KR100583304B1 - Pitch control test unit for axial flow type fan blade - Google Patents

Abstract

The present invention is a test device for checking the performance and condition of the pitch controller for adjusting the blade angle of the axial fan used in the thermal power plant to check the performance and condition, the mounting table is provided with an installation space for the pitch controller A hydraulic tank installed on one side of the mounting table and storing hydraulic oil, a hydraulic pump installed on the mounting table and supplying the hydraulic oil stored in the hydraulic tank to the pitch controller, and a hydraulic pressure measuring pressure of the hydraulic oil sent from the hydraulic pump; And a ruler that is installed on the mounting table and has a scale marked at regular intervals so that the displacement of the pitch controller, which is moved according to the pressure of the hydraulic oil supplied by the hydraulic pump, can be easily visually determined. The present invention enables to check in advance whether the performance of the pitch controller difficult to replace and oil leakage, to prevent the accident occurring during the operation of the power plant in advance, it is possible to increase the operating efficiency of the power plant.

Description

PITCH CONTROL TEST UNIT FOR AXIAL FLOW TYPE FAN BLADE}             

1 schematically illustrates a coupling relationship between an axial fan and a pitch controller,

2 is a front view of a pitch controller test apparatus according to an embodiment of the present invention,

3 is a view showing a part of the mount on which the pitch controller of the pitch controller test apparatus shown in FIG.

Figure 4 shows the hydraulic circuit of the pitch controller test apparatus shown in Figure 2,

FIG. 5 illustrates a state of use of the pitch controller test apparatus illustrated in FIG. 2.

<Description of Symbols for Major Parts of Drawings>

210: hydraulic tank 220: hydraulic pump

230: hydraulic system 240: solenoid valve

270: sight glass 280: cooling fan

300: mounting base 350: controller

The present invention relates to a test apparatus for testing the performance of the pitch controller for adjusting the angle of the blade of the axial fan, and more particularly, abnormal operation of the pitch controller according to the leakage of the hydraulic oil supplied to the pitch controller and the pressure of the hydraulic oil. It relates to a pitch controller test device for adjusting the blade angle of the axial fan to test whether or not.

Most Korean standard thermal power plants built after 1990 use axial fans. Axial flow fan is controlled by the rotor variable pitch blade, unlike the air flow control by the suction blades of the centrifugal fan so far.

Axial fans used in thermal power plants can be completely disassembled except for the blade pitch controller, allowing periodic disassembly and maintenance. However, the blade pitch controller is not easy to disassemble and assembly is a situation that does not have a special maintenance. On the other hand, there are packing and ball bearings inside the blade pitch controller, and these parts cannot be used permanently. Long-term use of the axial fan causes a problem of oil leakage or rotation in the blade pitch controller. However, up to now, there is no test apparatus that can predict the life of the blade pitch controller and confirm the abnormality so as to prevent such symptoms in advance.

The present invention is to solve the above problems, an object of the present invention is to provide a pitch controller test device for adjusting the blade angle of the axial fan that can determine whether there is an abnormality of the blade pitch controller difficult to disassemble and assemble.

According to an embodiment of the present invention as a test device for checking the performance and condition to predict the durability and life of the pitch controller for adjusting the blade angle of the axial fan used in the thermal power plant, the pitch controller is installed A mounting space provided with a space, a hydraulic tank installed on one side of the mounting table, storing hydraulic oil, a hydraulic pump installed on the mounting table and supplying hydraulic oil stored in the hydraulic tank to the pitch controller, and a hydraulic oil discharged from the hydraulic pump. A hydraulic system for measuring the pressure, and a ruler is provided at the interval intervals to be able to easily determine the displacement of the pitch controller which is installed on the mounting and moved according to the pressure of the hydraulic oil supplied by the hydraulic pump with the naked eye Pitch tester for adjusting the blade angle of an axial fan It is provided.

1 schematically illustrates a coupling relationship between an axial fan and a pitch controller.

As shown in FIG. 1, the pitch controller 100 is an apparatus for adjusting the angle of the fan 10 blade and is connected to the adjustment shaft 20 at the bottom of the fan 10. The pitch controller 100 is provided with a cylinder 170, a piston 160, and an actuator 150. The piston 160 is installed inside the cylinder 170 and is fixed to the pitch controller 100 and does not move. On the other hand, the cylinder 170 is installed outside the pitch controller 100 to move freely on the piston 160. The actuator 150 is connected to a driving knob 110 installed outside the pitch controller 100, and changes the flow path formed inside the pitch controller 100 according to the operation of the driving knob 110. On the other hand, the pitch controller 100 has three connection ports, two of which are the inlet and outlet ports 120 and 130 of the hydraulic oil to operate the piston 160 and the other to facilitate the operation of the pitch controller 100 Lubrication oil inlet 140.

