KR20220162066A - Valve maintenance supporting apparatus and method - Google Patents

Abstract

The purpose of the present invention is to improve the work efficiency of maintenance of a bellows valve. A valve maintenance assistance device comprises: a full-open data extraction unit (5) which searches for the data of an opening-degree command value indicating fully open among opening-degree command values given to a bellows valve and extracts, as diagnosis data, the actual opening-degree of the bellows valve which is given this opening-degree command value and the actual opening-degree value in a time slot corresponding to the opening-degree command value which indicates fully open; a full-open failure assessment unit (6) for assessing, on the basis of the diagnosis data, whether there is occurrence of a full-open failure state in the bellows valve which is given the opening-degree command value indicating fully open does not go to fully open; and an assessment result presentation unit (8) for presenting the ID of the bellows valve assessed as having a full-open failure state occurred as the ID of a valve to which bellows breakage has occurred.

Description

Valve maintenance support device and method {VALVE MAINTENANCE SUPPORTING APPARATUS AND METHOD}

The present invention relates to a technology supporting maintenance work, and more particularly, to a valve maintenance support device and method for supporting maintenance work of a bellows valve having bellows installed to surround the outer circumference of a valve shaft coupled to a valve body. will be.

Conventionally, valves used in petrochemical plants and the like (for example, the control valve in FIG. 10 ) need to pay particular attention to safety, and therefore, periodic maintenance is performed. The valve 100 shown in FIG. 10 includes a valve body 101, a positioner 102, and an actuator 103. The manipulator 103 moves the valve shaft (stem) 104 up and down according to the air pressure Po supplied from the positioner 102 to adjust the opening of the valve (between the valve body 105 and the seat ring 106). Gap] is adjusted. That is, it regulates the flow of fluid.

The positioner 102 detects the lift position of the valve shaft 104, that is, the actual opening of the valve, from the rotational angular position of the feedback lever 107 connected to the valve shaft 104, and compares the detected actual opening to the set opening. An air pressure Po corresponding to the difference in degrees is supplied to the manipulator 103.

In this valve 100, a corrugated bellows (bellows seal) 108 is provided on the outer periphery of a valve shaft 104 coupled to a valve body 105 to prevent external leakage of fluid. . This bellows 108 is made of a corrosion-resistant metal material and is installed in the lower flange 109 connected to the valve body 101 so as to surround the outer periphery of the valve shaft 104 .

In the lower flange 109, the bellows 108 is between the bellows ring 111 fitted to the valve shaft 104 and the bellows flange 112 sandwiched between the lower flange 109 and the upper flange 110. is supported In the upper flange 110, a gland packing 113 is provided between the outer circumferential surface of the valve shaft 104 and the inner circumferential surface of the upper flange 110 to further prevent external leakage of fluid. Also, the lower portion of the upper flange 110 serves as an upper cover for the lower flange 109 .

The valve 100 provided with such bellows 108 is called a bellows valve. In a plant or the like where these valves are installed, it is necessary to efficiently maintain a large number of valves, and in order to improve the maintenance work efficiency, a method of detecting breakage of a bellows valve has been proposed (see Patent Document 1).

The valve maintenance support device disclosed in Patent Literature 1 presents information on the maximum frictional force of a bellows valve as a diagnostic index to an operator, so that it is possible to estimate whether there is a suspicion of damage to the bellows valve.

However, even if the bellows 108 is broken, there are cases in which the influence of the breakage does not appear on the frictional force detection result. Fluid leakage from the bellows 108 is a serious event, but with the technique disclosed in Patent Literature 1, there was a possibility that damage to the bellows 108 could not be detected.

A large number of valves are used in petrochemical plants and the like. For example, in the example of FIG. 11 , valves 100-A and 100-M are disposed in the flow path 114-1, and valve 100-C is disposed in the flow path 114-3. 115-A, 115-C, 115-M are flow meters, 116 are tanks, and 117 are pressure transmitters. In this way, in plants and the like where a large number of valves are used, there is a demand for further improvement in the efficiency of maintenance work.

[Patent Document 1] Japanese Unexamined Patent Publication No. 2019-087003

The present invention has been made to solve the above problems, and an object of the present invention is to provide a valve maintenance support device and method capable of improving the work efficiency of bellows valve maintenance.

