conventional test apparatus as described above, when a rotor corresponding to the yaw drive or pitch drive to be tested is to be installed in the test apparatus, the yaw drive or pitch drive having different specifications and performances is to be responded to. It is inconvenient to install the rotating body to the test apparatus.

In particular, the rotor installed in the test apparatus for testing the yaw drive or pitch drive has a structure similar to that of the yaw drive or the pitch drive to be tested, so the load is heavy, making it difficult to replace the rotor and making noise during operation. There is a problem that occurs.

In addition, since the rotating body installed in the test apparatus has a structure similar to the yaw drive or the pitch drive, the volume thereof is large and the space occupied by the test apparatus in the workshop has a problem that the space utilization of the workshop is limited.

Republic of Korea Patent Publication No. 10-2009-0061265 (2009.06.16)

The present invention is to solve the above problems, to provide a test apparatus for a yaw drive and pitch drive for a wind generator that can be tested individually or simultaneously by mounting a plurality of yaw drive and pitch drive to be tested. There is this.

In addition, replacement can be done quickly and easily without taking up a lot of space, and you can test the performance of the yaw drive or pitch drive by continuously generating loads corresponding to the yaw drive or pitch drive you are testing. It is an object of the present invention to provide a test apparatus for a yaw drive and a pitch drive for a wind power generator which does not generate noise during operation.

According to the technical idea of the present invention for achieving the above object, in the test apparatus for testing the performance of the yaw drive or pitch drive installed in the wind power generator, the base having a space therein, and the upper surface of the base A mounting hole in which the yaw drive or pitch drive is mounted so that the output portion of the yaw drive or pitch drive to be formed and tested is located in a space formed inside the base, and the yaw drive or pitch drive inserted into the base through the mounting hole. The rack is engaged with the output and converts the rotational movement of the output into a linear motion, a guide for guiding the linear motion of the rack inside the base, and a rack that linearly moves along the guide to provide a load to the linear motion of the rack. Including hydraulic cylinder, but written on the upper surface of the base Forming more than one mounting hole and, wind generators characterized in that the mount for each hole, each rack and the guide cylinder and hydraulic installation required is achieved by a test device of the drive and pitch drive.

Here, the hydraulic cylinder is preferably provided on both sides symmetrically about the rack.

In addition, one end of the hydraulic cylinder is connected by a supporter and a hinge formed in the base, the rod is stretched at the other end of the hydraulic cylinder is preferably connected by a bracket and a hinge detachable to the rack.

In addition, the yaw drive or pitch drive in which the output unit is inserted into the base through the mounting hole is preferably fixed to the upper surface of the base by a flange joint.

In addition, it is preferable that an observation window is formed on the upper surface of the base to observe the operating state of the rack.

According to the test apparatus of the wind drive yaw drive and pitch drive according to the present invention, it is possible to test a plurality of yaw drives and pitch drives to be tested individually or simultaneously to obtain quick test results.

In addition, a rack for converting the rotational movement of the yaw drive or the pitch drive output into a linear motion is installed inside the base on which the yaw drive or the pitch drive is mounted so that the volume thereof can be made small so that the test apparatus occupies the workplace. By minimizing space, it is possible to maximize space utilization in the workplace.

In addition, when testing a yaw drive or pitch drive having different specifications and performances from the yaw drive or pitch drive that has been tested in the test apparatus of the present invention, after the test hole is completed, the yaw drive or pitch drive is separated. Various types of yaw drive or pitch drive are tested by installing a rack having teeth that engage the output of the yaw drive or pitch drive to be newly tested through an observation window and then mounting a new yaw drive or pitch drive in the mounting hole. You can quickly test it.

In addition, the test apparatus of the present invention that has a structure for converting the rotational motion of the output of the yaw drive or pitch drive as a linear motion as described above to test the performance of the yaw drive or pitch drive, the structure is simple, the minimum number of parts Furnace performance can be tested, minimizing the noise generated by bonding each component to transmit power, reducing noise and improving working conditions in the workplace.

