JP2001227675A - Valve function detector - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a valve function detector capable of detecting the function state of a motor-operated valve without disassembling the valve. SOLUTION: Strain gauges 44 for measuring stem torque and stem thrust respectively are fitted to the exposed part of a stem 23. Two strain gauges are connected to an amplifier 36. A wattmeter 38 is also connected to the amplifier 36. The wattmeter 38 computes the electric power of a motor 24 as the work done by the motor 24 from the current and voltage of the motor 24 respectively measured by a current probe 41 and voltage probe 42. A personal computer 39 is connected to the amplifier 36, and whether the valve function is normal or not is analyzed from the electric power of the motor, stem torque and stem thrust.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a device for detecting a function of a valve device.

[0002]

2. Description of the Related Art Conventionally, various devices have been used to detect whether or not the function of a motor-operated valve is normal. FIG. 3 is a schematic view showing the structure of the operating device of the motor-operated valve. The operating device is mainly composed of a motor 1, a helical gear 2, a shaft 3,
Worm 4, torque switch 5, torque spring 6,
The worm gear 7 and the stem nut 8 are used, and power for opening and closing the valve is transmitted to the stem 9 by the operating device.

Next, the process of transmitting the torque of the motor 1 to the stem 9 will be described. The torque of the motor 1 is transmitted to the worm shaft 3 via the helical gear 2,
Thereby, the worm 4 attached to the worm shaft 3 rotates the worm gear 7. Here, a stem nut 8 is screwed into the worm gear 7, and the stem nut 8 is provided on the outer periphery of the worm gear 7 so as to rotate integrally with the stem 9. Therefore, when the worm gear 7 rotates, the stem nut 8 and the stem 9 move linearly in the stem axis direction without rotating. That is, the stem nut 8 inside the worm gear 7 converts the rotational movement into a linear movement to move the stem 9 in the opening and closing direction. Thus, the stem 9 moves in the opening and closing direction, that is, in the stem axis direction.
Further, the fully open and fully closed states of the valve have been detected as follows. When the valve is fully opened or fully closed, the stem 9 cannot move further in the opening direction or the closing direction, so that the load acting on the stem 9 increases, and the worm gear 7 stops rotating. As a result, the worm 4 moves along the worm shaft 3 in a direction in which the torque spring 6 is compressed. With the movement of the worm 4, the operating piece 5a of the torque switch 5 rotates, and the operating piece 5
The fully open or fully closed state of the valve can be detected based on the rotation start and rotation direction of a.

Conventionally, when diagnosing the valve function of such a motor-operated valve, data of the output torque of the operating device is measured together with data such as the current value of the motor, the ON / OFF signal of the torque switch, and vibration. Thus, the functional state of the valve was determined from these data. A measurement mode of the output torque of the operating device will be described based on FIG. First, as a first mode, when the valve is fully opened or fully closed and the worm 4 moves along the worm shaft 3, the moving distance of the worm 4 is obtained from the rotation angle of the operating piece 5a. Is multiplied by the spring constant of the torque spring 6 to calculate the moving force of the worm 4. Then, this movement force is multiplied by the effective radius of the worm wheel to calculate the output torque of the operating device. As a second mode, there is a mode in which the moving force and the moving distance of the worm 4 are directly measured, and the output torque of the operating device is calculated by a calculation method similar to the first mode.

[0005]

However, the conventional method of measuring the torque of the operating device and diagnosing the valve function as described above has the following problems. That is,
In the first mode, the engagement between the bearing cartridge 10 urged by the worm 4 and the operation piece 5a of the torque switch 5 is inevitably rattled due to its structure, and a measurement error intervenes. Would be. Further, in the second embodiment, since the worm 4 is accommodated inside the spring cartridge cap 11, the moving amount of the worm 4 cannot be directly measured as it is. Therefore, after the spring cartridge cap mounting bolt 12 is removed and the spring cartridge cap 11 is removed, a sensor for measuring the moving amount of the worm 4 is set using the screw hole of the spring cartridge cap mounting bolt 12, and finally the measurement can be performed. Becomes Further, after measuring the moving amount of the worm 4, after the grease flowing out at the time of disassembly is replenished, the spring cartridge cap 11 must be attached and returned to the original state. In this manner, in the mode of directly measuring the movement amount of the worm 4, disassembly, installation of a sensor, replenishment of grease,
A series of operations such as reassembly was required, which was very troublesome.

The present invention has been made in view of the above-mentioned conventional problems, and has as its object to provide a valve function detecting device capable of detecting a functional state of a motor-operated valve without disassembling the valve. I do.

[0007]

In order to achieve the above-mentioned object, a valve function detecting device according to the present invention relates to a motor-operated valve having a valve stem driven by an electric operating device. Operating tool output torque measuring means mounted to measure operating tool output torque, stem thrust measuring means mounted on the exposed portion of the valve stem to measure stem thrust, and motor work measurement measuring motor work Means, and valve function analyzing means for detecting a valve function from the operation device output torque, stem thrust and work of the motor.