A valve maintenance support device according to the present invention includes: an opening command value storage unit configured to store data of an opening command value given to a bellows valve in correspondence with an ID of a bellows valve from which data is transmitted; and an actual opening value of the bellows valve. An opening measurement value storage unit configured to store the data of a bellows valve in correspondence with the ID of a bellows valve from which the data is transmitted, and an opening position command value instructing full opening among the opening position command values stored in the opening position command value storage unit. Searching for the data of and extracting, as diagnosis data, the actual opening value of the bellows valve to which this opening command value is given, and the actual opening value of the time zone corresponding to the opening command value indicating full opening. A fully-opening data extractor configured to determine whether or not a fully-opening incomplete state in which fully-opening is not occurring occurs in a bellows valve to which an opening command value instructing full-opening has been assigned, based on the diagnostic data. It is characterized by including an open incomplete determination unit and a determination result presentation unit configured to present the ID of the bellows valve for which it is determined that the fully open incomplete state has occurred as the ID of the valve in which the bellows breakage has occurred.

Further, in one configuration example of the valve maintenance support device of the present invention, when a fully open incomplete state occurs a plurality of times in the same bellows valve, and the degree of insufficient opening degree of each of the plurality of fully open incomplete states monotonically increases , Further comprising a bellows breakage determining unit configured to determine that a bellows breakage has occurred in the bellows valve, wherein the determination result presenting unit presents an ID of the bellows valve for which the fully open incomplete determination unit has determined that a fully open incomplete state has occurred. Instead, it is characterized in that the bellows damage determination unit presents the ID of the bellows valve for which it is determined that the bellows damage is occurring.

Further, in one configuration example of the valve maintenance support device of the present invention, the bellows breakage determining unit generates bellows breakage in the bellows valve when the degree of insufficient opening of the same bellows valve monotonically increases with a substantially constant slope. It is characterized by determining that it is doing.

In addition, the valve maintenance support method of the present invention includes a first step of matching and storing the data of the opening command value given to the bellows valve with the ID of the bellows valve from which the data is transmitted, and the data of the actual opening value of the bellows valve A second step of matching and storing the ID of the bellows valve of the source of the data and the opening command value stored in the first step, searching for the data of the opening command value indicating complete opening, A third step of extracting, as diagnostic data, the actual opening value of the bellows valve to which the command value is assigned, and the actual opening value of the time period corresponding to the opening command value indicating full opening, as diagnosis data; and 4th step of determining whether or not a fully open incomplete state in which the bellows valve does not fully open has occurred in the bellows valve to which an opening command value indicating full opening has been assigned, and determining that a fully open incomplete state has occurred It is characterized by including a fifth step of presenting the ID of one bellows valve as the ID of the valve in which bellows breakage has occurred.

Further, in one configuration example of the valve maintenance support method of the present invention, in the case where the fully open incomplete state occurs a plurality of times in the same bellows valve, and the degree of insufficient opening degree of each of the plurality of fully open incomplete states monotonically increases , further comprising a sixth step of determining that bellows breakage is occurring in the bellows valve, and in the fifth step, instead of presenting an ID of the bellows valve for which it is determined that a fully open incomplete state is occurring in the fourth step, In the sixth step, it is characterized in that it includes the step of presenting the ID of the bellows valve determined that the bellows breakage has occurred.

Further, in one configuration example of the valve maintenance support method of the present invention, in the sixth step, when the degree of insufficient opening of the same bellows valve monotonically increases with a substantially constant slope, bellows breakage occurs in the bellows valve. It is characterized in that it includes the step of determining that it is doing.

According to the present invention, by monitoring the complete opening of the bellows valve, the leakage of fluid from the bellows can be detected, and the person in charge of the work can support the work of selecting the bellows valve as a maintenance candidate. As a result, in the present invention, the maintenance work efficiency of the bellows valve can be improved.

1 is a block diagram showing the configuration of a valve maintenance support device according to a first embodiment of the present invention.
2 is a flowchart illustrating the operation of the valve maintenance support device according to the first embodiment of the present invention.
3 is a flowchart illustrating the operation of the valve maintenance support device according to the first embodiment of the present invention.
Fig. 4 is a diagram showing an example of an opening operation of a bellows valve;
Fig. 5 is a diagram showing an example in which the degree of lack of opening degree monotonically increases with an approximately constant slope;
Fig. 6 is a diagram showing an example in which the degree of lack of opening is not monotonically increasing;
7 is a view showing an example in which the degree of lack of opening is increasing, but the slope is not substantially constant.
8 is a diagram showing the configuration of a plant and its equipment management system according to a second embodiment of the present invention.
Fig. 9 is a block diagram showing an example of the configuration of a computer realizing the valve maintenance support apparatus according to the first and second embodiments of the present invention;
Fig. 10 is a diagram showing an example of a control valve;
11 shows an example of a plurality of valves used in a tank of a plant.

[Principle of invention]

The inventors have found that even if the bellows valve is damaged to such a degree that the effect of the damage is difficult to detect in the frictional force detection, there is damage accompanying fluid leakage from the bellows (108 in Fig. 10) as a case in which fluid leakage becomes a serious event. gave When the bellows are broken, the fluid flowing through the valve enters the inside of the bellows from the outside of the bellows. In addition, in the bellows, the expansion and contraction of the corrugated box shape of the bellows accompanying the vertical movement of the valve shaft (104 in FIG. 10) may act as a propulsive force of the fluid, and thus the upper lid near the bellows joint [upper flange in FIG. 10 ( 110), the fluid infiltrates. Since contacting the upper cover with the fluid is not originally expected, fluid leakage from the bellows can be detected by monitoring whether or not the valve is completely open due to the intrusion of the fluid.

Further, once the fluid enters the upper cover, the once infiltrated fluid does not disappear. Therefore, the possibility of fluid leakage is particularly high when the degree of non-complete opening monotonically increases at a certain pace. That is, if the phenomenon is such that the complete opening abnormality suddenly resolves spontaneously after the complete opening abnormality of the valve occurs, temporary scale (e.g., carbonaceous material contained in the fluid flowing through the valve) adheres at a place away from the bellows, etc. It is reasonable to assume that this is the cause.

[First Embodiment]

Hereinafter, embodiments of the present invention will be described with reference to the drawings. 1 is a block diagram showing the configuration of a valve maintenance support device according to a first embodiment of the present invention. In the following examples, in order to simplify the description, examples of valve IDs (identification information) are made simpler than those used in actual plants.

The valve maintenance support device includes a valve ID storage unit (1) that stores in advance IDs of a plurality of bellows valves that can be candidates for maintenance, and an opening command value given to the bellows valve and an actual opening value of the bellows valve. The opening degree acquisition unit 2 to acquire, the opening command value storage unit 3 to associate and store the data of the opening command value and the ID of the bellows valve from which the data is transmitted, and the data and data of the actual opening value Opening degree command value instructing complete opening among the opening degree measured value storage unit 4 and the opening degree command value storage unit 3 which store the ID of the bellows valve of the sender in correspondence with each other and the opening degree command value storage unit 3 data of , which is the actual opening value of the bellows valve to which this opening command value is given, and the actual opening value of the time period corresponding to the opening command value indicating full opening is extracted as diagnosis data. Based on the opening data extractor 5 and the diagnostic data, it is determined whether or not a fully open incomplete state in which the bellows valve is not fully opened has occurred in the bellows valve to which the opening command value indicating full opening has been assigned, based on the diagnostic data. When a fully open incomplete state occurs a plurality of times in the same bellows valve as in the open incomplete judging section 6, and the degree of insufficient opening each time of the plurality of fully open incomplete states monotonically increases, the bellows valve in the bellows valve It is provided with a bellows damage judging part 7 which determines that breakage has occurred, and a determination result presenting part 8 which presents (displays) the ID of the bellows valve judged to be broken.

2 and 3 are flowcharts explaining the operation of the valve maintenance support device of the present embodiment. In this embodiment, it is assumed that, for example, there are 26 valves in the plant, and these 26 valves are respectively "A", "B", "C", . . . , "M", ... , It is assumed that unique IDs such as "X", "Y", and "Z" are assigned in advance. In particular, valves with valve IDs "A", "C" and "M" are bellows valves with bellows, and these IDs "A", "C" and "M" are stored in the valve ID storage unit 1 in advance. assume that it has been

The positioner (102 in Fig. 10) used for each bellows valve is the opening command value (SP) (stem position command value) given from the host device and the actual opening value (PV) (stem position measured value) of the bellows valve. The air pressure according to the difference of is supplied to the manipulator (103 in FIG. 10).

For the bellows valves whose valve IDs are registered in the valve ID storage unit 1, the opening degree acquisition unit 2 calculates the values of the opening command value SP and the actual opening value PV from the positioner of each bellows valve. Acquire data (step S100 in FIG. 2).

