JP2004171084A - Alarm method of apparatus and maintenance and control method of apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To prevent useless impartment of anxiety to a contractor; and to quickly cope with an abnormality of an apparatus by clarifying whether an alarm of the apparatus is responsible to a maker or responsible to a maintenance controller or responsible to a user. <P>SOLUTION: This alarm method of the apparatus 2 notifies of the alarm content on the apparatus 2, and separately notifies of first alarm information based of trouble of an apparatus 2 body and second alarm information except that information. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an alarm method for equipment disposed in a facility room such as a boiler room of a user and a maintenance management method for the equipment.
[0002]
[Prior art]
Heretofore, in a device such as a steam boiler equipped with a microcomputer, various sensors are attached to detect various abnormalities, and an alarm is issued for the detected abnormalities. (For example, see Patent Document 1).
[0003]
However, such conventional techniques have the following problems. Conventional alarms generally relate to malfunctions of equipment, but have been similarly handled as alarms even if they are not malfunctions such as a failure of the equipment body. For this reason, as a device manufacturer, various alarms of the device are detected at an early stage, and many alarms are issued even though many alarms are issued so as not to bother the user, This gives the user the impression that the device has many failures, that is, gives the user uneasiness.
[0004]
In addition, when a maintenance management contract is concluded with a user and the maintenance manager undertakes maintenance management of the device, the following problem has been encountered. Before explaining this subject, let us explain the historical background.
[0005]
Until now, the demand for steam boilers has shifted from large boilers that need to be handled by boiler engineers to small once-through boilers that do not need to be handled by boiler engineers. In fact, the number of small once-through boilers installed has increased significantly. This small once-through boiler does not require a boiler engineer, but if the boiler stops due to some abnormality, it may cause a stoppage of the operation in some cases, resulting in a large amount of damage. Therefore, the user (hereinafter, referred to as a “contractor”) concludes a paid maintenance management contract and entrusts maintenance management to a maintenance manager (hereinafter, referred to as a “maintenance manager”). This maintenance contract is increasing year by year with the spread of small once-through boilers.
[0006]
Maintenance managers need to promptly respond to the occurrence of abnormalities, as prompt recovery from abnormalities is the most important proposition. Has been built. In the conventional maintenance management system, when an abnormality occurs in the boiler, the boiler transmits abnormality occurrence information to a management computer installed at a management base of a maintenance manager by communication, and the management base detects the abnormality occurrence. Based on the information, detailed operation information of the boiler in which the abnormality has occurred when the abnormality has occurred is displayed on a display screen of the management computer. Then, the management base clarifies the cause of the abnormality, prepares a countermeasure, and instructs a maintenance person (hereinafter, referred to as a “service person”) to execute the countermeasure to perform the maintenance management. (For example, see Patent Document 2).
[0007]
In such a background, according to the conventional maintenance management method, when an abnormality occurs in the device, the abnormality occurrence information for each device is transmitted to the management computer. The person in charge of the management base receiving the abnormality occurrence information has to respond individually to the abnormality occurrence information transmitted one after another. At that time, emergency measures were taken while it was unclear whether the abnormality information should be handled by the maintenance manager or the contractor.
[0008]
In this way, when an abnormality occurs and an alarm is issued, it is not clear whether the alarm should be handled by the maintenance manager or the user at the responsibility of the user. The administrator wasted time, such as taking measures outside of responsibility. In the case of an alarm other than a malfunction of the device itself, depending on the cause, the serviceman of the maintenance manager does not have to go to the site where the error occurred, and if the user asks for a response, the error can be recovered immediately. Sometimes it is possible. Without doing so, if service personnel with many contractors were dispatched to the abnormal site, the recovery of the abnormalities would be delayed and the economic damage caused by the abnormal stoppage of the boiler would increase. Become.
[0009]
[Patent Document 1]
JP-A-3-21649 (page, figure)
[Patent Document 2]
JP-A-2002-15037 (page 6, FIG. 3)
[0010]
[Problems to be solved by the invention]
The problem to be solved by the present invention is to clarify whether the alarm of the device is the responsibility of the manufacturer (or maintenance manager) or the user (or the contractor), and to make the user (or the contractor) uneasy. And to respond quickly to equipment malfunctions.
[0011]
[Means for Solving the Problems]
SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problem, and the invention according to claim 1 is a device alarm method for notifying an alarm content of a device, the first alarm information based on a malfunction of the device main body. And the second alarm information other than the second alarm information.
[0012]
The invention according to a second aspect is characterized in that, in the first aspect, the second alarm information is a driving condition alarm and a daily management alarm.
[0013]
According to a third aspect of the present invention, there is provided a maintenance management method in which a maintenance manager performs maintenance management of a device used by a contractor based on a maintenance management contract with the contractor. It is characterized in that one alarm information and the other second alarm information are distinguished and notified, and the maintenance management of the malfunction of the device main body relating to the first alarm information is performed by a maintenance manager.
[0014]
According to a fourth aspect of the present invention, in the third aspect, the second alarm information is a driving condition alarm and a daily management alarm.
[0015]
BEST MODE FOR CARRYING OUT THE INVENTION
Next, an embodiment of the present invention will be described. This embodiment relates to an alarm method for equipment such as a boiler and a maintenance management method for the equipment, and is also applied to maintenance management of water treatment equipment other than the boiler and other various equipment.
[0016]
This embodiment is a device alarm method for notifying alarm content information about a device, characterized in that the first alarm information based on a malfunction of the device body and the other second alarm information are separately notified. Is what you do.
[0017]
The device is a device that is not concluded with a maintenance management contract, a device used by the contractor, a device such as a management computer used by a service person who is a management base of the maintenance manager or an employee of the maintenance manager, or the device. And a monitoring panel (panel) provided in a facility room where the device is installed and monitoring an operation state of the device.
[0018]
In this specification, in the case of a device for which a maintenance management contract is not concluded, the contractor can be called a user, and the maintenance manager can be called a maker (manufacturer).
[0019]
In addition, the device includes various sensors for obtaining detection data for issuing an alarm, a controller including a microcomputer or the like which receives signals from the various sensors to determine whether the sensor is normal or abnormal and issues an alarm. It is provided with a display for inputting an alarm signal from the controller and displaying the contents of the alarm.
[0020]
Here, alarm (also referred to as alarm) content information used in this specification is defined.
[0021]
The alarm content information includes phenomenon / cause information, alarm degree information, and alarm responsibility classification information.
[0022]
The phenomenon / cause information includes alarm level information, phenomenon information indicating what kind of abnormal phenomenon is occurring, and information leading to the cause or cause, that is, cause information.
[0023]
The warning degree information includes abnormality information and caution information. The abnormal information and the caution information are classified by an alarm level based on the degree of safety and maintenance urgency of the device alone or the system, and the alarm level is higher in this order. The abnormal information is an alarm that impairs safety and an alarm that impairs original functions and requires urgency for repair. This abnormal information requires a particularly quick response. The caution information is an alarm that may cause a safety hazard if left unattended, and an alarm notifying that restoration is not urgent but requires restoration.
[0024]
The alarm responsibility classification information is classified into an alarm (first alarm information) based on a malfunction (such as a failure) of the device main body and an alarm (second alarm information) based on something other than the malfunction of the device main body. The first alarm information may be, in principle, the responsibility of a maintenance manager, and the second alarm information may be, in principle, the responsibility of a contractor.
[0025]
In this embodiment, the first alarm information and the second alarm information are included in the alarm content information, and the two types of alarm information are distinguished and notified, and other information is included in the alarm content information. , But not all.
[0026]
In this embodiment, the notification includes not only the notification by the visual display means but also the notification by the auditory means.
[0027]
Further, in this embodiment, preferably, the second alarm information is notified separately from the driving condition alarm and the daily management alarm. The operation condition alarm is an alarm for an input condition necessary for the device main body to operate normally, for example, a defect in fuel, water, electricity, or the like. The daily management alarm is an alarm due to inadequate management that is constantly generated even when the device main body is operating normally, and is an instruction for replenishment of salt, chemicals, fuel, etc., blowing of boiler water, and the like.
[0028]
The daily management alarm should be handled by the contractor in principle, but can be configured to be handled by the maintenance manager under the agreement of the maintenance manager and the contractor. .
[0029]
Further, “discriminating” in this embodiment means that the first alarm information and the second alarm information are clearly distinguished and notified. The notification method is different between the case where the notification is performed for the contractor and the case where the notification is performed for the maintenance manager. Specifically, in the notification to the contractor, the first alarm information may be minimal (for example, only that there is an abnormality and that the abnormality notification to the maintenance manager has been completed). On the other hand, the warning to the maintenance manager may be more detailed than the notification from the contractor.
[0030]
The method of "notifying separately", for example, divides the display area of the first alarm information and the display area of the second alarm information, and directly or indirectly indicates what each area is alerting. It shall be. More specifically, if the display of the second alarm indicates that the alarm is the operating condition alarm or the daily management alarm, it means that "different notification".
[0031]
According to this embodiment, since the alarm content information is notified separately to the first alarm and the second alarm, the alarm is attributable to the maintenance manager or the contractor. It becomes clear that the contractor will not be anxious about the contractor.
[0032]
This embodiment is applied to a device maintenance management method. An embodiment of the maintenance management method is a maintenance management method in which a maintenance manager performs maintenance management of a device used by the contractor based on a maintenance management contract with the contractor, and a first method based on a failure of the device body. The present invention is characterized in that the alarm information and the other second alarm information are distinguished and notified, and the maintenance management relating to the second alarm information is performed at the responsibility of the maintenance manager.
[0033]
In the embodiment of the maintenance management method, preferably, the maintenance manager performs a maintenance management of the device by entering into a paid maintenance contract with a contractor of the device. However, the present invention is also applied to a maintenance management method for a device used by a user who does not make a paid maintenance management contract. The device is not limited to the device purchased by the contractor, but may be a device used by the contractor based on a lease contract.
[0034]
Also in this embodiment of the maintenance management method, preferably, the second alarm is notified separately from the operating condition alarm and the daily management alarm.
[0035]
According to the embodiment of the maintenance management method, since the alarm content information is notified separately from the first alarm and the second alarm, the maintenance manager should respond at his / her own responsibility. It is possible to easily know whether it is an alarm or an alarm to be dealt with at the responsibility of the contractor, and promptly respond to the second alarm by requesting the contractor to respond.
[0036]
The present invention is not limited to the embodiment of the maintenance management method, the equipment to be maintained and managed is composed of a plurality of equipment, and is arranged in the equipment room, and the equipment room is The first alarm and the second alarm may be displayed so as to display the alarm content information for each of the installation rooms. In the present invention, a plurality of the equipment rooms are provided for each contractor, and the equipment configuration is allowed to be different for each equipment room.
[0037]
【Example】
Hereinafter, specific embodiments of the present invention will be described in detail with reference to the drawings. FIG. 1 is a schematic configuration diagram of an embodiment of an equipment maintenance management system embodying the present invention, FIG. 2 is a schematic configuration diagram of a main part of a boiler room of the embodiment, and FIG. FIG. 4 is a schematic configuration diagram of a controller of the communication control device of the example, FIG. 4 is a schematic configuration diagram of a controller of the boiler of the embodiment, and FIG. 5 is a diagram of a controller of the first management computer of the embodiment. FIG. 6 is a schematic configuration diagram of a controller of a second management computer of the embodiment, and FIG. 7 is a schematic configuration diagram of a first management computer and a second management computer of the second management computer of the embodiment. FIG. 8 is a detailed view of a main part of FIG. 7, and FIG. 9 is a view of another second display screen of the first management computer and the second management computer of the embodiment. FIG. 10 is a schematic configuration diagram. FIG. The second management is a flowchart showing main control procedure by the computer, Figure 11 is a flowchart showing another main portion control procedure by the first management computer and the second management computer of the embodiment.
[0038]
In the maintenance management method for the device according to the embodiment, the maintenance manager, who is a maintenance manager, concludes a maintenance management contract with the contractor, so that the maintenance manager can use the contractor using computer technology and communication technology. It performs the maintenance management (maintenance) of the equipment to be performed. In particular, the configuration is such that, when an abnormality occurs in a device, the abnormality of the device can be quickly and appropriately recovered. Hereinafter, the configuration will be described in detail.
[0039]
The overall configuration of this maintenance management system is shown in FIG. The equipment used by the contractor is installed in a boiler room 1 as an equipment room, a device such as a steam boiler (hereinafter simply referred to as “boiler”) 2 to be maintained and managed, and a first device provided in a management base. A management computer 3, a second management computer 4 carried by a service employee who is an employee of the maintenance manager, a mobile phone 5 as an auxiliary communication device carried by the service employee, the management base or the management base And a server 6 that is provided in a management center that controls the service and that functions as a management server for service manuals and the like. These main components 2, 3, 4, 5, 6 are communicably connected to each other by a public line network 7. The public line network 7 includes a telephone line network, a PHS network, an ISDN network, and an Internet (WEB) network.
[0040]
Here, terms such as abnormality occurrence information, detailed operation information, and equipment room information used in this specification are defined. The alarm content information is as described in the embodiment.
[0041]
First, the abnormality occurrence information will be described. The abnormality occurrence information may be any information as long as it is possible to know when an abnormality has occurred, to identify an abnormal device, and to identify what kind of abnormality. The abnormality occurrence information includes abnormal device information for identifying a device in which an abnormality has occurred, the alarm content information, and abnormality occurrence date and time information.
[0042]
The abnormal device information includes contractor specifying information (for example, contractor registration number) for specifying a contractor, management facility name specifying information (for example, management unit name) for specifying a management facility name, and device specifying information for specifying the device. (For example, device registration number).
[0043]
The abnormality occurrence information transmitted by the device or the first management computer 3 does not need to include all of the abnormal device information and the alarm content information, and the abnormal device information includes at least device identification information. The alarm content information may include at least alarm phenomenon information and alarm degree information.
[0044]
Further, a plurality of pieces of the abnormality occurrence information may occur in the same device. There are cases where an abnormality occurs simultaneously and cases where an abnormality occurs and a previously occurring abnormality has not yet been recovered. In order to grasp the overall operation status of the equipment room (boiler room 1), it is desired to grasp all the abnormality information of the components in the boiler room 1. In this embodiment, related abnormality information (hereinafter, referred to as “facility room abnormality information”) is collected. As a method of collecting the equipment room abnormality information, preferably, the first management computer 3 or the second management computer 4 is used when a certain abnormality occurs and during the display processing for simultaneously displaying the boiler room 1 and the abnormality information. Method based on the request from However, depending on the implementation, a method of automatically transmitting data from the equipment room when an abnormality occurs can be adopted. Further, the transmission of the equipment room abnormality information may be performed either when the abnormality occurrence information is transmitted from the equipment room side or when the detailed operation information is transmitted.
[0045]
Next, the operation detailed information will be described. The operation detailed information is detailed operation information of each device, and includes at least specific operation information of the device at the time of occurrence of the abnormality, which is useful when determining the cause of the abnormality based on the abnormality occurrence information. For example, taking a boiler as an example, the detailed operation information includes a flame sensor signal, a water level sensor signal, a water pipe temperature sensor signal, and the like.
[0046]
The detailed operation information is for investigating the cause of the abnormality, and is divided into at least temporarily stored detailed operation information at the time of occurrence of the abnormality and detailed operation information that changes every moment. Of course, the detailed operation information at the time of occurrence of the abnormality is extracted from the ever-changing detailed operation information.
[0047]
Since the operation detailed information at the time of occurrence of the abnormality is information necessary for investigating the cause of the abnormality, the operation detailed information is paired with the abnormality occurrence information (set as a set) so that the service person can see when necessary. ), Stored for a predetermined time without erasing. The detailed operation information includes at least data at the time of occurrence of an abnormality, but preferably includes data of a predetermined time before the occurrence of the abnormality, from the viewpoint of investigating the cause of the failure. Specifically, it is desirable to store an appropriate number, for example, 10 sets of the abnormal time information including the abnormal occurrence information and the detailed operation information including the past in the device.
[0048]
As a method of storing the abnormal time information, a method of storing the information in the respective devices for a predetermined time, a method of transmitting the information to the first management computer 3 and storing the information in the first management computer 3 or the like is selected. From the viewpoint of centralized management of information, it is desirable that the information is stored in the first management computer 3 or a computer of a management center that controls the plurality of first management computers 3. The stored abnormal time information is configured to be able to be retrieved from the second management computer 4.
[0049]
The constantly changing operation detailed information is configured to be able to be received from the first management computer 3 and the second management computer 4 when necessary, such as after an abnormality has occurred.
[0050]
Further, the equipment room information will be described. The equipment room information is information necessary to display whether each device in the equipment room is normal or abnormal, and differs for each contractor. The equipment room information is obtained by superimposing the equipment room identification information, the equipment room configuration information on how the equipment in the equipment room is configured, the overall configuration of the equipment room, and the abnormality information of each equipment. At the same time, it includes information to be displayed on the entire display screen (equipment room display screen), that is, association information for associating the equipment room configuration information with the equipment room display screen. The equipment room specifying information (e.g., equipment room name information) is information for distinguishing between the contractor having a plurality of equipment rooms. The equipment room display screen is displayed for each equipment room. Of course, depending on the implementation, a plurality of the equipment rooms can be displayed simultaneously.
[0051]
The abnormality information displayed on the equipment room display screen changes depending on display items displayed on the equipment room display screen, and includes at least alarm degree information and the alarm phenomenon information.
[0052]
In this embodiment, the equipment room information is input and stored by the first management computer 3. Then, in response to a request to the second management computer 4, an input result is also transmitted to the second management computer 4. However, the equipment room information may be configured to be input to the second management computer depending on the implementation, and to transmit the result to the first management computer for storage.
[0053]
Next, transmission processing and reception processing in this specification will be described. The transmission process refers to a process of transmitting information from one device to the other device, and the reception process refers to a process of receiving information by the transmission process. The receiving process includes a process of receiving information unilaterally transmitted without being based on a request of the other device and a receiving process performed based on a request of the other device. Since the information is read out from one device, it can be referred to as a readout process.
[0054]
Next, the components of the maintenance management system will be described.
[0055]
As shown in FIG. 2, the equipment to be subjected to maintenance management is a boiler 2 as a main equipment arranged in the boiler room 1 and a water supply equipment for generating water (water supply) to be supplied to the boiler 2 as an auxiliary equipment. And a fuel supply device 9 for supplying fuel to the boiler 2. The water supply device 8 includes a water tank 10, a chemical injector 11, a deoxidizer 12, and a water softener 13. Reference numeral 14 denotes a communication control device that mediates and controls communication between the devices 2, 9, 10 to 13 and the first management computer 3 and the second management computer 4, and is a constituent device of the boiler room 1. It is subject to maintenance management.
[0056]
The connection state of each device to the boiler 2 is as shown in FIG. That is, the raw water is supplied to the boiler 2 after being stored in the water tank 10 via the water softener 13 and the deoxidizer 12. The chemical injector 11 injects a chemical solution or the like for extending the life of the boiler 2 into water supplied to the boiler 2. The fuel supply device 9 includes a fuel tank that supplies fuel to a burner (not shown) of the boiler 2.
[0057]
Each device 2, 9, 10 to 14 in the boiler room 1 has a first controller 15 to a seventh controller 21 each having a communication function as shown in FIG. The controllers 15 to 21 are connected to each other by communication lines 22, 22,..., And the communication control device 14 transmits information such as the abnormality occurrence information of each device via the public line network 7 to the It is configured to transmit information such as the operation detailed information to the one management computer 3 and the second management computer 4. That is, the communication control device 14 communicates with other devices, and communicates with the first management computer 3 and the second management computer 4. It is configured to transmit information such as occurrence information to the first management computer 3 or the second management computer 4.
[0058]
The communication control device 14 has the seventh controller 21. As shown in FIG. 3, the seventh controller 21 includes a first CPU circuit 23, a first input / output circuit (I / O circuit) 24 connected to the first CPU circuit 23, A first PHS modem unit 25 and a first power supply circuit 26 are detachably connected to the output circuit 24. The communication control device 14 can use the PHS modem unit 25, but may be a communication control device (not shown) for performing communication by an existing telephone modem.
[0059]
Next, the first controller 15 of the boiler 2 will be described. As shown in FIG. 4, the first controller 15 includes a second CPU circuit 27 including a microcomputer and the like, a first infrared communication circuit 28 connected to the second CPU circuit 27, and a second input / output circuit. 29, a second power supply circuit 30, and a liquid crystal panel type first display 31.
[0060]
The first controller 15 receives signals from various sensors (not shown) such as a flame sensor and a water level sensor, performs combustion and water level control, constantly monitors the operation state of the boiler 2, and performs the same operation. Determine the suitability of the state. Then, the first controller 15 generates the alarm / cause information and the alarm level information based on the determination, and stores the alarm / cause information and the alarm level information in a memory (not shown) of the first CPU circuit 27.
[0061]
The first infrared communication circuit 28 is used when the second management computer 4 obtains (monitors) the detailed operation information by infrared communication and performs remote setting. The first display 31 is for displaying the abnormality information and the like.
[0062]
The first controller 15 immediately communicates with the communication control device 14 when an abnormality occurs, that is, when the abnormality information is generated, and the communication control device 14 controls the first PHS modem unit 25. The first abnormality transmission process of transmitting the abnormality occurrence information to the first management computer 3 via the public line 7 by one-to-one connection communication with the first management computer 3 (see FIG. 1) (1)) and a function of performing a first detailed information transmission process ((2) in FIG. 1) for transmitting the operation detailed information at the time of occurrence of an abnormality to the first management computer 3.
[0063]
Like the communication control device 14, the boiler 2 also has the first PHS modem unit 25 detachably provided on the first controller 15. In a system that does not include the communication control device 14 and performs the boiler 2 independent communication, the first PHS modem unit 25 is mounted on the first controller 15. In this case, the boiler 2 that does not perform maintenance management by communication does not mount the first PHS modem 25, and the boiler 2 that performs maintenance management by communication mounts the first PHS modem unit 25, The products of the boiler 2 are standardized for communication specifications and non-communication specifications.
[0064]
Next, the first management computer 3 will be described. The first management computer 3 is provided at the management base provided in the center of a management area divided into an appropriate area in the whole of Japan. The first management computer 3 has an eighth controller 32. As shown in FIG. 5, the eighth controller 32 includes a third CPU circuit 33 including a microcomputer, a third input / output circuit 34 connected to the third CPU circuit 33, and a third input / output circuit 34. A telephone modem 35 connected to the circuit 34, a third power supply circuit 36, and a second display 37 such as a CRT are provided.
[0065]
The eighth controller 32 has a function of communicating with the communication control device 14, the second management computer 4, and the server 6 in the boiler room 1 by using the telephone modem 35 connected to the public line network 7. have.
[0066]
This communication function will be specifically described. The eighth controller 32 performs a first abnormality reception process of acquiring the abnormality occurrence information from the boiler 2 by one-to-one connection communication with the boiler 2 when an abnormality occurs in equipment such as the boiler 2 (see FIG. 1). (2)).
[0067]
Further, the eighth controller 32 has a function of performing a first detailed information receiving process ((2) in FIG. 1) for obtaining the detailed operation information at the time of occurrence of the abnormality, together with the first abnormal receiving process. I have. Further, the eighth controller 32 has a mail transmission / reception function, and immediately after the first abnormality reception processing, converts the abnormality occurrence information into an e-mail and transmits it to the mobile phone 5 in a second abnormality transmission processing. ((3) in FIG. 1). In order to perform the function of the e-mail, the management base registers the provider with the provider with respect to the first management computer 3. This provider registration is performed for the number of management bases.
[0068]
Further, the eighth controller 32 has a function of performing a facility room information transmission process of transmitting the facility room information to the second management computer 4 in response to a request from the second management computer 4. The eighth controller 32 has a function of performing a treatment information receiving process ((7) in FIG. 1) for acquiring treatment information of a treatment manual stored in the server 6, and an operation setting of equipment of the boiler 2. A function of performing a remote setting process ([8] in FIG. 1) for setting conditions remotely.
[0069]
In addition, the eighth controller 32 receives the ever-changing operation detailed information by one-to-one connection communication with the communication control device 14 after occurrence of an abnormality or the like, and receives the third detailed information receiving process (▲ in FIG. 1). 6)).
[0070]
Further, the eighth controller 32 has a function of performing equipment information setting processing for setting and storing the equipment information, and based on the set and stored equipment information and the abnormality information, the boiler 2 and A first display screen (an equipment room display screen) in which the boiler room 1 including the other devices 9, 10 to 14 and the abnormality information based on the abnormality occurrence information are simultaneously superimposed and displayed on the second display 37. ) 38 (see FIG. 7).
[0071]
In the first display process, the equipment room that obtains the abnormality occurrence information and the operation detailed information of devices other than the abnormal device for forming the equipment room display screen by communicating with the communication control device 14 Includes a function to perform an error information reception process. By this equipment room abnormality information reception processing, the equipment room display screen displays abnormality information and the like regarding the devices other than the abnormal equipment that triggers the first abnormality reception processing.
[0072]
Further, the eighth controller 32 displays a second display screen (individual device display screen) 39 (individual device display screen) for displaying the individual detailed operation information of each of the devices 2, 9, 10 to 14 on the second display 37. 9), and a switching display function of switching between the first display screen 38 and the second display screen 39 for display.
[0073]
Each function of the eighth controller 32 is stored in the memory (not shown) of the third CPU circuit 33 as a program.
[0074]
Next, the second management computer 4 carried by a service person will be described. The second management computer 4 has a ninth controller 40. As shown in FIG. 6, the ninth controller 40 includes a fourth CPU circuit 41 including a microcomputer and the like, a second infrared communication circuit 42 connected to the fourth CPU circuit 41, and a fourth input / output circuit. 43, a second PHS modem unit 44 connected to the fourth input / output circuit 43, a rechargeable third power supply circuit 45, and a third display 46 using a liquid crystal panel. The second management computer 4 is a lightweight and small portable computer.
[0075]
Then, the ninth controller 40 uses the second PHS modem unit 44 connected to the public network 7 to communicate with the communication control device 14, the first management computer 3, and the server 6 of the boiler room 1. It has a function to communicate with
[0076]
This communication function will be specifically described. The ninth controller 40 is a second detailed information receiving process for receiving the detailed operation information from the abnormal device by one-to-one connection communication with the communication control device 14 when an error occurs in the device such as the boiler 2 ( It has a function of performing (5) in FIG. 1 by the same processing as the eighth controller 32. Further, the ninth controller 40 has a function of performing a facility room information receiving process of receiving the facility room information of the first management computer 3 by one-to-one connection communication with the first management computer 3. ing.
[0077]
The ninth controller 40 performs the functions of the eighth controller 32, that is, the function of performing the third detailed information receiving process, the function of performing the treatment information obtaining process, and the remote setting process. A function for performing the equipment room information setting processing, a function for performing the first display processing, a function for performing the second display processing, and a function for performing the switching display processing.
[0078]
Further, in addition to the function of performing the second detailed information receiving process using the second PHS modem unit 44 and the remote setting process, the ninth controller 40 uses the second infrared communication circuit 42 to It has a function of performing the second detailed information receiving process and the remote setting process by infrared communication directly with the boiler 2 near the boiler 2.
[0079]
The functions of the ninth controller 40 are stored in the memory (not shown) of the fourth CPU circuit 41 as a program.
[0080]
Next, the mobile phone 5 will be described. The mobile phone 5 has a well-known structure on the market, and receives the abnormality occurrence information transmitted by the second abnormality transmission processing performed by the first management computer 3 (second abnormality reception processing (see FIG. 1)). (4)). When the second abnormal reception process is performed, the mobile phone 5 has a function of emitting a notification sound indicating that a mail has been received.
[0081]
With the second abnormality reception processing function of the mobile phone 5, the service person who has known the occurrence of the abnormality uses the second management computer 4 to obtain the operation detailed information and the treatment information at the time of occurrence of the abnormality. be able to. Then, with the first display processing function and the second display processing function, it is possible to display and view the overall operation status of the equipment room and the detailed operation information of each device. As a result, the first management computer 3 and the second management computer 4 can share information necessary for coping with the occurrence of the abnormality, and can similarly view the information on the display screen.
[0082]
Finally, the server 6 will be described. The server 6 stores the treatment information corresponding to the alarm phenomenon / cause information as a service manual associated with the cause information, and also stores other technical information. These treatment information and technical information are displayed on the second display 33 and the third display 46 by a browser (display software) by access from the first management computer 3 and the second management computer 4. Is configured.
[0083]
Here, the operation of the first embodiment having the above configuration will be described with reference to FIGS.
[0084]
(Setting of equipment room information)
The maintenance manager inputs and sets the equipment room name, which is different for each contractor, and the equipment room information relating to the equipment constituting the equipment room. The setting is executed by the equipment room information setting processing of the first management computer 3, and the main part of the processing procedure is shown in FIG.
[0085]
The equipment room information in this embodiment is as follows. The equipment room specifying information is a boiler room, and the equipment configuration information of the equipment room is the boiler 2, the fuel supply device 9, the water tank 10, the chemical injector 11, the deoxygenating device 12, The water softener 13 and the communication control device 14.
[0086]
As shown in FIG. 7, the equipment room display screen 38 includes a contractor name display part 47, an equipment room name display part 48, an equipment room selection display part 49 indicating whether or not there is another equipment room, and the equipment room. , And a connection line 51 indicating the connection relationship between these blocks. The equipment room selection information display section 49 is provided with an equipment room selection key section 52 for displaying the currently displayed equipment room and other equipment room information in a drop-down format. By clicking, the information of the other equipment room is displayed on the equipment room display screen 38.
[0087]
FIG. 8 shows a detailed configuration of the display block 50 for displaying various information. The display unit provided in each of the display blocks 50 includes a device display unit 53, a first alarm display unit 54 for displaying an alarm based on a failure of the device main body, and a second alarm display unit for displaying an alarm other than the failure of the device main body. 55.
[0088]
The device display unit 53 includes a device name display unit 54 for displaying the device name of the device, and a device selection display unit 57 for displaying whether or not another device of the same type is connected. The device selection display unit 57 displays device specifying information of another device of the same type (for a steam boiler, the same steam boiler) as the device of the device specifying information (for example, device registration number) currently displayed. A device selection key unit 58 for displaying in a drop-down format is provided. When the displayed other device is clicked, information on the other device is displayed. Of course, the abnormal equipment is configured to be displayed first on the equipment selection display unit 57.
[0089]
The first alarm display unit 54 displays the abnormality information, that is, an abnormality presence / absence display unit 59 that displays whether the device is normal or abnormal, an abnormality content display unit 60 that displays the phenomenon information that is the content of the abnormality, An attention presence / absence display section 61 for displaying whether or not attention information is issued, and an attention content display section 62 for displaying the phenomenon information which is the content of the attention information.
[0090]
The abnormality presence / absence display section 59 and the caution presence / absence display section 61 are images of display lamps. The abnormality presence / absence display section 59 displays abnormality in red and normal in green, respectively. Numeral 61 indicates the warning in yellow and the normal in green.
[0091]
The second alarm display unit 55 includes an operation condition display unit 63 that displays the phenomenon information that is the content of the operation condition alarm and a daily management display unit 64 that displays the phenomenon information that is the content of the daily management alarm. It is classified.
[0092]
Here, the contents of the equipment room information setting processing will be described with reference to FIG. Now, the first management computer 3 is started. Then, when the equipment room registration key section 65 in FIG. 7 is clicked, YES is determined in the processing step S1 (hereinafter, the processing step SN is simply referred to as SN), and the process proceeds to S2 to enter the equipment room information input screen (not shown). ) Is displayed on the second display 37, and data is input here.
[0093]
When the input of the equipment room information in S2 of FIG. 10 is completed, the equipment room display key section 66 shown in FIG. 7 is clicked. Then, YES is determined in S3, the process proceeds to S4, and the equipment room display screen 38 as shown in FIG. 7 is displayed, and input of the set data can be confirmed. To redo data input, the operator clicks the equipment room registration key section 65. