JP2020135220A - Method for managing plant equipment and follow-up device for plant equipment - Google Patents

Abstract

To provide a plant equipment management method and a follow-up observation device, which are capable of performing follow-up observation at low cost with respect to an object for which it is necessary to continuously grasp a state, and without increasing a number of patrol inspections by a worker and the like.SOLUTION: A method for managing plant equipment is provided, which comprises: a follow-up observation device 1a for acquiring information necessary for follow-up observation; a follow-up observation device installation step of installing this follow-up observation device; and a follow-up observation device collecting step of collecting the follow-up observation device after a completion of a follow-up observation period. As a result, it is not necessary to permanently install a device that acquires information related to a target state, and it is possible to reduce a cost. Also, since it is possible to obtain information related to a state of a target by temporarily installing the follow-up observation device, it is not necessary for the worker and the like to increase a number of patrol inspections, and it is possible to take an appropriate measure for the target.SELECTED DRAWING: Figure 1

Description

The present invention relates to a method for managing plant equipment and a follow-up device for plant equipment.

Conventionally, in the maintenance of equipment and devices provided in a plant, preventive maintenance is performed in which the service life and service life are set for each part of the equipment and the equipment is replaced regardless of the presence or absence of failure. In this case, while planned work is possible, if the equipment fails before the set useful life or useful life, it may lead to a large-scale accident. In addition, there is also a problem that parts that can still be sufficiently used are wastefully replaced.

On the other hand, from the viewpoint of extending the life of plant equipment and equipment and maintenance costs, predictive maintenance is required to grasp information on the condition of equipment and equipment and to take measures such as repair and replacement at the optimum time. For this reason, in the maintenance of plant equipment, the load required for inspection to obtain information on the condition of the equipment and equipment is increasing.

In conventional inspections, for some facilities and equipment that are particularly important in plant operation, a function is provided to automatically collect information related to sensor readings and operation data, and the obtained information is used. It is accumulated in the central monitoring room, etc., analyzed, and workers go to the site to respond as necessary. In addition, other facilities and equipment are inspected by workers.

For example, in Patent Document 1, an identification information holder that holds identification information unique to field equipment including sensors, valves, and equipment provided in a plant, and an identification information holder used by an operator when inspecting the field equipment. A field data collection system equipped with a portable information terminal for inspection is described. In this field data collection system, the mobile information terminal reads and stores the indicated value of the indicator during the patrol inspection by the operator, so that the problem of misreading or erroneous input of the indicated value by the operator is solved. ..

JP-A-2018-106389

As in Patent Document 1, when an identification information holder is provided for each device and data is read and stored in a portable information terminal during a patrol inspection by a worker, it is possible to obtain information related to the state of each device without overlooking it. Become. On the other hand, it is necessary to assign identification information to each of a large number of various devices and to install an identification information holder, which causes a problem that the cost for the work becomes high.

In addition, when performing maintenance and management of plant equipment from the viewpoint of predictive maintenance, although the function does not stop immediately due to failure, if information on the condition of the equipment showing a tendency of malfunction is confirmed, the condition of the equipment is continued. It becomes necessary to grasp the target. Similarly, it becomes necessary to continuously grasp the state of the device even in the device to which the first aid is given.
However, as described in Patent Document 1, when a worker needs to patrol the plant and collect data in order to grasp the state of the device, in order to continuously grasp the state of the device. Will increase the number of patrol inspections by workers. Considering the labor shortage and human cost due to the recent population decline, it is preferable to reduce the number of patrol inspections by workers.

Therefore, in the maintenance of plant equipment, the cost is low and the operator is required for equipment that temporarily needs to be continuously grasped, such as equipment that shows a tendency of malfunction and equipment after first aid. It is required to take appropriate measures without increasing the number of patrol inspections.

An object of the present invention is to maintain and manage plant equipment at low cost and without increasing the number of patrol inspections by workers for an object for which it is temporarily necessary to continuously grasp the state. It is to provide a management method of plant equipment and a follow-up observation device of plant equipment capable of follow-up observation of grasping the state of a target only for a necessary period.

As a result of diligent studies on the above-mentioned problems, the present inventor has provided a device for acquiring information necessary for follow-up observation for an object requiring follow-up observation, such as a device showing a tendency of malfunction or a device after first aid treatment. We found that by installing and collecting the installed equipment after a predetermined period of time, it is possible to grasp the state of the target at low cost and without increasing the load of patrol inspection by the operator. , The present invention has been completed.
That is, the present invention is the following plant equipment management method and plant equipment follow-up device. Hereinafter, the follow-up device of the plant equipment of the present invention may be simply referred to as a follow-up device.