1 is a perspective view showing a test apparatus of a yaw drive and a pitch drive for a wind generator of the present invention.
Figure 2 is an exploded perspective view showing a test apparatus of the yaw drive and pitch drive for a wind generator of the present invention.
Figure 3 is a cross-sectional view showing a test apparatus of the yaw drive and pitch drive for a wind generator of the present invention.
Figure 4 is a plan view showing a test apparatus of the yaw drive and pitch drive for a wind generator of the present invention.
5 is a plan view showing the operating state of the test apparatus of the yaw drive and pitch drive for a wind generator according to the present invention.

The terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary meanings and the inventor may properly define the concept of the term to describe its invention in the best possible way And should be construed in accordance with the principles and meanings and concepts consistent with the technical idea of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view showing a test device of the wind drive yaw drive and pitch drive of the present invention, Figure 2 is an exploded perspective view showing a test device of the yaw drive and pitch drive for a wind generator of the present invention, Figure 3 is the present invention Is a cross-sectional view showing a test apparatus for a yaw drive and a pitch drive for a wind generator.

Referring to the drawings, the test apparatus 100 of the yaw drive and pitch drive for a wind generator according to the present invention is a base 110, the yaw drive or pitch is mounted on the yaw drive or pitch drive 10 to be largely tested Mounting holes 112 formed on the upper surface of the base 110 into which the output 16 of the drive 10 is inserted, and installed inside the base 110, the output 16 of the yaw drive or pitch drive 10. ), The rack 120 for converting the rotational motion of the output unit 16 into linear motion, the guide 130 for guiding the linear motion of the rack 120, and applying a load to the linear motion of the rack 120. The hydraulic cylinder 140 is configured.

In particular, the test device 100 of the yaw drive and pitch drive for a wind power generator according to the present invention is mounted on the upper surface of the base 110 so that a plurality of yaw drives and pitch drives 10 can be individually or simultaneously tested. At least two or more mounting holes 112 are formed, and each of the mounting holes 112 is provided with a rack 120, a guide 130, and a hydraulic cylinder 140.

In other words, the base 110 has a substantially rectangular box shape and a space is formed therein. That is, the base 110 has a substantially rectangular shape and has a predetermined height when viewed in a plan view as shown in FIG. 4, and the output portion 16 of the yaw drive or pitch drive 10 to be tested therein. Space is formed.

Such, the base 110 may be made of a structure in which the upper surface is separated in some cases and fixed to the side wall of the base 110 and the bolt fastening. In addition, the mounting hole 112 is formed on the upper surface of the base 110 so that the output 16 of the yaw drive or pitch drive 10 to be tested is located in the space formed inside the base 110.

The mounting hole 112 is formed of an opening of an area through which the output portion 16 of the yaw drive or pitch drive 10 to be tested may be entered, and the yaw drive or pitch drive 10 may be inserted into the mounting hole 112. When the output unit 16 of) is inserted, the yaw drive or the pitch drive 10 is fixed by flange joint so as to be stably fixed to the upper surface of the base 110.

At least two or more mounting holes 112 are formed on an upper surface of the base 110. As shown in the drawing, mounting holes 112 are formed at one side and the other side of the base 110, and in some cases, Mounting holes 112 may be formed on the base 110 in all directions.

In addition, an observation window 116 is formed on an upper surface of the base 110 to observe an operating state of the rack 120 to be described in detail below, and an observation window 116 formed on the upper surface of the base 110. The area of) is such that the rack 120 installed in the inner space of the base 110 can be drawn in or drawn out through the observation window 116, and this observation window 116 corresponds to the mounting hole 112. Is formed on the base 110.

Thus, when the observation window 116 is formed on the upper surface of the base 110, the operator checks the movement of the rack 120 through the observation window 116, or the observation window to replace and repair the rack 120 116 can be performed.

On the other hand, inside the base 110 is engaged with the output 16 of the yaw drive or pitch drive 10, the rack 120 for converting the rotational movement of the output 16 to linear movement mounting hole 112 It is installed every time.

As shown in the drawing, the rack 120 has teeth formed toward the mounting hole 112 formed on the upper surface of the base 110, and thus located within the base 110 through the mounting hole 112. Meshes with the output 16 of the drive or pitch drive 10.

Here, the output 16 of the yaw drive or pitch drive 10 is made of a power transmission element such as a spur gear, so that the yaw drive or pitch drive 10 has a mounting hole formed on the upper surface of the base 110 ( When the output unit 16 is positioned inside the base 110 through 112, the rack unit 120 is engaged with the rack 120 provided inside the base 110. When the yaw drive or the pitch drive 10 is operated, the output unit 16 is operated. The rotational movement of the output unit 16, the rack 120 is converted into a linear motion of the rack 120, the rack 120 in the interior space of the base 110 to slide left and right.

