KR100367842B1 - Stemadapter for Diagnostic of Motor Operated Valves - Google Patents

Abstract

The present invention relates to a stem adapter used for evaluating the safety and operability of a motor driving valve used in a nuclear power plant and the like, and can diagnose the stem even in a position where the stem sensor cannot be attached.

To this end, the present invention is formed with a nasan acid of the same size as the stem on the inner surface to be engaged with the thread formed on the stem, and the body forming a semi-cylindrical shape; The upper and lower surfaces of the main body are integrally coupled to each other, and a fastening part having a fastener having a screw thread therein is formed to enable mutual fastening with a bolt and a nut.

With such a configuration, it can be applied and used even in a place where it is impossible to attach the stem sensor in the shape of the stem of the motor drive valve conventionally, there is an effect to contribute to the operation and safety of the power plant.

Description

Stemapter for Diagnostic of Motor Operated Valves

The present invention relates to a stem adapter used to measure the force applied to the valve system when diagnosing the stability of the motor driving valve. More particularly, the present invention relates to a stem adapter that can be easily attached to the stem stem even when it is difficult to attach the stem sensor. It relates to a stem adapter of a motor-driven valve to measure the applied force.

In general, many motor drive valves are installed in facilities such as nuclear power plants, and play an important role in the operation and safety of the power plant.

In particular, motor drive valves whose functions are related to the safety of nuclear power plants are very important for their safety and operability. Currently in Korea, continuous diagnostic tests are conducted to confirm the safety and operability of these motor drive valves. Doing.

Such a diagnostic test is carried out by measuring the force applied to the valve stem during the opening and closing operation of the motor drive valve and whether the measured force is normally operated under the actual driving conditions of the motor drive valve. Is being performed to evaluate.

At this time, to use the stem diagnostic equipment to measure the force applied to the stem of the motor drive valve, as shown in Figure 1a, such a stem diagnostic equipment is moved up and down on the valve seat (4) and the pipe ( 2) In the motor drive valve having a disk (6) to open and close, the stem (12) and the contact portion (14) where no thread is formed in the lower part of the stem (12) and the driver (20). Sensor cable 24 for measuring sensor 22 to be installed, the QSS (Quick Stem Sensor) sensor 10 installed at the contact portion 14, and the measurement information applied to the QSS sensor 10 and the sensor 22. It consists of a data acquisition equipment 30 to be received through and a computer 40 for analyzing the measurement information acquired in connection with the data acquisition equipment.

Here, the QSS sensor 10 installed in the contact portion 14 of the stem 12 is a stress measuring sensor developed in the United States (a type of strain gage), is attached to the stem 12 of the valve operating system of the valve ( It is widely used to measure torsional stress due to torque applied to 12) and tensile force due to thrust.

The QSS sensor 10 is known to have the highest accuracy among the stress measuring sensors currently used in nuclear power plants and all other driving valves, and is widely used due to its easy use and installation.

The stress measured by the QSS sensor 10 is converted into a current signal and transmitted to the data acquisition equipment 30 through the sensor cable 24.

In this case, the QSS sensor 10 must be installed at a portion where the sensor installation cross-section is constant, such as a threadless portion of the stem 12, that is, a smooth portion on the contact portion 14, and the reason is that the QSS sensor 10 should be installed at a threaded portion. This is because the cross-sectional area of the threaded portion and the screw bone portion is different so that it is impossible to measure a constant force applied to the stem 12.

The principle of measuring the force applied to the valve stem when operating the motor drive valve from the above-described sensors is as follows.

First, a motor (not shown) is operated to operate the motor driving valve, and the motor operates the driver 20 again. The motor and the drive 20 is a rotational movement, the stem nut (not shown) connected between the driver 20 and the stem 12 converts the rotational movement of the driver 20 to the vertical movement of the stem 12 Play a role.

At this time, the stem 12 is subjected to a force by the driver 20, the force will generate a stress in the rotational direction and the axial direction of the stem 12. Here, the fine compressive force and the tensile force generated in the stem 12 is measured using the QSS sensor 10.