The method for managing the plant equipment of the present invention for solving the above problems includes a follow-up observation device installation step of installing a follow-up observation device for acquiring information necessary for follow-up observation for an object requiring follow-up observation. It is characterized by including a follow-up device recovery step for collecting the follow-up device after the follow-up period is completed.
According to this plant equipment management method, for a target that requires follow-up observation, a follow-up observation device that acquires information necessary for follow-up observation is installed for the required period and then collected, thereby relating to the condition of the target. There is no need to permanently install a device for acquiring information, which makes it possible to reduce costs. In addition, by temporarily installing a follow-up observation device for follow-up observation, information on the condition of the target can be acquired, so that the operator does not need to increase the number of patrol inspections and takes appropriate measures for the target. It becomes possible.

Further, one embodiment of the method for managing plant equipment of the present invention is characterized in that a follow-up observation target detection step for detecting an object requiring follow-up observation is provided before the follow-up observation device installation step.
According to this feature, by detecting an object that requires follow-up in advance, it is possible to select an object that requires follow-up in addition to the equipment that has already shown a tendency to malfunction. However, by performing follow-up observation by installing and collecting the follow-up observation device, it is possible to reduce the workload of inspection in the maintenance of plant equipment.

Further, as one embodiment of the method for managing plant equipment of the present invention, the follow-up observation device is characterized in that it can acquire information related to a plurality of parameters required for follow-up observation.
According to this feature, by having the follow-up device acquire information related to a plurality of parameters, it is possible to acquire sufficient information related to the target state by installing the follow-up device once. However, it is not necessary to increase the number of patrol inspections, and it is possible to reduce the inspection workload. In addition, the range of objects that require follow-up observation can be expanded, and the versatility as a management method for plant equipment can be enhanced.

The follow-up observation device of the plant equipment of the present invention for solving the above problems is installed for an information acquisition unit that acquires information related to parameters necessary for follow-up observation and an object that requires follow-up observation. The installation unit is characterized by having a structure that can be easily installed and removed from the target.
According to this plant equipment follow-up device, by facilitating installation and removal of objects that require follow-up observation, it is not necessary to permanently install a device that acquires information necessary for follow-up observation, resulting in cost reduction. It will be possible. In addition, since it is possible to acquire information on the state of the target that requires follow-up observation, it is not necessary for the operator to increase the number of patrol inspections, and it is possible to take an appropriate response to the target.

According to the present invention, in the maintenance and management of plant equipment, for a target for which it is temporarily necessary to continuously grasp the state, the cost is low and the number of patrol inspections by the operator does not increase. It is possible to provide a plant equipment management method and a plant equipment follow-up device capable of performing follow-up observation only for a necessary period to grasp the state of the target.

It is a schematic explanatory drawing which shows the plant equipment to which the follow-up observation apparatus of 1st Embodiment of this invention is applied. It is a schematic explanatory drawing which shows the structure of the follow-up observation apparatus of 1st Embodiment of this invention. It is a process explanatory drawing which concerns on the follow-up observation apparatus installation step in the management method of the plant equipment of 1st Embodiment of this invention. It is the other process explanatory drawing concerning the follow-up observation apparatus installation step in the management method of the plant equipment of 1st Embodiment of this invention. It is the other process explanatory drawing concerning the follow-up observation apparatus installation step in the management method of the plant equipment of 1st Embodiment of this invention. It is a process explanatory drawing concerning the follow-up observation apparatus recovery step in the management method of the plant equipment of 1st Embodiment of this invention. It is a schematic explanatory drawing which shows the structure of the follow-up observation apparatus of the 2nd Embodiment of this invention.

Hereinafter, preferred embodiments according to the present invention will be described in detail with reference to the accompanying drawings.
The follow-up observation device for plant equipment described in the embodiment is merely exemplified for explaining the follow-up observation device for plant equipment according to the present invention, and is not limited thereto. Further, the method of managing the plant equipment described in the embodiment is also merely exemplified for explaining the method of managing the plant equipment using the follow-up observation device of the plant equipment according to the present invention, and is limited thereto. is not.

The plant equipment management method and follow-up device of the present invention relate to the maintenance of plant equipment. The plant equipment to be maintained is not particularly limited, but the plant equipment in which the equipment and equipment are arranged in a large site is particularly suitable. Examples include chemical plants, water treatment plants and power plants.
The plant equipment described in the embodiment is an example for explaining the present invention, and is not limited thereto.