In addition, the guide 130 in the inner space of the base 110 to stably guide the linear movement of the rack 120 when the rack 120 is slid left and right in the inner space of the base 110. Is installed for each mounting hole 112.

The guide 130 is installed on the bottom surface of the base 110, the rack 120 is seated on the top of the guide 130 is installed so that the rack 120 is linear movement along the guide 130 or rod-shaped Guides penetrate the rack 120 to the left and right, so that the rack 120 is located at a predetermined height from the bottom of the base 110, the rack 120 can be installed to linearly move along the guide 130. There will be.

That is, the guide 130 is the rack 120 when the rack 120 is engaged with the output unit 16 of the yaw drive or pitch drive 10 to convert the rotational movement of the output unit 16 into a linear movement to slide the rack 120. It is sufficient to have a structure that can play a role of guiding the stable running.

On the other hand, when the rack 120 is installed in each of the mounting holes 112 in the inner space of the base 110 as described above, the hydraulic cylinder 140 to load the linear motion of the rack 120, each rack 120 Installed in conjunction with).

The hydraulic cylinder 140 has a rod 142 installed at the other end of the hydraulic cylinder 140 is drawn out or drawn from the hydraulic cylinder 140 by the pressure action of the fluid supplied from the outside to the hydraulic cylinder 140 from the outside Has a structure.

The hydraulic cylinder 140 is provided on both sides symmetrically about each rack 120 linearly moving in the inner space of the base 110, as shown in Figures 1 to 5 provided on one side of the rack 120 When the rod 142 of the cylinder 140 is drawn out, the rod 142 of the hydraulic cylinder 140 provided on the other side of the rack 120 is installed inside the base 110 in a drawn-in structure.

Each of the hydraulic cylinders 140 has one end connected to the supporter 150 and a hinge formed in the base 110, and the rod 142 which is stretched at the other end of the hydraulic cylinder 140 is the rack 120. It is connected by the bracket 160 and the hinge to be removed.

On the other hand, the rack 120 and the bracket 160 that is detachable is fixed to the rack 120 by a fastening member such as a bolt to the rack 120 and the bracket 160 in accordance with the assembly or disassembly of the fastening member, if necessary It can be easily removed.

The operation of the test apparatus 100 of the yaw drive and pitch drive for a wind power generator according to the present invention having the configuration as described above will be described with reference to FIGS. 4 and 5.

Figure 4 is a plan view showing a test apparatus of a wind drive yaw drive and a pitch drive of the present invention, Figure 5 is a plan view showing an operating state of the test apparatus of a wind drive yaw drive and pitch drive according to the present invention.

Referring to the drawings, the test apparatus 100 of the yaw drive and pitch drive for a wind power generator according to the present invention individually or simultaneously tests the load on a plurality of yaw drive and pitch drive 10 used in the wind generator The yaw drive or pitch drive 10 to be tested is installed in a vertical line for each mounting hole 112 formed in the upper surface of the base 110.

Thus, the yaw drive or pitch drive 10 provided for each mounting hole 112 formed on the upper surface of the base 110 is suitable for the rotational force provided from the input unit 12 and the input unit 12, such as a drive motor or a servo motor. The output unit 16 is composed of an output unit 16 such as a spur gear that rotates a nucleus or a blade by a rotational force through the reduction unit 14 and the reduction unit 14 for converting the rotational speed. It is engaged with the rack 120 installed in the interior space of 110.

When a plurality of yaw drive or pitch drive 10 to be tested is mounted on the test apparatus 100 of the present invention, the yaw drive or pitch drive 10 starts to operate to test its load performance.

At this time, each of the hydraulic cylinder 140 is installed in the input 12 and the internal space of the base 110 of the yaw drive or pitch drive 10 to load the rack 120 to control, record, It is connected to a control unit (not shown).

That is, the input unit 12 of the yaw drive or pitch drive 10 is connected to the control unit so that the state when the input unit 12 is operated by the control unit is received by the control unit, and the hydraulic cylinder 140 is connected to the control unit. The state when the hydraulic cylinders 140 are individually or simultaneously operated by the controller is recorded and output to the controller.