Looking at the operation of the pitch controller 100 configured as described above are as follows.

When the user operates the driving knob 110 to the right, the actuator 150 is moved to the left to allow the hydraulic oil inlet 120 and the second flow passage 122 to communicate with the hydraulic oil outlet 130 and the first flow passage 121. To communicate. Accordingly, the hydraulic oil introduced through the hydraulic oil inlet 120 moves to the left space of the piston 160 along the second passage 122 and fills the space formed by the piston 160 and the cylinder 170. At this time, since the piston 160 is fixed, the supplied hydraulic oil pushes the cylinder 170 to the left to secure a space, and thus the cylinder 170 moves slightly to the left. The cylinder 170 moves the control shaft 20 of the fan 10 while moving to change the angle of the fan 10 blade.

On the contrary, when the user operates the driving knob 110 to the left, the actuator 150 moves to the right to allow the hydraulic oil inlet 120 and the first oil passage 121 to communicate with the hydraulic oil outlet 130 and the second oil passage 122. ) To communicate. Accordingly, the hydraulic oil introduced through the hydraulic oil inlet 120 is filled in the space on the right side of the piston 160 and moves the cylinder 170 to the right as opposed to the above. At this time, the cylinder 170 is moved to change the angle of the fan 10 blade by pushing the control shaft 20 of the fan 10 in the opposite direction.

The pitch controller 100 operating as described above is operated by the working oil supplied from the outside, and may cause problems such as not properly operating or leaking the lubricant filled inside during the process of being installed and used in the actual power plant. Therefore, the present invention has devised a pitch controller tester apparatus which can confirm this matter in advance.

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

FIG. 2 is a front view of a test apparatus according to an embodiment of the present invention, and FIG. 3 is a view illustrating a portion of a mount on which a pitch controller is placed among the pitch controller test apparatus illustrated in FIG. 2, and FIG. 4 is illustrated in FIG. 2. The hydraulic circuit of the pitch controller test apparatus is illustrated, and FIG. 5 illustrates a state of use of the pitch controller test apparatus illustrated in FIG. 2.

As shown in FIG. 2, the pitch controller test apparatus of the present invention includes a mounting table 300, a hydraulic tank 210, a hydraulic pump 220, a hydraulic system 230, and a controller 350. . Mounting unit 300 is a member forming the skeleton of the pitch controller test apparatus, the mounting unit 300 is provided with a space in which other equipment can be installed and a space on which the pitch controller can be seated separately. In addition, the wheel 310 is coupled to the bottom of the mounting table 300 to easily move the pitch controller device. On the other hand, as shown in Figure 3, one side of the mounting table 300 is provided with a seating portion 320 that can be installed a pitch controller. The seating part 320 is formed with a stepped portion so that a part of the body of the pitch controller can be covered. The side of the seating portion 320 is provided with a ruler 330 that can measure the operation displacement of the pitch controller. The hydraulic tank 210, the hydraulic pump 220, the hydraulic system 230, and the control unit 350 are installed in other portions of the mounting table 300, the pitch controller is not installed.

The hydraulic tank 210 is installed at the bottom of the mounting table 300 and stores the hydraulic oil for operating the pitch controller. The hydraulic pump 220 is installed at the side of the hydraulic tank 210. The hydraulic pump 220 circulates the hydraulic oil stored in the hydraulic tank 210 to the pitch controller. The hydraulic system 230 and the control device 350 is installed above the hydraulic tank 210 and the hydraulic pump 220. The hydraulic system 230 measures the pressure of the hydraulic oil supplied to the pitch controller through the hydraulic pump 220. The controller 350 controls the driving of the hydraulic pump 220 and controls the overall operation of the pitch controller test apparatus.

As shown in Figure 4, the pitch controller test apparatus of the present invention, in addition to the hydraulic tank 210, hydraulic pump 220, hydraulic system 230, check valve 221, filter 231, solenoid valve 240 The cooling fan 280 is further installed.

The check valve 221 is installed at the outlet side of the hydraulic pump 220 serves to prevent the hydraulic oil sent out through the hydraulic pump 220 to flow back, the filter 231 is a pitch controller in the hydraulic tank (210) It filters out foreign substances contained in the working oil supplied to the oil. A hydraulic system 230 is installed between the check valve 221 and the filter 231 to measure the pressure of the hydraulic oil discharged. After the filter 231, a solenoid valve 240 is installed, and the solenoid valve 240 operates to circulate directly to the hydraulic tank 210 when the temperature of the hydraulic oil is higher than the set value. At this time, the cooling passage 280 is installed in the circulation passage to lower the temperature of the working oil recovered by the hydraulic tank (210).

On the other hand, three pipes are installed in the hydraulic tank 210, one is the discharge pipe 250 for the hydraulic oil discharged from the hydraulic tank 210 enters the pitch controller, the other is the hydraulic oil circulating through the pitch controller The discharge pipe 251 is recovered to the hydraulic tank 210, and another one is a leakage pipe 260 for checking whether the lubricating oil leaks in the pitch controller. At this time, the discharge pipe 251 and the oil leak pipe 260 are each provided with a sight glass 270 so as to easily check the flow of the hydraulic oil and lubricating oil.

Now, a method of using the pitch controller test apparatus of the present invention will be described based on FIG. 5.

As shown in FIG. 5, the pitch controller 100 is first installed on the seating part 320 of the mounting table 300. Next, the hydraulic oil inlet 120 and the outlet 130 of the pitch controller 100 are connected to the delivery pipe 250 and the discharge pipe 251, respectively, and the lubricant inlet 140 of the pitch controller 100 is connected to the oil leakage pipe 260. ). The hydraulic pump 220 is operated to circulate the hydraulic oil of the hydraulic tank 210 to the pitch controller 100. When the numerical value of the hydraulic system 230 indicating the pressure of the hydraulic fluid becomes constant, the operation knob 110 of the pitch controller 100 is operated to observe the movement of the cylinder 170. Movement of the cylinder 170 is compared based on the ruler 330 installed on the mounting table 300. As you repeat these experiments, verify the following:

1) whether the movement of the driving handle 110 and the movement of the cylinder 170 is proportional. 2) Whether or not a change occurs in the pressure of the hydraulic system (230). 3) Whether lubricating oil is being discharged through the oil leak pipe 260.

The first item is to check the operation state of the cylinder 170, it can be confirmed whether the leakage of the hydraulic oil and the abnormality of the actuator installed in the pitch controller 100. If the pressure of the operating oil is maintained while the movement of the driving knob 110 and the cylinder 170 is not proportional, an abnormality has occurred in the actuator or the flow path inside the pitch controller 100.

The second item is to check whether the hydraulic fluid leaks from the pitch controller 100. If the constant pressure value of the hydraulic system 230 is lowered, the hydraulic fluid is leaking in any part of the pitch controller 100, so check the surface of the pitch controller 100.

The third item is to check whether the lubricating oil leaked basically filled in the pitch controller 100. In general, an actuator for changing the flow path is provided in the pitch controller 100. In order to smoothly move the actuator, the inside of the pitch controller 100 is filled with lubricating oil. Therefore, if the amount of the lubricating oil is not always maintained above a certain level, the control of the cylinder 170 through the driving handle 110 is not properly performed. Therefore, when an abnormality is confirmed in the first item but no abnormality is confirmed in the second item, it is necessary to check this third item. The abnormality of the lubricating oil can be easily checked with the naked eye through the sight glass 270 installed in the leakage pipe 260.

Checking these three points can help you determine whether the pitch controller is working properly. Therefore, if the performance test is performed before the pitch controller is actually installed in the power plant, the angle of the fan blade can be controlled more stably.

The present invention enables to check in advance whether the performance of the pitch controller difficult to replace and oil leakage, to prevent the accident occurring during the operation of the power plant in advance, it is possible to increase the operating efficiency of the power plant.

The technical idea of the pitch controller test apparatus for adjusting the blade angle of the axial fan has been described above with reference to the accompanying drawings, but this is by way of example and not by way of limitation. In addition, it is obvious that any person skilled in the art can make various modifications and imitations without departing from the scope of the technical idea of the present invention.

Claims (1)

A test device that checks the performance and condition of the pitch controller with a cylinder to adjust the blade angle of the axial fan used in the thermal power plant to predict the durability and life of the pitch controller. A mounting table provided with an installation space in which the pitch controller is seated; A hydraulic tank installed on one side of the mount and storing hydraulic fluid, A hydraulic pump installed on the mounting table and supplying hydraulic oil stored in the hydraulic tank to the pitch controller; A hydraulic system for measuring the pressure of the hydraulic oil sent out from the hydraulic pump, and Adjusting the blade angle of the axial fan including a ruler marked at regular intervals so as to visually determine the displacement of the cylinder which is installed on the mounting and moved according to the pressure of the hydraulic oil supplied by the hydraulic pump Pitch controller testing device.

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