[First Embodiment]
(Follow-up equipment for plant equipment)
FIG. 1 is a schematic explanatory view showing plant equipment to which the follow-up device according to the first embodiment of the present invention is applied.
As shown in FIG. 1, the follow-up device 1a according to the first embodiment of the present invention is installed in the object 110 in the plant 100 where follow-up observation is required.

The plant 100 in this embodiment includes a plurality of devices 101a-101i and a monitoring room 102. The types of the plant 100 and the equipment 101a to 101i are not particularly limited. Further, in the present embodiment, nine devices 101a to 101i are shown, but the number of devices is not particularly limited.
FIG. 1 illustrates a case where the plant 100 is a water treatment plant having three lines. In FIG. 1, equipment 101a-101c shows a first settling basin, equipment 101d-101f shows a reaction tank, and equipment 101g-101i shows a final settling basin.

The monitoring room 102 is a place where decisions related to plant maintenance and work related to plant maintenance are performed, and a manager who mainly makes decisions related to plant maintenance and on-site work (patrol inspection) associated with plant maintenance. Workers (hereinafter, the manager and the worker are collectively referred to as "workers, etc.") who mainly perform the treatment for the equipment and the equipment are present in the room. Further, the monitoring room 102 may be provided with a control device related to the equipment and the equipment in the plant 100.
The monitoring room 102 may be provided in the plant 100, or may be provided in a site different from the plant 100. In addition, the workers and the like include both managers and workers, but the managers and workers may be clearly distinguished and correspond to each work (judgment or on-site work). It is also possible that the same person performs each work without clearly distinguishing between the worker and the worker.

In addition, the target 110, which requires follow-up, continuously needs information on the state of the equipment and devices in the plant 100, such as the equipment showing a tendency of malfunction and the equipment immediately after the first aid / update. Refers to those for which the period for which information is needed is temporary.
The target 110 is not particularly limited as long as it relates to equipment and devices in the plant 100. In FIG. 1, a part of the device 101f is shown as the target 110.

FIG. 2 is a schematic explanatory view showing the structure of the follow-up device 1a according to the first embodiment of the present invention. In addition, FIG. 2A and FIG. 2B show different embodiments of the locking portion 31 of the installation portion 3, respectively.
The follow-up device 1a in the present embodiment obtains information related to the state of the target 110, and has an information acquisition unit 2, an installation unit 3, and an information transmission / reception unit 4. In FIG. 2, the arrow indicated by the alternate long and short dash line indicates that the arrow is connected so that it can be controlled or input.

The information acquisition unit 2 is for acquiring information necessary for observing the target 110.
The information required for follow-up is not particularly limited. For example, images (still images / moving images), temperatures, sounds (vibrations), odors, water levels, and the like can be mentioned. Further, the information necessary for the follow-up observation may be the one in which the target 110 itself is the information acquisition target, or the information acquisition target in the vicinity of the target 110.

Examples of the information acquisition unit 2 include sensors, detectors, and recording devices capable of acquiring the above-mentioned information necessary for follow-up observation. For example, a camera capable of recording still images and moving images, a temperature sensor, a sound sensor, an odor sensor, a water level gauge, and the like can be mentioned.
Further, it is preferable that the information acquisition unit 2 combines a plurality of sensors, detectors and recording devices so that information related to a plurality of parameters can be acquired. As a result, it is possible to obtain sufficient information necessary for follow-up observation by installing the follow-up observation device 1a once for the target 110, and it is possible to collect necessary information by the follow-up observation device 1. The range of the target 110 can be expanded. Therefore, it is not necessary for the operator or the like to increase the number of patrol inspections, and the workload of inspections can be reduced. In addition, versatility in maintenance of plant equipment can be enhanced.

The camera, which is an image capturing / recording device, may be any as long as it can record still images / moving images. Further, it is preferable to select the type of camera not only according to the characteristics of the target 110 but also according to the surrounding environment in which the target 110 is located. For example, when there is no light source around the object 110, it is preferable to use a camera capable of recording even in a dark place, such as an infrared camera or a night-vision camera. Further, when it is necessary to obtain information necessary for follow-up observation of the target 110 under a situation close to the visual observation of an operator or the like, it is preferable to use a visible light camera.

The temperature sensor may measure the temperature of the target 110 itself, or may measure the temperature around the target 110. The type of temperature sensor is not particularly limited. Examples of the temperature sensor include a bimetal type or thermal expansion type thermometer, a temperature sensor using a thermocouple or a resistance temperature detector, a temperature sensor by detecting infrared rays, and a thermo camera.

