JP3237413B2 - Process alarm value detection method - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for detecting an abnormal value which may occur during a control process as an alarm value by a process monitoring device in a system for controlling a controlled object by a plurality of process control devices. .

[0002]

2. Description of the Related Art FIG. 6 shows an example of a control target. In the figure, of all the control targets, a control target CO1 and a control target CO2 are shown. Control target CO1 is the liquid supplied to tank TK1
RQ1 is heated by a heater HT1 to a predetermined temperature and then sent out by a pump PM1. The flow rate of the liquid RQ1 is adjusted so that the flow rate detected by the flow meter FL1 is within the specified range.
It is controlled by the opening of V13. The inflow of liquid RQ1 is
The liquid level of the liquid RQ1 is detected by a liquid level gauge QL1, and is controlled by the opening of the valve V11 so that the liquid level is within a predetermined range. Further, the temperature of the liquid RQ1 is detected by the temperature sensor TH1, and the detected temperature is compared with the reference temperature, and the temperature of the heater RQ1 is determined.
The flow rate of steam serving as the heat source of HT1 is controlled to a predetermined temperature by controlling the opening of the valve V12. Control target
CO2 is a device having a function similar to that of the controlled object CO1, and is a device for heating the liquid RQ2 supplied to the tank TK2 to a predetermined temperature by the heater HT2 and then sending it out by the pump PM2. In the figure, V21 is a valve that controls the flow rate of the liquid RQ2, V22 is a valve that controls the flow rate of steam that is a heat source, V23 is a valve that controls the flow rate of the liquid RQ2, TH2 is a temperature sensor, and QL2 is a level gauge. , FL2 are flow meters, the operation of which is the same as that of the same purpose shown in FIG.

FIG. 7 shows an example of a control system including a process control device for controlling the device shown in FIG. 6 and a process monitoring device. In the figure, 1 is a main control device, PC1 is a first process control device, PC2 is a second process control device, and the first process control device PC1 is a temperature sensor TH1, of the controlled object CO1 shown in FIG. A signal from the flow meter FL1 etc. is input to control the control target CO1, and the second process control device
The PC2 inputs signals from the temperature sensor TH2 of the controlled object CO2 and the flow meter FL2 shown in FIG. 6 to control the controlled object CO2. The main control device 1 is connected to the first process control devices PC1, PC1 via signal lines SB configuring a LAN (Local Area Network).
And send and receive signals to and from the process control device PC2,
These process control devices are controlled with reference to information from the first and second process control devices. Reference numeral 2 denotes a process monitoring device connected to the first process control device PC1 and the second process control device PC2 via the signal line SB.

An alarm value indicating an abnormal state during the stroke of the system shown in FIG. 7 is detected as described below. In the process control device COi (i is a number 1 or 2), a limit value corresponding to a boundary value between a normal value and an abnormal value is set in advance for each control amount to be controlled. For example, a lower limit temperature Td1 outside the figure and an upper limit temperature Tp1 outside the figure are given as limit values of the temperature of the control target PC1. Process control device PC1
Inputs the temperature detected by the temperature sensor TH1 at a predetermined time interval, compares the input temperature with the lower limit temperature Td1 and the upper limit temperature Tp1, and if the input temperature is lower than the lower limit temperature Td1 or higher than the upper limit temperature Tp1, The input temperature is stored as an alarm value in the storage means MP1 provided in the process control device PC1. When an alarm value is similarly detected in the process control device PC2, the detected alarm value is stored in a storage means MP2 provided inside the process control device PC2. As long as the signal line SB is vacant, the process monitoring device searches for the presence or absence of the alarm value stored in the storage means MPi (i is a number 1 or 2) of the process control device PCi at regular time intervals, and If there is a value, the alarm value is read out and displayed on the display unit of the process monitoring device 2.

[0005]

As described above, the process monitor uses the alarm value detected by the process controller and stored in the storage means of the process controller in the time period when the signal line is free. And read it out and display it on the display unit of the self-monitoring device. However, since the signal line is used by various signals, the alarm value is not always free at a regular time when the alarm value is read from the process monitoring device, and may be read at a time later than the regular time. When the alarm value is read out at a later time than the scheduled time, if there are a plurality of alarm values, the order of the alarm value generation time may not match the time when the alarm value is read out to the process monitoring device. In this case, the display order of the alarm values displayed on the process control device does not match the generation order of the alarm values. On the other hand, the purpose of displaying the alarm value on the process monitor is
Notifying the detection of the alarm value and prompting the process to return to the normal state, and at the same time giving clues to investigate the cause of the alarm value generation, the alarm value detection order must be correctly set in order of detection time for investigating the cause. Must be displayed. Therefore,
It is extremely undesirable that the order of display and the order of generation of alarm values may become inconsistent because the cause of alarm value generation may be erroneously determined.

In view of the above circumstances, an object of the present invention is to provide a process alarm which, when an alarm value is detected, correctly displays the detected alarm value on a display unit of the process monitoring device in the order of detection time of the alarm value. It is to provide a value detection method.

[0007]

According to a first aspect of the present invention, there is provided a system for controlling an object to be controlled by a plurality of process controllers connected to a main controller by signal lines. In a method for detecting an abnormal value which may occur during a control process as an alarm value by a process monitoring device, a process control device includes a storage unit provided in each of the process control units. A function of storing a limit value of a boundary value between a normal value and an alarm value, detecting an alarm value based on the limit value, and a function of storing an alarm value and a detection time of the alarm value in the storage device. In each process control device, the case where the signal line is vacant is selected, and at each predetermined time at a predetermined time interval, this time is transmitted to the process monitoring device as the guaranteed time, and when the guaranteed time is transmitted. Alarm value If it is detected is characterized in that to transmit reads the detection time of the alarm value and the alarm value from the storage device continues to guarantee time to the process monitoring system.

Further, according to the second invention, an alarm value time series storage area for storing alarm values in the order of detection time in a storage means in the process monitoring device, a guaranteed time, an alarm value, and an alarm from each process control device. An alarm information area is provided for each process control device, comprising a value detection time and other data related to the alarm value, and the guaranteed time, the alarm value, and the alarm value detection time transmitted from each process control device correspond to each other. Stored in the alarm information area of each process control device, and at a predetermined cycle, the oldest oldest alarm value among the oldest security time and the oldest alarm value detection time from the alarm time are detected from the alarm information area. When the alarm value detection time does not exist or the earliest alarm value detection time is later than the oldest security time, the processing for excluding the oldest security time is performed. Value detection time exists In this case, the oldest alarm value detection time and the alarm value detected at this time are stored in the alarm value time series storage area, and the oldest alarm value detection time and the oldest alarm value detection time in the alarm information area are used. The alarm value stored in the alarm value time series storage area and the alarm value detection time at the time when this alarm value is detected are chronologically determined each time a predetermined number of times of the predetermined period elapses. It is characterized in that it is displayed on the display unit of the process monitoring device in order.

Further, according to the third aspect, prior to the start of the control of the control target, the process monitoring device controls the limit value serving as a reference for detecting the alarm value and other data related to the detection of the alarm value from the process monitoring device. It is characterized in that it is stored in storage means of a process control device constituting a system.

[0010]

In the method for detecting an alarm value of a process according to the first invention, each process control device for controlling a controlled object compares a control amount measured during a control process with a limit value and determines the measured control amount. When the limit value is exceeded, the measured value is stored as an alarm value, and the point in time when the alarm value is detected is stored as an alarm value detection time in a storage means inside the process control device. On the other hand, the case where the signal line is free is selected, and at a predetermined time at a predetermined time interval, the transmission time is transmitted to the process monitoring apparatus as the guaranteed time. If the alarm value is stored in the storage unit when the security time is transmitted, the alarm value and the detection time of the alarm value are transmitted to the process monitoring device following the transmission of the security time.

In the method for detecting an alarm value of a process according to a second aspect of the present invention, the process monitoring device transmits the guaranteed time transmitted from the process control device, and an alarm value and an alarm value detection time other than the guaranteed time. In this case, the security time, the alarm value, and the alarm value detection time are stored in the alarm information area provided in the storage means of the process monitoring device for each process control device. Further, the process monitoring device searches for the earliest security time from the alarm information area. If there is an alarm value that occurred in the past from the earliest security time, the oldest alarm value detection time is searched from the alarm information area, and the alarm value detected at the oldest alarm time and the oldest alarm value are searched. The detection time is stored in the alarm value time series storage area, and after the storage, the stored alarm value and the oldest alarm value detection time are read out, and the alarm value in the alarm value area, the alarm value detection time, and the security time are stored. To disable. Further, the process monitoring device displays the alarm value stored in the alarm value time series storage area and the alarm value detection time at which the alarm value is detected on the display unit of the process monitoring device in chronological order.

Further, in the third method for detecting an alarm value of a process according to the present invention, when the control of the controlled object is started,
Prior to the start of control, a limit value serving as a reference for detection of an alarm value and other data related to detection of an alarm value are stored in a storage means of a process control device constituting a control system from a process monitoring device, Each process controller detects the alarm value based on the stored limit value and refers to other data related to the detection of the alarm value.

[0013]

【Example】

(Embodiment 1) FIG. 1 shows an example of a system to which this method is applied as an embodiment of a method for detecting an alarm value of a process according to the first and second inventions. In the following description, the same code is used for the code representing the data and the area of the storage means for storing the data. FIG. 1A is a diagram showing a main part of the system, in which 2A is a process monitoring device, PCA1 is a first process control device, PCA2 is a second process control device, and SB is a process monitor device. This is a signal line for transmitting a signal between the monitoring device 2A and the process control device PCAi (i is a number 1 or 2).

The process monitoring device 2A includes a program storage unit 22 for storing a program including an alarm value collection program 22AP and a display program 22DP, and a central processing unit 21 for executing the program stored in the program storage unit.
, Data storage means 23, input means 25, central processing unit
A display means 26 performs a display operation according to a display program executed by the display program 21, and is connected to the process control device PCA1 and the process control device PCA2 via the signal line SB via the interface 24. Fig. 6 shows the process control device PCA1.
To control the controlled CO1 shown in
Temperature sensor TH1, flow meter FL1, etc. are connected.
The process control arithmetic unit PCA2 is a control target CO2 shown in FIG.
In order to control the temperature, a temperature sensor TH2 of the controlled object CO2, a flow meter FL2, and the like are connected. FIG. 1B is a block diagram showing the inside of the process control device PCAi. In the drawing, reference numeral 21Pi denotes control operation means, and 22Pi denotes a process control device PCAi.
Temperature sensor TH connected to i via input / output circuit 27Pi
i, a data collection program DCP for inputting and processing data from the flow meter FLi, etc. and a process monitoring device via the signal line SB via the interface 24Pi via the interface 24Pi
2A is a program storage means for storing a program including a data transmission program DSP to be transmitted to 2A, and 23Pi is data containing a limit value LDi, a detected alarm value ADi, and an alarm value detection time ATi representing a detection time of the alarm value. Is a data storage means for storing.

FIG. 2A shows a storage area of the data storage means 23 of the process monitoring apparatus 2A shown in FIG. 1A. In the figure, AL1 is an area for storing alarm information AL1 transmitted from the process control device PC1, and AL2 is an area for storing alarm information AL2 transmitted from the process control device PC2. An information area is reserved. ADT is an alarm value time series storage area. FI is a flag, and is a storage area secured in the storage means 23 together with other data not shown. In FIG. 2B, the alarm information storage area ALi shown in FIG. 2A (i is a numerical value 1, 2 or the like indicating a number)
Indicates the contents of In the figure, ADi is alarm data, and the alarm data ADi includes a portion APi to be monitored in the control target, a limit value AVi, a detection value SVi of a value obtained by measuring a control amount of the control target, and the like. ATi is the detection value SVi exceeding the limit value AVi, that is,
ATSi is an alarm value detection time indicating a time when an alarm value is detected, and ATSi is a guaranteed time indicating a transmission time to the process monitoring apparatus 2A.

The display processing of the alarm value in the control system shown in FIG. 1A is performed as described below. The process control device PCAi (i is a numerical value 1 or 2 representing a number) indicates that when the alarm value is not detected at the transmission time of the regular security time, the transmission time is set as the guaranteed time, and only the security time is used as the process monitoring device 2A. And the transmitted guaranteed time is stored in the alarm information area ALi (i is a number corresponding to the number i of the process control device PCAi) assigned to the process control device PCi. Further, when an alarm value is detected at the transmission time of the regular security time, the process control device PCAi transmits the transmission time as the guarantee time, and after the transmission of the security time, the detected alarm value and the An alarm value detection time indicating the time of detection of the alarm value is transmitted, and the transmitted data is stored in the alarm information area ALi.

On the other hand, the central processing unit 21 of the process monitoring device 2A
Executes the alarm value collection program 22AP at a fixed time interval, thereby searching the alarm information area ALi, and obtaining a security time representing the earliest time among the security times (the oldest security time in the following description) If there is an alarm value detection time, an alarm value detection time representing the earliest time among the alarm value detection times (hereinafter referred to as an oldest alarm value detection time) is searched. If the alarm value detection time does not exist or the oldest alarm value detection time before the oldest guarantee time does not exist, it means that the alarm value did not exist before the oldest guarantee time, and thereafter, Since the oldest security time does not need to be referred to, the earliest security time is excluded when searching for the next oldest security time. If the oldest alarm value detection time before the oldest security time exists, the oldest alarm value detection time and the alarm value detected at this time are already stored in the alarm value time series storage area. If there is data that has been set, it is stored in the order following the previous data. With this storage, the processing of the stored data is completed, so the stored alarm value, the alarm value detection time of this alarm value, and the security value time at which this alarm value was transmitted are excluded, and the processing in the next cycle is performed. enter. By repeating the processing of the above-described cycle, the alarm value and the alarm value detection time are stored in the alarm value time series storage area in the order of the occurrence time. For convenience, a series of processes from the search for the oldest security time described above to before the search for the next oldest security time is referred to as one search cycle in the following description. The central processing unit 21 displays the alarm values stored in the alarm value time-series storage area and the alarm value detection times in the storage order by executing the display program 22DP at every fixed number of search cycles. The display contents are
As described above, since the alarm values are stored in the order of the time series in which the alarm values are detected, the alarm value and the alarm value detection time point are displayed in the order of the occurrence time system.

FIG. 3 is a diagram showing a display order of alarm values when both the alarm information AL1 and the alarm information AL2 include an alarm value, for example, in which time elapses from top to bottom. As shown. First, in the first search cycle, the security time ATS1 of the alarm information AL1 is earlier than the security time ATS2 of the alarm information AL2. Therefore, if only two process control devices PCAi are provided, the security time ATS1 is the highest. It is the old security time. When the alarm value detection time is searched, there are an alarm value detection time AT1 and an alarm value detection time AT2. Since the alarm value detection time is only these two, the alarm value detection time AT
2 is the earliest alarm value detection time. When the oldest security time ATS1 is compared with the oldest alarm value detection time AT2, the oldest alarm value detection time AT2 is a time earlier than the oldest security time ATS1.
The alarm value detection time AT2 and the alarm value SV2 at this time are stored in the alarm value time series storage area ADT (see (a) of FIG. 2). In the next search cycle, the displayed alarm value SV2, alarm value detection time AT2, and security time ATS2 are excluded, and the oldest security time
ATS1 remains as the oldest security time, the oldest alarm value detection time becomes the alarm value detection time AT1, and the alarm value SV1 and the alarm value detection time AT1 are compared with the previously stored alarm value SV2 and the alarm value detection time. It is stored in the alarm value time series storage area following the time AT2. The stored result is stored in the central processing unit 21 (FIG. 1).
(see (a)) is displayed on the display means 26 (see (a) of FIG. 1) in the storage order by executing the display program 22DP.

FIG. 4 shows the retrieval process of storing the alarm value and the alarm value detection time in the alarm value display process described above until the alarm value is stored in the alarm value time series storage area ADT shown in FIG. It is a flowchart which shows a cycle. As shown in FIG.
Process control device in the system shown in (a)
By executing the alarm value collection program 22AP, the central processing unit 21 of 2A first searches for the earliest security time from the alarm information ALi stored in the data storage means 23 in processing F10, and then executes processing F11 In the alarm information AL
Search the oldest alarm value detection time from i. Next processing F1
In step 2, the oldest alarm value detection time is compared with the oldest security time, and if the oldest alarm value detection time is earlier than the oldest guarantee time, the process proceeds to step F13. The alarm value detection time and the alarm value detected at this time are stored in the alarm value time series storage area, and the process proceeds to processing F14.
In the process F14, the alarm value detection time and the alarm value stored in the process F13 are excluded from the next search cycle, and the process proceeds to the process F15. In process F15, the process
The process of excluding the guaranteed time of the time when the alarm value or the like stored in F15 is transmitted from the next detection cycle is performed, and the process proceeds to the next search cycle. On the other hand, if the oldest alarm value detection time is later than the oldest guaranteed time in the process F12, or if there is no alarm value detection time, the process proceeds to the process F16,
In the process F16, a process for excluding the searched oldest security time from the next search cycle is performed, and the process proceeds to the next search cycle. (Embodiment 2) FIG. 5 is a diagram showing an example of a system to which an alarm value detection method of a process according to the third invention is applied. 9 is a flowchart illustrating a process of storing other data related to the detection of a value from a process monitoring device to a process control device. The process shown in this flowchart is performed in the same system as the system shown in FIG. 1A by using an unset flag FI (see FIG. 2A) provided in the storage means 23 of the process monitoring apparatus 2A. Since this is done by using regions, the system of this embodiment
The system is the same as the system shown in FIG. 1A, and the description of the system is omitted.

Process monitor 2A (see FIG. 1 (a))
Is started, the process monitoring device first detects whether or not the control target is operating normally by the control of the control target being continuously executed by a main controller (not shown). For example, if the operation is stopped due to inspection or the like, the operation is not in a normal operation state, and the process proceeds to step F5, where the unset flag provided in the area of the data storage means 23 (see (a) of FIG. 2).
The contents of FI are set to 1 (that is, the flag FI is set), and the process F1 and the process F5 are repeated until the control action becomes the operation state, and the process stands by. When the normal operation starts, the process proceeds to process F2, in which it is determined whether the content of the unset flag FI is 1 and if the content of the unset flag FI is 1, the process monitoring device 2A is in the initial state. Therefore, the process proceeds to the process F3.In this process, the process control device transmits the alarm information including the limit value for detecting the alarm value in each part of the control target and other data related to the alarm value detection. PC
Ai (see FIG. 1A) is stored in the storage means 23Pi. For example, a number for identifying the temperature sensor THi for which an alarm value is to be detected, a temperature as a limit value, and the like are stored. Next, in a process F4, the content of the unset flag FI is set to 0. That is, the unset flag is cleared. When the process from the process F1 is executed again at a later time, the alarm information is not stored again because the unset flag FI has already been cleared. When the operation of the controlled object is stopped and restarted,
Since the process F5 is executed based on the determination of the process F1, the alarm information is stored again in the process control device PCAi.

[0021]

As described above, the method according to the first aspect of the present invention relates to a system for controlling a controlled object by a plurality of process controllers connected to a main controller by signal lines.
In a method for detecting an abnormal value which may occur during a control process as an alarm value by a process monitoring device by a process monitoring device, a storage means is provided in each process control device, and a limit value is stored in the storage means. In addition, a function of detecting an alarm value based on the limit value and a function of storing the alarm value and a detection time at which the alarm value is detected are provided, and a signal line is vacant in each process control device. Select a case and, at each predetermined time at a predetermined time interval, transmit this time as a guaranteed time to the process monitoring device.If an alarm value is detected at the time of transmission of the guaranteed time, an alarm value and an alarm are added following the guaranteed time. The detection time of the value and the process monitoring device are transmitted.

Therefore, according to the method of the first invention, since the alarm value is immediately detected by the process control device for controlling the control object, the detection time of the alarm value is approximately equal to the generation time of the alarm value. The alarm value is detected by referring to the alarm value detection time, even if there is a difference between the time when the alarm value is detected and the time when the alarm value is transmitted in order to wait for an empty signal line Since the order of the time becomes clear, the occurrence time of the alarm value can be correctly known in the order of the occurrence time.

Further, in the method of the second invention, an alarm value time series storage area for storing alarm values in order of detection time in a storage means in the process monitoring device, a guaranteed time, an alarm value, and an alarm from each process control device. An alarm information area is provided for each process control device, comprising a value detection time and other data related to the alarm value, and the guaranteed time, the alarm value, and the alarm value detection time transmitted from each process control device correspond to each other. Stored in the alarm information area of each process control device, and at a predetermined cycle, the oldest oldest alarm value among the oldest security time and the oldest alarm value detection time from the alarm time are detected from the alarm information area. When the alarm value detection time does not exist or the earliest alarm value detection time is later than the oldest security time, the processing for excluding the oldest security time is performed. Value detection time exists In this case, the oldest alarm value detection time and the alarm value detected at this time are stored in the alarm value time series storage area, and the oldest alarm value detection time and the oldest alarm value detection time in the alarm information area are stored. The alarm value in the alarm value stored in the alarm value time-series storage area and the alarm value detection time at the time when this alarm value is detected are excluded from the alarm value every time a predetermined number of times of the predetermined period elapses. The information is displayed on the display unit of the process monitoring device in the order of the sequence. Therefore, according to the method of the second invention, the alarm values can be displayed correctly according to the order of generation.

Further, in the method of the third invention, prior to the start of the control of the controlled object, the limit value serving as a reference for detecting the alarm value and other data related to the detection of the alarm value are controlled from the process monitoring device. It is stored in the storage means of the process control device constituting the system. Therefore, according to the method of the third invention, even if a change occurs in the limit value of the controlled variable of the controlled object, for example, in a plant that manufactures a beverage having a different mixing ratio, the components to be mixed are changed due to the difference in the type of the beverage. When it is necessary to change the limit value of the liquid flow rate, the process monitoring device automatically sets the limit value of the process control device that controls the control target without having to set it again at the installation location for each process control device. The limit value is stored in the process control device, and the alarm value is correctly detected for each product.

[Brief description of the drawings]

FIG. 1 is a diagram showing an embodiment of a method for detecting an alarm value of a process according to the method of the present invention, wherein FIG. 1 (a) shows a system for controlling a process to be controlled, and FIG. Internal block diagram

FIG. 2 is a diagram showing the contents of a data storage means of the process monitoring apparatus shown in FIG. 1 (a), wherein (a) shows an alarm information, an alarm value time series storage area, and other data areas. Figure,
(b) is a diagram showing the contents of the alarm value information

FIG. 3 is a diagram illustrating a display order of alarm values.

FIG. 4 is a flowchart showing the operation of the process monitoring apparatus shown in FIG.

FIG. 5 is a flowchart showing the operation of a process monitoring apparatus according to another embodiment of the process alarm value detecting method according to the method of the present invention;

FIG. 6 is a diagram showing an example of a control target of a process control to which a process alarm value detection method is applied;

FIG. 7 is a diagram showing an example of a process control system to which a conventional process alarm value detection method is applied.

[Explanation of symbols]

 2A Process monitoring device 21 Central processing unit 22 Program storage unit 22AP Alarm value collection program 22DP display program 23 Data storage unit 25 Input unit 26 Display unit PCA1 First process controller PCA2 Second process controller

──────────────────────────────────────────────────続 き Continuation of the front page (51) Int.Cl. ⁷ Identification code FI G08B 29/26 G08B 29/26 (56) References JP-A-60-195417 (JP, A) JP-A-57-710 (JP) JP-A-1-304530 (JP, A) JP-A-1-298895 (JP, A) (58) Fields studied (Int. Cl. ⁷ , DB name) G05B 23/02 G08B 23/00 G08B 29/26

Claims (3)

(57) [Claims] An abnormal value which may occur during a control process of a system for controlling a control target by a plurality of process control devices connected to a main control device by signal lines is used as a process monitoring value as an alarm value. In the method for detecting an alarm value of a process detected by a device, a storage means is provided in each process control device, and a limit value of a boundary value between a normal value of a control amount and an alarm value is stored in the storage means. A function to detect an alarm value based on
A function of storing an alarm value and a detection time of the alarm value in the storage device is provided.Moreover, for each process control device, a case where a signal line is vacant is selected, and at every predetermined time at a predetermined time interval, This time is transmitted to the process monitoring device as the security time, and if an alarm value is detected at the time of transmission of the security time, the alarm value and the detection time of the alarm value are read from the storage device following the security time to monitor the process. A method for detecting an alarm value of a process, wherein the alarm value is transmitted to a device. 2. A process alarm value detection method according to claim 1, wherein an alarm value time-series storage area for storing alarm values in order of detection time in a storage means in the process monitoring device, and a guarantee from each process control device. An alarm information area is provided for each process control device that includes a time, an alarm value, an alarm value detection time, and other data related to the alarm value, and a guaranteed time, an alarm value, and an alarm value transmitted from each process control device are provided. The detection time is stored in the alarm information area for each process control device, and at a predetermined cycle, the earliest oldest security time and the oldest alarm time in the security time are detected from the alarm information area. The oldest alarm value detection time is searched for, and if the alarm value detection time does not exist or the oldest alarm value detection time is newer than the oldest security time, the oldest security time is excluded and the oldest security time is excluded. Past from security time If the alarm value detection time of the oldest alarm value exists, the oldest alarm value detection time and the alarm value detected at this time are stored in the alarm value time series storage area, and the oldest alarm value detection time in the alarm information area is stored. And the alarm value at the earliest alarm value detection time is excluded, and every time a predetermined number of times in a predetermined period elapses, the alarm value stored in the alarm value time series storage area and the alarm value at the time when this alarm value is detected An alarm value detection method for a process, wherein alarm value detection times are displayed in chronological order on a display unit of a process monitoring device. 3. A method for detecting an alarm value of a process according to claim 1, wherein prior to the start of control of the controlled object, a limit value serving as a reference for detecting an alarm value and other data related to the detection of the alarm value are stored. A method for detecting an alarm value of a process, wherein the alarm value is stored in a storage unit of a process control device constituting a control system from a process monitoring device.