The opening degree acquiring unit 2 associates the data of the opening command value SP with the ID of the bellows valve from which the data is transmitted and information on the reception time of the data, and stores them in the opening command value storage unit 3 ( Fig. 2 step S101). In addition, the opening acquisition unit 2 associates the data of the actual opening value PV with the ID of the bellows valve from which the data is transmitted and information on the reception time of the data, and stores them in the measured opening value storage unit 4. (Fig. 2 step S102).

As for the ID of the bellows valve, the valve ID transmitted by the bellows valve positioner in addition to the data of the opening command value (SP) and the actual opening value (PV) may be acquired by the opening degree acquisition unit 2. The time information may be added from the positioner side of the bellows valve, or may be added by the opening acquisition unit 2.

In this way, by repeating the processing of steps S100 to S102, each time-series data of the opening command value SP and the actual opening value PV is stored in the opening command value storage unit 3 and the opening measurement value storage unit. accumulates in (4).

Next, the fully-opening data extractor 5 extracts the data of the opening command value SP, which indicates full opening, among the opening command values SP stored in the opening command value storage unit 3. Search (step S103 in Fig. 3). Then, the fully-opening data extraction unit 5 is configured to open the bellows to which the opening command value SP indicating full opening is given, among the actual opening value PVs stored in the opening measurement value storage unit 4. The actual opening value (PV) of the valve (bellows valve with the same ID) and the actual opening value (PV) of the time zone corresponding to the opening command value (SP) indicating full opening are extracted as diagnostic data. (Fig. 3 step S104).

The actual opening value (PV) of the time period corresponding to the opening degree command value (SP) instructing full opening refers to the elapse of a predetermined time (Top) from the same time as the opening degree command value (SP) instructing full opening. It refers to the actual opening value (PV) until the next time. The bellows valve has a delay in response to the opening command value SP. Therefore, for example, a time longer than the required time for normal bellows valve opening from 0% to 100% may be set as the predetermined time (Top). If it is a normal bellows valve, it will be fully open within a predetermined time (Top) from the time when the opening degree command value (SP) indicating complete opening is given.

The fully-opening incomplete determination unit 6 is a bellows to which an opening degree command value (SP) instructing complete opening is given based on the diagnostic data extracted for the opening degree command value (SP) instructing complete opening. It is determined whether or not a fully open incomplete state in which the valve is not fully opened has occurred (step S105 in Fig. 3).

4(A) and 4(B) show an example of the bellows valve opening operation. In the example of FIG. 4(A), the actual opening value PV of the bellows valve to which the opening command value SP indicating complete opening is given becomes 100% within a predetermined time Top. In this case, the fully open incomplete determination unit 6 determines that the fully open incomplete state has not occurred in the bellows valve.

On the other hand, in the example of FIG. 4(B), the actual opening value PV of the bellows valve has not reached 100% within the predetermined time Top. In this case, the fully-opening incomplete determination unit 6 determines that the fully-opening incomplete state has occurred in the bellows valve.

When the bellows damage determination unit 7 determines that the fully open incomplete state has occurred in the bellows valve and the fully open incomplete state has occurred in the same bellows valve multiple times (YES in step S106 in Fig. 3), the multiple It is determined whether or not the degree of lack of opening degree (Dif) of each round opening incomplete state is monotonically increasing (Fig. 3 step S107).

As shown in FIG. is the maximum difference. The period from when the opening degree command value (SP) indicates full opening to a value other than fully open is counted as one opening operation. Count as open incomplete. The degree of lack of opening (Dif) can be obtained in the course of each determination by the completely open incomplete determining unit 6.

The bellows breakage judging unit 7 determines that bellows breakage has occurred in this bellows valve, when the degree of opening degree deficiency (Dif) of the same bellows valve in a fully open incomplete state monotonically increases (YES in step S107). It is determined (step S108 in Fig. 3). At this time, the bellows breakage judging unit 7 determines that the bellows breakage is the case when the opening degree deficiency Dif of the same bellows valve monotonically increases with a substantially constant inclination, and excludes a case in which the inclination is not substantially constant. .

For example, FIG. 5 shows a case in which the degree of lack of opening (Dif) monotonically increases with an approximately constant slope. Meanwhile, FIG. 6 shows a case that does not correspond to a monotonic increase, and FIG. 7 shows a case where the degree of lack of opening (Dif) is increasing, but the slope is not substantially constant.