The sound sensor may be any as long as it can detect information related to sound such as sound quality (frequency) and volume, and the type of sound sensor is not particularly limited. The sound to be detected includes not only sounds that can be heard by humans, but also vibrations, ultrasonic waves, and the like. Examples of the sound sensor include a microphone, an ultrasonic detector, a vibration sensor and the like.

The odor sensor preferably detects an odor that is expected to be generated when the target 110 is abnormal. For example, when the plant 100 is a water treatment plant such as a sewage treatment plant, it is possible to detect an odorous component derived from ammonia or a sulfur-based compound contained in the sewage to be treated. Further, when the plant 100 is a power plant for thermal power generation, biomass power generation, etc., it is possible to detect an odor component derived from a hydrocarbon compound used for fuel, lubricating oil for a turbine, or the like.

Examples of the odor sensor include an odor measuring device that measures a specific single component (for example, a specific malodorous substance such as ammonia and methyl mercaptan), and a complex component (for example, sulfur compounds, hydrocarbon compounds, and aldehydes). , Lower fatty acids, etc.). Further, as a device that detects an odor in a broad sense without specifying a component, an odor sensor using a lipid membrane or a semiconductor can be mentioned.

The installation unit 3 is for installing the follow-up observation device 1a on the target 110. The installation portion 3 includes a housing 30 and a locking portion 31.

The housing 30 is for accommodating the information acquisition unit 2. The housing 30 may be any as long as it can be installed on the target 110 itself or in the vicinity of the target 110, and the shape and size of the housing 30 can be appropriately selected. For example, it is preferable that the housing 30 has a shape and size that are easy to carry. This improves the convenience of the follow-up observation device 1a.
In addition, the housing 30 facilitates the installation of the information acquisition unit 2 and also serves as a protective member for the information acquisition unit 2. Therefore, the housing 30 may be omitted depending on the installation location and installation environment of the follow-up device 1a.

The locking portion 31 is for locking the housing 30 to the target 110 itself or in the vicinity of the target 110. The locking portion 31 has a structure in which the housing 30 can be fixed to the target 110 itself or the vicinity of the target 110, and the housing 30 can be easily removed.

As the locking portion 31, as shown in FIG. 2A, a locking portion 31 for stably locking the housing 30 to the target 110 itself can be mentioned. For example, those using magnetic force, attractive force, etc., those using fixing members, and the like can be mentioned. Specific examples thereof include magnet sheets, suction cups, screws, cable ties, and vinyl tape.
Further, as the locking portion 31, as shown in FIG. 2B, a locking portion 31 for stably locking the housing 30 in the vicinity of the target 110 can be mentioned. For example, a tripod or a pedestal for loading and fixing the housing 30, a weight for the housing 30 and the like can be mentioned.

When the housing 30 is omitted, the locking unit 31 may be provided directly on the information acquisition unit 2. Further, when the information acquisition unit 2 can be stably locked to the target 110 itself or the vicinity of the target 110 only by providing the information acquisition unit 2 or the housing 30, the locking unit 31 is omitted. May be.

The information transmission / reception unit 4 is for transmitting / receiving the information obtained by the information acquisition unit 2 to the outside. As shown in FIG. 2, the information acquisition unit 2 and the information transmission / reception unit 4 are connected so as to be capable of input / output to each other. Further, as shown in FIG. 2, it is preferable that the information transmission / reception unit 4 is also housed in the housing 30 of the installation unit 3. This makes it possible to handle the information acquisition unit 2 and the information transmission / reception unit 4 as one.

The means for the information transmission / reception unit 4 to transmit / receive information is not particularly limited, and a known technique can be used. The information transmission / reception destination may be a control device in the monitoring room 102, or an information terminal carried by an operator or the like. As a result, the worker or the like can obtain information on the state of the target 110 even while staying in the monitoring room 102 without increasing the number of patrol inspections in the plant 100.

The information transmitted from the information transmission / reception unit 4 may directly transmit the data obtained by the information acquisition unit 2, and exceeds the preset value among the data obtained by the information acquisition unit 2. In some cases, only the content that may cause a problem may be transmitted. When the data obtained by the information acquisition unit 2 is directly transmitted, the state of the target 110 can be determined by an operator or the like or the control device of the monitoring room 102, and an appropriate response can be taken. In addition, when only the data obtained by the information acquisition unit 2 is transmitted with the content that may cause a problem, it is possible to promptly take the subsequent measures.

The frequency with which information is transmitted from the information transmission / reception unit 4 can be appropriately selected. For example, there are those that constantly transmit information and those that transmit information at predetermined time intervals. Further, the selection and instruction of the type of information to be transmitted and the command related to the transmission of the information are transmitted via the information terminal carried by the worker or the like or the control device of the monitoring room 102, and the information transmission / reception unit 4 sends the command. When the information is received, the information is transmitted.