Therefore, the stress measured from the QSS sensor 10 is converted into force through the data acquisition equipment 30 and the computer 40 to appear.

In general, however, when measuring the stress applied to the stem 12, the QSS sensor 10 should be installed in a smooth, non-threaded portion of the stem 12. All parts of the stem 12 are made of threads, and in some cases, the installation of the QSS sensor 10 may be impossible. FIG. 1B illustrates the case where the non-threaded contact portion 14 is formed on the stem 12 so that the QSS sensor 10 can be installed, and conversely, the contact portion 14 is not formed.

In this case, as another conventional measurement method, for example, a device called VOTES (Valve Operation Test Evaluation System), a diagnostic device for valves developed by VOTES, USA, and a sensor connected to the VOTES to measure the force of the valve. Although there have been cases where a measurement sensor such as VTC (VOTES Torque Cartridge), which is connected to VFS (VOTES Force Sensor) and VOTES, is used to measure the torque of the valve, the torque applied to the stem when these measurement equipment are employed. Was not measured, and the accuracy of the sensor was inferior to that of the conventional QSS sensor, which made it difficult to purchase other expensive equipment.

The present invention has been made in order to solve the above problems, an object of the present invention is to apply a measuring sensor to the stem consisting of only the screw thread stem adapter to measure the stress applied to the stem irrespective of the sensor mounting position At the same time to provide a calibration method of the measured value accordingly.

Figure 1a is a schematic diagram showing a schematic configuration of a device used when diagnosing a motor drive valve using a conventional QSS.

1B is an exemplary view showing a case in which a contact portion to which a sensor can be attached is formed and a case in which a conventional motor drive valve is provided.

Figure 2 is a perspective view showing a state of the stem adapter according to the present invention.

3 is a perspective view from above of the structure of FIG. 2;

Figure 4 is a diagram showing a schematic view of the motor drive valve diagnostic apparatus to which the stem adapter according to the present invention.

Fig. 5 is a schematic diagram illustrating apparatuses configured to obtain a calibration value for stem stress after employing a stem adapter.

<Explanation of symbols for the main parts of the drawings>

2: pipeline 4: valve seat

6: disk 8: yoke

10: stem sensor (QSS) 12: stem

14 contact portion 20 driver

22 sensor 24 sensor cable

30: data acquisition equipment 40: computer

100: main body 102: fastener

104: fastener 110: bolt

112; Nut 120: Stem Adapter

140: smart system

The present invention is configured as follows to achieve the above object. That is, the present invention, in the stem adapter to which the stem sensor is attached to measure the stress applied to the stem of the motor drive valve, a nasan acid of the same size as the stem is formed on the inner surface to be engaged with the thread formed on the stem. A main body forming a semi-cylindrical shape; Coupled integrally on the upper and lower surfaces of the main body, it is characterized in that the fastener is formed with a fastener having a screw thread therein to enable mutual fastening with bolts and nuts.

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

2 and 3 is a view showing a detailed structure of the stem adapter according to the present invention, Figure 4 illustrates a schematic view of the stem stress measuring device of the motor drive valve employing the stem adapter of the present invention.

As shown in the figure, the present invention is composed of a pair of main body 100 forming a semi-cylindrical shape, and a tightening unit 102 integrally coupled to the upper and lower surfaces of the main body 100, respectively.

Here, the main body 100 has a nasan acid of the same size as the stem () 12 is formed on the inner surface to be engaged with the thread formed on the stem 12, a pair is combined to form a cylindrical shape. .

At this time, the material of the body 100 is preferably made of the same material as the material of the stem 12 to be measured.

On the other hand, the fastening portion 102 formed integrally with the main body 100 forming a semi-cylindrical shape is located at the front end portion where the main body 100 is coupled to each other, and fastened to each other with a bolt 110 and a nut 112 The fastener 104 provided with the thread | thread inside it is formed so that it is possible.

Thus, in a state where a pair of the main body 100 is engaged on the threaded stem 12 and coupled with the bolt 102 and the nut 112, the stem sensor 10 on an appropriate surface outside the combined main body 100. ) To measure the stress applied to the stem (12).

On the other hand, the force acquired by the stem sensor 10 installed in the stem adapter 120, that is, the thrust is different from the value acquired by the conventional stem sensor 10 that does not employ the stem adapter 120. There is. That is, in the process of transmitting the force generated in the thread of the stem 10 to the stem adapter 120, the loss of the force due to mutual friction between the threads of Nasan and the loss due to the metal thickness of the stem adapter 120 itself should be considered. will be. Therefore, in order to consider these forces, a calibration test for calibration between the actual force generated on the stem 12 and the force transmitted to the stem adapter 120 is required.

Figure 5 shows the devices configured to obtain a calibration value for the stem stress after installing the stem sensor 10 in the stem adapter 120.

As shown in the figure, the overall configuration of the device is the same as that of the conventional measurement system as shown in FIG. 1A, in which the stem adapter 120 is not employed, and only a smart stem on the stem 12 in which the stem adapter 120 is installed. 140 is installed.

Here, the smart stem 140 is a stem (10) attached to the inside of the stem (12) is a functional stem with a function that can measure the force acting on the stem 12 immediately developed by Teledyne of the United States It is possible to use other products as long as they are proven in similar performance.

Based on the stress applied to the smart stem 140 as described above, a series of methods performed to correct the stress acting on the stem 12 of the motor drive valve in which the stem adapter 120 is installed are as follows. .

1) Install the smart stem 140 on the stem 12, the stem adapter 120 is installed.

2) by operating the oil pressure (P) shown in the dotted line on the smart stem 140, the pressure is applied through the cable (C), the force generated at this time the stem sensor installed in the smart stem 140 and the stem adapter 120 ( Acquired from 10).

3) In order to collect enough data to obtain the correlation between the smart stem 140 and the stem adapter 120, step 2) above is performed at least 20 times while varying the force of the hydraulic pressure and Acquire.

4) Obtain a correction value by obtaining the proportional correlation between the force applied to the smart stem 140 and the force acquired by the stem adapter 120 as a proportional constant.

The above calibration method is performed for each stem diameter and the corresponding calibration value is obtained for each stem diameter. The calibration values thus derived apply to all valves with the same stem diameter.

Once the calibration value is derived, the valve tester installs only the stem adapter 120 in the field, performs the test, and then applies the calibration value to the acquired value so that the actual force generated in the stem 12 can be known. .

The present invention is not limited to the above embodiments, and various modifications can be made within the scope of the technical idea of the present invention.

According to the present invention having the above-described configuration, since the stem adapter can be used to measure the stress applied to the stem simply and easily by using a stem adapter even in a stem having a shape in which the stem sensor cannot be conventionally installed, a motor driving valve is used. Since it can greatly contribute to the safe operation of power plants and the like, and also does not need to use other expensive equipment with low accuracy, there is an effect that can contribute to the economic effect.

Claims (2)

In the stem adapter for diagnosing the performance of the motor drive valve, the stem sensor is attached to measure the stress applied to the stem of the motor drive valve, A main body having the same size as that of the stem and having a semicylindrical shape on an inner surface thereof so as to be engaged with a thread formed in the stem; The performance diagnosis of the motor drive valve, characterized in that the coupling is formed on the upper and lower surfaces of the main body, the fastening portion is provided with a screw thread therein, so as to be mutually fastened with a bolt and nut. Stem adapter for. In the method for correcting the stress applied to the stem of the motor drive valve employing a stem adapter, a) installing the smart system on the stem where the stem adapter is installed; b) applying pressure by connecting a cable of the oil pressure to the smart stem, and acquiring the force generated from the stem sensor installed in the smart stem and the stem adapter; c) performing step b) more than 20 times while varying the force of the hydraulic pressure and acquiring the force according to the step of collecting the data for obtaining the correlation between the smart stem and the stem adapter; And d) obtaining a correction value by obtaining a proportional constant of the proportional correlation between the force applied to the smart stem and the force acquired from the stem adapter as a proportional constant.