For example, when the yaw drive and the pitch drive 10 mounted to the test apparatus 100 of the present invention are operated, the fluid is supplied to the respective hydraulic cylinders 140 and the load is applied to the rack 120. Alternatively, by continuously applying a load to the rotational movement of the output 16 of the pitch drive 10, the forward and reverse cycle test of the yaw drive or pitch drive 10, the acceleration life of 120% of the rated torque Test results such as test and drive torque monitoring can be derived.

In particular, the test apparatus 100 of the yaw drive and pitch drive for a wind generator according to the present invention can be tested individually or simultaneously by mounting a plurality of yaw drives and pitch drives 10 to be tested to obtain quick test results. Can be.

In addition, a rack 120 for converting the rotational movement of the yaw drive or the pitch drive 10 into the linear motion 16 into a linear motion is installed inside the base 110 on which the yaw drive or the pitch drive 10 is mounted. The volume can be reduced to minimize the space occupied by the test device 100 in the workplace to maximize the space utilization in the workplace.

And, if you want to test the yaw drive or pitch drive 10 that differs in size and performance from the yaw drive or pitch drive 10 tested in the test apparatus 100 of the present invention from the mounting hole 112 After removing the tested yaw drive or pitch drive 10, the rack 120 having the teeth engaged with the output 16 of the yaw drive or pitch drive 10 to be newly tested is observed through the observation window 116. By installing and testing a new yaw drive or pitch drive 10 in the mounting hole 112, it is possible to quickly test the yaw drive or pitch drive 10 having a variety of specifications.

In addition, the test apparatus of the present invention having a structure for converting the rotational motion of the output portion 16 of the yaw drive or pitch drive 10 as a linear motion as described above to test the performance of the yaw drive or pitch drive 10 Since the structure is simple, the performance can be tested with a minimum number of parts, the friction noise generated by the adhesion of each part is minimized to transmit power, thereby reducing noise and improving the working environment in the workplace. have.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. .

10: yaw drive or pitch drive
12 input unit 14 reduction unit
16: output unit 100: test apparatus
110: base 112: mounting hole
116: observation window 120: rack
130: guide 140: hydraulic cylinder
142: load 150: supporter
160: Bracket

Claims (5)

In the test apparatus for testing the performance of the yaw drive or pitch drive 10 installed in the wind power generator,
A base 110 having a space formed therein;
The yaw drive or the pitch drive 10 is mounted on the upper surface of the base 110 so that the output 16 of the yaw drive or the pitch drive 10 to be tested is located in a space formed inside the base 110. Mounting holes 112;
The rack 120 meshes with the output portion 16 of the yaw drive or pitch drive 10 inserted into the base 110 through the mounting hole 112 to convert the rotational movement of the output portion 16 into linear movement. );
A guide 130 for guiding the linear motion of the rack 120 in the base 110; And
And a hydraulic cylinder 140 connected to the rack 120 linearly moving along the guide 130 to give a load to the linear motion of the rack 120.
At least two or more mounting holes 112 are formed on an upper surface of the base 110, and each of the mounting holes 112 includes a rack 120, a guide 130, and a hydraulic cylinder 140. Test device for yaw drive and pitch drive for wind generators.
The method according to claim 1,
The hydraulic cylinder 140 is a test apparatus for a yaw drive and pitch drive for a wind power generator, characterized in that provided on both sides symmetrically around the rack (120).
The method according to claim 1 or 2,
One end of the hydraulic cylinder 140 is connected to the supporter 150 and the hinge formed in the base 110, the rod 142 is stretched at the other end of the hydraulic cylinder 140 is detachable from the rack 120 Test device for a yaw drive and pitch drive for a wind power generator, characterized in that the bracket 160 is connected by a hinge.
The method according to claim 1,
Yaw drive or pitch drive 10 in which the output unit 16 is inserted into the base through the mounting hole 112 is fixed by the upper surface and the flange joint of the base 110 yaw drive And testing apparatus for pitch drives.
The method according to claim 1,
An apparatus for testing a yaw drive and a pitch drive for a wind generator, characterized in that an observation window 116 is formed on the upper surface of the base 110 to observe the operating state of the rack 120.

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