(Plant equipment management method)
3 to 6 are process explanatory views relating to the management method of the plant equipment in this embodiment. The same reference numerals are used for the same structures as those described in FIGS. 1 and 2, and the description thereof will be omitted.
In the method of managing the plant equipment in the present embodiment, the follow-up observation device 1a described above is used, and the follow-up observation device installation step for installing the follow-up observation device 1a and the follow-up observation period are completed for the object 110 that requires follow-up observation. This includes a follow-up device recovery step of recovering the follow-up device 1a.

3 to 5 show steps related to the follow-up device installation step.
First, as shown in FIG. 3, the follow-up observation device 1a is installed on the target 110 (a part of the device 101f) that requires follow-up observation. At this time, as an installation step of the follow-up observation device 1a, for example, an operator or the like brings the follow-up observation device 1a into the plant 100 and installs the follow-up observation device 1a in the target 110 itself or in the vicinity of the target 110 by the locking portion 31, or follow-up observation. The device 1a is loaded on the moving body, and the moving body is operated to bring the device 1a into the plant 100 and install the device 1a in the target 110 itself or in the vicinity of the target 110 by the locking portion 31.
Then, as shown in FIG. 4, after installing the follow-up observation device 1a on the target 110 itself or in the vicinity of the target 110, the power of the follow-up observation device 1a is turned on, and acquisition of information relating to the state of the target 110 is started.

Next, as shown in FIG. 5, the control device of the monitoring room 102 or the information terminal carried by the worker or the like receives the information from the follow-up observation device 1a without increasing the number of patrol inspections by the worker or the like. Information on the state of the target 110 is confirmed by an operator or the like or a control device in the monitoring room 102 as necessary. Further, after confirming the information, the acquisition of the information relating to the state of the target 110 may be continued, or the target 110 may be dealt with.
As for the contents of the correspondence, for example, when the follow-up observation device 1a is equipped with a water level gauge and a sound sensor as the information acquisition unit 2 and the target 110 is a part of the device 101f (reaction tank), the water level is below the reference value. When information related to the occurrence of noise or abnormal noise is transmitted from the follow-up observation device 1a, the operator or the like determines that a defect has occurred in the parts of the device 101f, and the work related to the repair or replacement of the parts of the device 101f. Can be mentioned. Further, the control device of the control room 102 may stop the operation of the device 101f. As another example of the response, the response to the target 110 may be taken based on the experience of a skilled worker or the like and the past record from the content of the information transmitted from the follow-up observation device 1a.

In the follow-up device installation step, the number of follow-up devices 1a to be installed is not particularly limited. Even when the objects 110 are scattered in a plurality of places, by installing the follow-up device 1 for each object 110, it is possible to deal with the plurality of objects 110 without increasing the number of patrol inspections by workers and the like. Is possible. Further, the follow-up observation device 1a provided with the information acquisition unit 2 corresponding to each target 110 may be installed. This makes it possible to improve the accuracy of the information related to the state of the target 110.

FIG. 6 shows a step related to the follow-up device recovery step.
As shown in FIG. 6, after the period requiring follow-up observation (follow-up observation period) has elapsed, the follow-up observation device 1a is collected from the target 110 by work by an operator or the like or operation of a moving body. At this time, as a recovery step of the follow-up observation device 1a, for example, when the locking portion 31 is a fixing member for fixing the follow-up observation device 1a to the target 110 itself, an operator or the like removes the fixing member. When the follow-up observation device 1a is collected or the locking portion 31 is a pedestal for arranging the follow-up observation device 1a in the vicinity of the target 110, the pedestal is loaded on the moving body and the moving body is operated. For example, collecting the follow-up device 1a.
The follow-up period may be a period (unit: hour, day, month, etc.) predetermined by the worker or the like, and if some trouble occurs in the target 110, the replacement or repair of the target 110 is decided or executed. It may be a period up to.

As described above, in the plant equipment management method and the follow-up observation device in the present embodiment, the follow-up observation device for acquiring the information necessary for the follow-up observation is installed and collected for the necessary period for the object requiring the follow-up observation. By doing so, it is not necessary to permanently install a device for acquiring information related to the target state, and cost reduction becomes possible. In addition, by temporarily installing a follow-up observation device, it is possible to acquire information related to the state of the target, so it is necessary to grasp the state of the target without increasing the number of patrol inspections by workers, etc. Follow-up observations performed only during the period are possible.

[Second Embodiment]
FIG. 7 is a schematic explanatory view showing the structure of the follow-up device 1b according to the second embodiment of the present invention.
The follow-up observation device 1b of the plant equipment of the second embodiment of the present invention further includes an information determination unit 5 and a maintenance work unit 6 in the follow-up observation device 1a of the plant equipment of the first embodiment.
Further, the method for managing the plant equipment according to the second embodiment of the present invention is the method for managing the plant equipment according to the first embodiment, in which the follow-up observation device is used between the follow-up observation device installation step and the follow-up observation device recovery step. It is equipped with on-site response steps.
The same structure as the description in the first embodiment will be omitted.

The information determination unit 5 is for determining the state of the target 110 based on the information obtained by the information acquisition unit 2. As shown in FIG. 7, the information determination unit 5 is connected to the information acquisition unit 2 and the information transmission / reception unit 4 so as to be capable of input / output to each other. Further, as shown in FIG. 7, it is preferable that the information determination unit 5 is also housed in the housing 30 of the installation unit 3. As a result, the information acquisition unit 2, the information transmission / reception unit 4, and the information determination unit 5 can be handled as one.

The information determination unit 5 includes an analysis unit 51 and a determination unit 52.
The analysis unit 51 performs analysis based on the measurement data obtained by the information acquisition unit 2.
The determination unit 52 determines the state of the target 110 based on the analysis result of the analysis unit 51, and inputs the determination result to the maintenance work unit 6 described later.
The analysis unit 51 and the determination unit 52 are, for example, computing devices that execute a program necessary for comparing numerical values and image data by a processor such as a CPU.

The content of the analysis in the analysis unit 51 is not particularly limited. For example, an calculation for the time-dependent change of the measurement data from the information acquisition unit 2, an operation for predicting the tendency of the time-dependent change of the measurement data, and the like can be mentioned. Further, as another example, there is a comparison between the data in the normal state (normal operation) and the measurement data from the information acquisition unit 2. When performing analysis by comparison, the data in the normal time to be compared may be stored in a database or may be set by an operator or the like.

Further, the determination unit 52 determines the state of the target 110 based on the calculation or comparison result of the analysis unit 51. As the content of the judgment, for example, if the change with time in the measurement data from the information acquisition unit 2 is constant within the error range based on the calculation result, the state of the target 110 does not change and the follow-up observation is continued. To do. In addition, when the change with time in the measurement data from the information acquisition unit 2 occurs within the error range and exceeds the allowable range due to the calculation result, or when the comparison result differs from the allowable range or the error range or more. It is possible to determine that a problem has occurred in the target 110 and input the determination result to the maintenance work unit 6.

The result of determining the state of the target 110 by the information determination unit 5 may be used as information to be transmitted from the information transmission / reception unit 4. As a result, the content of the information transmitted from the information transmission / reception unit 4 can be set to reduce the burden of determination by the operator or the like or the control device of the monitoring room 102.

The maintenance work unit 6 performs maintenance work according to the state of the target 110 input from the information determination unit 5. As shown in FIG. 7, the maintenance work unit 6 is connected to the information determination unit 5 so as to be capable of input / output to each other.

The content of the maintenance work by the maintenance work unit 6 is not particularly limited, but when carrying out the maintenance work, it is preferable to use a content that is easy to install and collect by a worker or the like or a moving body. Examples of the maintenance work include those for temporarily avoiding or eliminating problems related to the target 110, such as turning on / off the power supply related to the operation of the target 110, switching / blocking the flow path, heating / cooling, and the like. .. Further, the maintenance work unit 6 may be housed in the housing 30 of the installation unit 3 or may be provided outside the housing 30 depending on the content of the maintenance work.

Examples of the maintenance work unit 6 include those for mechanically pressing the power switch and power button, those for transmitting an electric signal to the power circuit, and the like for turning on and off the power related to the operation of the target 110. Be done. Further, as another example, as related to the switching / blocking of the flow path, the one that drives / stops the switching valve that switches the flow path, the one that inserts / discharges the blocking member that blocks the flow path, and the like. Can be mentioned. Further, as another example, there is a heating / cooling device that heats or cools the target 110.

For those that input the completion of maintenance work by the maintenance work unit 6 to the information judgment unit 5 and do not require cumulative data for the parts that have been dealt with, the data and calculation results related to analysis / judgment in the information judgment unit 5 May be used to reset. As a result, regarding the target 110 after the correspondence, only the information after the correspondence needs to be handled, so that the load related to the analysis / calculation of the data is reduced.
Further, the information transmission / reception unit 4 may transmit that the maintenance work by the maintenance work unit 6 has been completed. Since the maintenance work by the maintenance work unit 6 is a temporary response to a defect, the information transmission / reception unit 4 notifies the worker or the control device of the monitoring room 102 of the completion of the maintenance work, so that the worker or the monitoring room It is preferable to shift to the correspondence to the target 110 by the control device of 102.

Regarding the judgment result of the information judgment unit 5 and the completion of the maintenance work by the maintenance work unit 6, the information transmission / reception unit 4 does not transmit, and only the follow-up observation device 1b completes the judgment regarding the state of the target and the correspondence to the target. It may be a thing. As a result, follow-up observation of the target can be performed at low cost without increasing the load on the operator or the like. In addition, it becomes possible to quickly make on-site judgments and responses to the target.

In the method of managing the plant equipment in the present embodiment, the follow-up observation device 1b described above is used, and the follow-up observation device installation step for installing the follow-up observation device 1b and the follow-up observation device 1b for the target 110 requiring follow-up observation are provided. Follow-up device for recovery Includes on-site response steps by the follow-up device between the recovery steps.

The follow-up device installation step and the follow-up device recovery step are the same as those in the first embodiment described with reference to FIGS. 3 to 6.

The on-site response steps will be described below.
As the on-site response step, after the follow-up observation device 1b is installed by the follow-up observation device installation step, the information acquisition unit 2 carries out follow-up observation, and the information determination unit 5 determines the state of the target 110. At this time, the determination result of the information determination unit 5 may be transmitted to the operator or the like or the control device of the management room 102 via the information transmission / reception unit 4, or the determination result may not be transmitted to the outside.
Next, when the information determination unit 5 determines that the target 110 has a problem, the maintenance work unit 6 is controlled to deal with the target 110. At this time, by inputting to the information determination unit 5 and the information transmission / reception unit 4 that the maintenance work by the maintenance work unit 6 has been completed, the follow-up observation after the response and the process related to the on-site work by the workers or the like can be smoothly proceeded. Is possible.
As a result, when a problem occurs in the target 110, when a worker or the like cannot rush to the site, or when the control device of the monitoring room 102 does not control the target 110, the follow-up observation device 1b enables on-site response.

By providing the information determination unit and the maintenance work unit in the follow-up observation device 1b of the present embodiment, it is possible to make a determination regarding the target state and take an emergency response only by the follow-up observation device.

In addition, the method of managing the plant equipment of the present embodiment enables on-site judgment and response without the judgment of workers or the control device of the monitoring room, so that the state of the target may change. It can be particularly preferably used when it is abrupt or when the target is within the range controlled by the control device in the monitoring room.

[Third Embodiment]
The method for managing the plant equipment according to the third embodiment of the present invention is the follow-up observation target for detecting an object that requires follow-up observation in the first stage of the follow-up observation device installation step in the method for managing the plant equipment according to the first embodiment. It has a detection step.
The same structure as the description in the first embodiment will be omitted.

The steps in the follow-up device installation step and the follow-up device recovery step are the same as those in the first embodiment described with reference to FIGS. 3 to 6.

In the method of managing the plant equipment in the present embodiment, the target 110 that requires follow-up observation is detected in advance by the follow-up observation target detection step before the follow-up observation device 1a is installed. It is possible to accurately grasp and perform follow-up observation effectively.

Hereinafter, the follow-up target detection step will be described.
First, a candidate for the target 110 is selected by the detection means of the target 110 that requires follow-up observation. At this time, regarding the content of the detection means of the target 110 that requires follow-up observation, information on the state is continuously required, but if the period in which the information is required can be selected temporarily. Well, not particularly limited. For example, by performing a normal patrol inspection by a worker or the like, a device showing a tendency of malfunction may be selected and used as a candidate for the target 110. Further, by investigating the useful life of the parts constituting the device, it is possible to select a device having a high possibility of causing a defect in terms of the useful life of the component and to make it a candidate for the target 110. Further, from the records such as the past diary related to the maintenance of the plant 100, the equipment that has undergone emergency measures and the equipment that has been replaced / updated may be selected as candidates for the target 110.

Next, the target 110 for executing the follow-up device installation step and the follow-up device recovery step is selected for the candidates listed as the target 110. The selection means at this time is not particularly limited. For example, in consideration of urgency and importance, selection and determination may be made based on the judgment of an operator or the like or the calculation result by an arithmetic unit. It should be noted that the follow-up observation device installation step and the follow-up observation device recovery step may be executed for all of the candidates listed as the target 110.