A technique for determining whether or not the degree of lack of opening degree (Dif) monotonically increases with a substantially constant gradient may be appropriately determined. For example, when the bellows damage determination unit 7 linearly approximates the change in the opening degree deficiency Dif by the least square method, the coefficient of determination R ² (0≤R ^2≤1 ) is determined to be the predetermined value TH ( If TH is a real number of 0<TH≤1) or more and less than or equal to 1, it is only necessary to determine that the degree of lack of opening (Dif) monotonically increases with a substantially constant slope. This technique is just one example, and it goes without saying that other judgment techniques may be used. The reason why the degree of lack of opening (Dif) monotonically increases with a substantially constant slope is that the fluid gradually penetrates into the upper cover while accompanying the viscous resistance of the fluid. However, it is desirable to regard the case as shown in Fig. 7 as an abnormality (adherence of a scale that does not come off, etc.) other than bellows breakage.

Further, in the present embodiment, it is determined whether or not the degree of insufficient opening (Dif) monotonically increases when the fully open incomplete state occurs in the same bellows valve a plurality of times. (N is an integer greater than or equal to 3).

The judgment result presentation part 8 presents the valve ID of the bellows valve which was determined to be broken bellows among the bellows valves whose valve ID is registered in the valve ID storage part 1 to the person in charge of operation (FIG. 3 step S109).

However, the judgment result presentation unit 8 presents (displays) information of either "damage" or "no damage" for all bellows valves whose valve IDs are registered in the valve ID storage unit 1. You can do it. In this case, the person in charge of the operation (operator) can confirm the valve ID of the bellows valve that has not been damaged as a result of determining the bellows breakage.

In this way, the processing of steps S100 to S109 in Fig. 3 is performed regularly. Further, in the flowchart of FIG. 3 , it is judged that bellows breakage has occurred in the bellows valve in which the opening degree deficiency Dif monotonically increases at a substantially constant gradient, but the processing of the bellows breakage determination unit 7 (step S106 to S108) may be omitted. In this case, the judgment result presentation unit 8 may present (display) the valve ID of the bellows valve that the fully open incomplete determination unit 6 has determined to be in the fully open incomplete state as the ID of the valve with bellows breakage.

In this embodiment, fluid leakage from the bellows can be detected by monitoring whether or not the bellows valve is completely open, and the person in charge of the operation can support the operation of selecting the bellows valve as a maintenance candidate.

[Second Embodiment]

Next, a second embodiment of the present invention will be described. This embodiment describes a mounting example of the first embodiment. Fig. 8 is a diagram showing the configuration of a plant and its equipment management system, and the same reference numerals are assigned to the same configurations as those in Fig. 11 .

A management device 10 for controlling and managing each device of the plant is installed in the equipment management system of the petroleum and chemical plant. For the valve ID storage unit 1, opening degree acquisition unit 2, opening command value storage unit 3, and opening measurement value storage unit 4 described in the first embodiment, a large amount of plant-specific information In order to handle, it is preferable to mount on the management device 10.

On the other hand, the fully open data extraction unit 5, the fully open incomplete determination unit 6, the bellows damage determination unit 7, and the determination result presenting unit 8, in principle, provide necessary processing only when determining whether or not maintenance of the valve is necessary. is to do In addition, it is common that a maintenance performer (operator in charge of a maintenance entrusted company) is commissioned by the plant owner company to perform maintenance of the plant. Therefore, assuming that an unspecified number of plants are targeted, a fully open data extraction unit 5 and a complete opening incomplete determination unit 6 are provided on a portable computer 11 carried by a person in charge (operator) of a maintenance entrusted company. ), the bellows damage determination unit 7 and the determination result presenting unit 8 are preferably mounted.

The plant management device 10 and the computer 11 are temporarily connected using a communication function such as Ethernet (registered trademark) when performing maintenance work.

When the operator starts the application software on the computer 11, the CPU (Central Processing Unit) of the computer 11 executes processing according to the program stored in the memory, and the completely open data extraction unit 5 and the completely open incomplete version Functions as the control 6, the bellows breakage determining unit 7, and the determination result presenting unit 8 are realized.

The determination result presentation unit 8 reads the valve ID from the valve ID storage unit 1 on the management device 10, and reports the determination result of the bellows damage determination unit 7 (or the fully open incomplete determination unit 6). It is read, and the ID of the bellows valve judged to be broken is displayed on the display of the computer 11 (Fig. 3 step S109).

Based on the displayed valve ID, the operator identifies a bellows valve to which bellows inspection should be particularly noted. The operator releases the connection between the computer 11 and the management device 10 after confirming the displayed items.

In this way, the valve maintenance support device described in the first embodiment can be applied to an actual plant.

The valve maintenance support device described in the first and second embodiments can be realized by a computer having a CPU, a storage device, and an interface, and a program that controls hardware resources thereof. An example of the configuration of this computer is shown in FIG. The computer includes a CPU 300, a storage device 301, and an interface device (I/F) 302. To the I/F 302, for example, a valve, a management device, a display and the like are connected. In such a computer, a program for realizing the valve maintenance support method of the present invention is stored in the storage device 301 . The CPU 300 executes the processing described in the first and second embodiments according to the program stored in the storage device 301.

In the case where the valve maintenance support device is separately mounted on the management device 10 and the computer 11 as shown in the second embodiment, each of these may be implemented with the configuration shown in FIG. 9 .

The present invention can be applied to a technology supporting valve maintenance work.

1: valve ID storage unit 2: opening degree acquisition unit
3: opening command value storage unit 4: opening measurement value storage unit
5: fully open data extraction unit 6: fully open incomplete determination unit
7: Bellows damage determination unit 8: Judgment result presentation unit
10: management unit 11: computer

Claims (6)

An opening command value storage unit configured to store the data of the opening command value given to the bellows valve in correspondence with the ID of the bellows valve from which the data is transmitted;
an opening measurement value storage unit configured to store the data of the actual opening degree of the bellows valve in association with the ID of the bellows valve from which the data is transmitted;
Among the opening command values stored in the opening command value storage unit, the data of the opening command value instructing full opening is searched, and this opening command value is the actual opening value of the bellows valve to which it is given, and also fully open. A fully opening data extracting unit configured to extract, as diagnosis data, an actual opening degree value of a time period corresponding to an opening degree command value indicating opening;
A fully-opening incomplete judging unit configured to determine whether or not a fully-opening incomplete state in which the bellows valve is not fully-opening has occurred in a bellows valve to which an opening command value instructing full-opening has occurred, based on the diagnostic data; and
Judgment result presenting unit configured to present the ID of the bellows valve for which it is determined that the fully open incomplete state is occurring as the ID of the valve in which the bellows breakage is occurring.
A valve maintenance support device comprising a. The bellows breakage occurs in the bellows valve according to claim 1, when the fully open incomplete state occurs a plurality of times in the same bellows valve, and the degree of insufficient opening degree of each of the plurality of fully open incomplete states monotonically increases. Further comprising a bellows damage determination unit configured to determine that
Instead of presenting the ID of the bellows valve for which the fully-opening incomplete determination unit has determined that the fully-opening incomplete state has occurred, the determination result presenting unit displays the ID of the bellows valve for which the bellows breakage determination unit has determined that bellows breakage has occurred. A valve maintenance support device characterized in that presented. 3. The valve maintenance support according to claim 2, characterized in that the bellows breakage judging unit determines that bellows breakage has occurred in the same bellows valve when the degree of insufficient opening of the same bellows valve monotonically increases with a constant gradient. Device. A first step of matching and storing the data of the opening degree command value given to the bellows valve and the ID of the bellows valve from which the data is transmitted;
A second step of matching and storing the data of the actual opening degree of the bellows valve and the ID of the bellows valve of the data transmission source;
Among the opening command values stored in the first step, the data of the opening command value indicating full opening is searched, and this opening command value is the actual opening value of the bellows valve to which it is assigned, and also indicates full opening. A third step of extracting the actual opening value of the time period corresponding to the opening command value being performed as diagnosis data;
A fourth step of determining, based on the diagnostic data, whether or not a fully open incomplete state in which the bellows valve is not fully opened has occurred in the bellows valve to which an opening command value instructing full opening has been assigned, and
A fifth step of presenting the ID of the bellows valve for which it is determined that the fully open incomplete state has occurred as the ID of the valve in which the bellows breakage has occurred.
A valve maintenance support method comprising: The bellows breakage occurs in the bellows valve according to claim 4, when a fully open incomplete state occurs a plurality of times in the same bellows valve, and the insufficient degree of opening in each of the plurality of fully open incomplete states monotonically increases. Further comprising a sixth step of determining that
In the fifth step, instead of presenting the ID of the bellows valve determined to have occurred in the fully open incomplete state in the fourth step, the ID of the bellows valve determined to occur in the sixth step presents the ID of the bellows valve. A valve maintenance support method comprising the step of doing. 6. The method according to claim 5, wherein the sixth step includes a step of determining that bellows breakage has occurred in the same bellows valve when the degree of lack of opening degree monotonically increases with a constant slope. How to support valve maintenance.

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