Preferably, the operating device output torque measuring means measures the stem torque at the time of full opening and at the time of full closing as the operating device output torque. Preferably, the motor work measuring means obtains electric power from a current value and a voltage value of the motor. Further, preferably, the valve function analysis means performs at least one of the following analysis, and when the work of the motor increases and the output torque and the stem thrust of the operating device do not change or decrease, the motor itself is abnormal. If there is, the work of the motor does not change, the output torque of the operating device, when the stem thrust decreases, it is analyzed that there is an abnormality in the transmission mechanism inside the operating device, and when the motor is fully opened or fully closed, When the operating device output torque and stem thrust all increase, it is analyzed that there is an abnormality around the torque switch provided in the operating device to detect the fully open or fully closed state, and the motor work and the operating device output torque change. Without
When the stem thrust increases or decreases, it is analyzed that there is an abnormality in the part where the output torque of the operating device is converted to thrust for linear movement of the valve stem, and the motor work in the intermediate state between fully open and fully closed. And the stem thrust changes.

[0009]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to FIGS. FIG. 1 is a diagram showing a state in which the valve function detection device according to the present embodiment is connected to a motor-operated valve used in a nuclear power plant or the like. The motor-operated valve includes an operating device 19, a body 20, a bonnet 21, a yoke 22, a stem 23, a motor 24, and a driving device 25. Since the structure of the operating device 19 is the same as that of the conventional device, a detailed description thereof will be omitted. A lift sensor 4 for measuring the movement of the stem 23 is provided at the upper end 26 of the stem 23.
0 (see FIG. 2). A contact sensor 46 (see FIG. 2) is attached to the torque switch 29a and the limit switch 29b in the switch cover 27 of the operating device 19, and the contact sensor 46 is connected to the amplifier 36 via a contact comparator 47. The motor power terminal 30 has a current probe 41 and a voltage probe 42 (FIG. 2) as sensors for measuring the power of the motor 24.
And a clamp ammeter 48 (see FIG. 2) as a sensor for measuring the current value of the motor 24. An accelerometer 43 (see FIG. 2) is attached to the motor tip 31 as a vibration sensor for detecting abnormal vibration of the operating device 19. Two strain gauges 44 and 45 (see FIG. 2) are attached to the stem 23 to measure the stem thrust and the output torque of the operating device, respectively.

The above-described lift sensor 40, contact sensor 46, clamp ammeter 48, accelerometer 43, and strain gauges 44, 45 are connected to signal cables 32, 3 respectively.
3, 34 and 35, the current probe 41 and the voltage probe 42 are connected to the signal cable 37.
Is connected to the power meter 38, and the power meter 38 is connected to the amplifier 3
6 is connected. Further, the amplifier 36 is connected to a personal computer 39 via an A / D converter 36a, and various measured values are digitally converted by the A / D converter 36a and taken into the personal computer 39 as valve function analyzing means.

Next, the operation of the valve function detecting device according to the present embodiment will be described. First, the work performed by the motor 24 is measured. The current value and the voltage value of the motor 24 measured by the current probe 41 and the voltage probe 42 are processed by the wattmeter 38 to obtain a power value, and the power value is treated as work performed by the motor. This is because the power value reacts more sensitively to the change in the motor load than the current value itself, and the change in the motor load can be detected more sensitively by measuring the power value. The work performed by the motor is always measured at the time of data measurement.

Further, the output torque of the operating device is measured.
When determining the valve function, an appropriate output torque of the operating device is a torque in a state where a torque change is large. Therefore, in the present embodiment, the torque in the following three states, namely, the torque when opening the valve from the fully closed state (when the valve body is pulled out), the torque when reaching the fully open state (when fully opened), and Then, the torque when the valve is completely closed from the valve closed state (when fully closed) is measured.

In order to measure the output torque of the operating device 19, it is conceivable to directly attach a torque measuring means to a worm or a stem nut in the operating device.
In this case, since the operating device must be disassembled every time measurement is performed, in the present invention, a strain gauge 45 (same as the strain gauge 44) is attached to a part of the stem 23 that is partially exposed to the outside. Thereby, the torque of the stem 23 is measured, and the torque is treated as the output torque of the operating device 19.

At this time, the torque of the stem 23 when reaching the fully opened state and the torque of the stem 23 when completely closed from the valve closed state exactly match the output torque of the operating device 19. ing. That is, the operating device 19
When measuring the output torque of the valve with a strain gauge attached to the stem 23, there is a possibility that some errors may occur due to the presence of a part such as a stem nut which engages through a thread groove. Alternatively, when the torque switch is activated with the valve fully closed, the stem cannot move any further, and the stem nut cannot rotate.In this state, there is no slip between the stem nut and the stem, and the output of the operating device This is because the torque almost matches the torque of the stem, and the output torque of the operating device can be detected by measuring the torque of the stem.

Further, stem thrust is also measured as a force transmitted to the stem. In addition, regarding stem thrust,
Measurement is performed not only at the time of full opening and at the time of full closing, but also in the intermediate state.

The power value of the motor 24, the output torque of the operating device and the data of the stem thrust obtained in this way are sent to the personal computer 39 via the amplifier 36 and the like. These three data are used to judge the valve function by referring to other data such as the amount of lift of the stem and the vibration of the motor, based on the normal state (initial value) or how it has changed from the reference value. Is done.

First, when partially considering the abnormality of the valve drive system, there are mainly the following five points. (1) When there is an abnormality in the motor of the controller. (2) When there is an abnormality in the transmission mechanism inside the operation device. (3) When there is an abnormality around the torque switch. (4) When there is an abnormality in the portion where the torque of the operating device is converted into the linear motion of the stem, that is, around the stem nut. (5) When the linear motion of the stem is abnormal (when there is an abnormality on the valve side).

For each of the above-mentioned abnormalities, the following data change characteristics, ie, in the case of (1), only the power value of the motor 24 increases, and the output torque of the operating device and the stem thrust are reduced. Unchanged or decreased, (2)
In the case of (3), the power value of the motor 24 does not change and the operating device output torque and stem thrust decrease. In the case of (3), the power value of the motor 24, the operating device output torque and the stem Both the thrusts increase. In the case of (4), the power value of the motor 24 and the output torque of the operating device do not change, and the stem thrust increases or decreases. In the case of (5), the thrust between the fully open state and the fully closed state is obtained. Since the applicant has found that the characteristics of the power value and the stem thrust of the motor 24 in the intermediate state change, the present embodiment utilizes this to detect the valve function.

By judging the functional state by combining the three values of the electric power value of the motor 24, the output torque of the operating device, and the stem thrust in this manner, the torque of the motor 24 becomes the output torque of the operating device 19, which is It is possible to detect whether or not the power is correctly transmitted to the stem 23 for opening and closing the valve, and it is possible to estimate an abnormal part.

The valve function detecting device of the present invention further includes one set of the same components as the current probe 41, the voltage probe 42, and the wattmeter 38 even when the motor of the motor-operated valve is an AC (three-phase) motor. It can be provided and applied.

[0021]

As described above, according to the present invention, three data of the work performed by the motor, the output torque of the operating device, and the stem thrust can be accurately measured without disassembling the valve. It is possible to detect a valve function such as whether or not the torque has been correctly transmitted to the stem.

[Brief description of the drawings]

FIG. 1 is a diagram showing a state in which a valve function detecting device according to an embodiment of the present invention is connected to a motor-operated valve.

FIG. 2 is a diagram showing a connection mode of various sensors, an amplifier, and a personal computer in the valve function detection device according to the present embodiment.

FIG. 3 is a schematic view showing the structure of a motor-operated valve operating device.

FIG. 4 is a detailed view of a peripheral portion of the operating device, such as a shaft, a worm, and a torque spring.

[Explanation of symbols]

 19 Operating device 23 Stem 24 Motor 38 Wattmeter (Motor work measuring means) 39 Personal computer (Valve function analyzing means) 41 Current probe (Motor work measuring means) 42 Voltage probe (Motor work measuring means) 44 Strain gauge (Stem thrust measuring means) ) 45 Strain gauge (operator output torque measuring means) 46 Contact sensor 47 Contact comparator 48 Clamp ammeter

Continuing from the front page (72) Inventor Keita Fukushima 1-114 Nakamachi, Moji-ku, Kitakyushu City, Fukuoka Prefecture Inside of Okano Valve Manufacturing Co., Ltd. (72) Koji Tanaka 1-14 Nakamachi, Moji-ku, Kitakyushu City, Fukuoka Okano Valve Manufacturing Stock In-house F term (reference) 3H062 BB33 CC01 DD01 EE06 FF10 FF30 FF34 3H065 BA01 BA07 BB11 BC01 BC02 CA03

Claims (4)

[Claims] 1. An electric valve having a valve stem driven by an electric operating device, an operating device output torque measuring means attached to an exposed portion of the valve stem for measuring an operating device output torque, and the valve A stem thrust measuring means attached to an exposed portion of the stem for measuring stem thrust, a motor work measuring means for measuring motor work, and detecting a valve function from the operating device output torque, stem thrust and motor work. And a valve function analyzing means. 2. The valve function detection device according to claim 1, wherein the operating device output torque measuring means measures a stem torque when the operating device is fully opened and when the operating device is fully closed as the operating device output torque. 3. The valve function detecting device according to claim 1, wherein the motor work measuring means obtains electric power from a current value and a voltage value of the motor. 4. The valve function analysis means performs at least one of the following analyses: when the work of the motor increases and the output torque and the stem thrust of the operating device do not change or decrease, the motor itself has an abnormality. Analyze that there is, the motor work does not change, and when the output torque and stem thrust of the operating device decrease, analyze that there is an abnormality in the transmission mechanism inside the operating device, and when the motor is fully opened or fully closed, the motor work and operation When the machine output torque and stem thrust all increase, it is analyzed that there is an abnormality around the torque switch provided in the operating machine to detect the fully open or fully closed state, and the motor work and the operating machine output torque do not change. When the stem thrust increases or decreases, it is analyzed that there is an abnormality in the part where the torque of the operating device is converted to thrust for linear movement of the valve stem, Beauty valve function detection apparatus according to any one of claims 1 to 3, characterized in that the motor of the work and the stem thrust is changed in the intermediate state of the fully closed.