Since the plant equipment management method according to the present embodiment selects candidates for the target 110 in advance, it is possible to grasp in advance the types of information necessary for follow-up observation of the target 110.
Therefore, the follow-up device according to the present embodiment may select the optimum combination for obtaining information related to the state of the target 110 as the information acquisition unit 2 of the follow-up device 1a of the first embodiment. .. This makes it possible to improve the accuracy of follow-up observation and the efficiency of information collection.

In the method of managing plant equipment in the present embodiment, not only the equipment that has already shown a tendency of malfunction but also the equipment that is predicted to have a defect can be listed as a target for which follow-up observation is required in advance. Further, by performing follow-up observation by installing and collecting a follow-up observation device for this object, it is possible to reduce the workload of inspection in the maintenance of plant equipment. Further, the follow-up observation device in the present embodiment can have a structure capable of acquiring optimum information according to an object that requires follow-up observation.

The follow-up target detection step in the present embodiment may be applied to the management method of the plant equipment of the second embodiment. At this time, the follow-up device according to the present embodiment has an optimum structure for the maintenance work unit 6 of the follow-up device 1b in the second embodiment, depending on what is listed as an object for which follow-up observation is required in advance. It can be selected.

The above-described embodiment shows an example of a plant equipment management method and a follow-up observation device. The plant equipment management method and follow-up device according to the present invention are not limited to the above-described embodiment, and the plant equipment management method and the follow-up device according to the above-described embodiment are not limited to the above-described embodiments, and the gist described in the claims is not changed. The follow-up device may be modified.

For example, in the follow-up device of the present embodiment, instead of providing an information transmission / reception unit for transmitting / receiving information, a data storage unit for storing information as data may be provided.
As a result, even under conditions where it is difficult to send and receive information, the data is accumulated in the follow-up observation device, so that the operator or the like can appropriately collect the data. For example, it can be suitably used for those who are less urgent but require continuous data measurement for a certain period of time, such as follow-up observation after updating plant equipment or equipment installed in a mountainous area or underground.

Further, in the follow-up device of this embodiment, both an information transmission / reception unit and a data storage unit may be provided.
At this time, the information necessary for follow-up observation should be divided into those that are constantly transmitted and received, those that are stored as data and sent and received regularly, and those that are stored as data and collected later. Therefore, the information to be grasped by the operator or the control device of the monitoring room 102 and to be determined may be prioritized. As a result, it is possible to shorten the time required for determination by the operator or the like or the control device of the monitoring room 102, and to acquire and store necessary information as a record.

Further, the follow-up device of this embodiment may have a function of acquiring and transmitting the position information of the follow-up device itself. This makes it possible for workers and the like who did not attend the installation site to know the installation location of the follow-up observation device. Information sharing related to the installation location of the follow-up device is not limited to this. For example, information can be shared among workers by recording the installation location of the follow-up device on the layout plan of the plant equipment.

Further, the method of managing plant equipment in the present embodiment is not limited to the management of plant equipment installed on the same site, but may be applied to the management of plant equipment on another site. This makes it possible for a small number of workers to manage a plurality of plant facilities.
Further, in the present embodiment, the equipment in the plant is deployed on a flat surface, but the present invention is not limited to this. For example, even when the plant has a hierarchical structure, the follow-up observation device according to the present embodiment can be appropriately installed to maintain and manage the plant equipment.

The plant equipment management method and the plant equipment follow-up device of the present invention are suitably used for the maintenance and management of the plant equipment.

1 Follow-up device, 2 Information acquisition unit, 3 Installation unit, 30 housing, 31 Locking unit, 4 Information transmission / reception unit, 5 Information judgment unit, 51 Analysis unit, 52 Judgment unit, 6 Maintenance work unit, 100 Plant, 101a 101i equipment, 102 monitoring room, 110 objects that require follow-up

Claims (4)

It is a management method of plant equipment
A follow-up device installation step for installing a follow-up device for acquiring information necessary for follow-up observation for an object that requires follow-up observation, and
A method for managing plant equipment, which comprises a follow-up device recovery step for recovering the follow-up device after the follow-up period is completed. The method for managing plant equipment according to claim 1, wherein a follow-up observation target detection step for detecting an object that requires follow-up observation is provided before the follow-up observation device installation step. The method for managing plant equipment according to claim 1 or 2, wherein the follow-up device can acquire information related to a plurality of parameters required for follow-up observation. It is a follow-up device for plant equipment.
An information acquisition unit that acquires information related to the parameters required for follow-up observation,
It has an installation unit for installation on objects that require follow-up.
The installation unit is a follow-up device for plant equipment, which has a structure that can be easily installed and removed from the object.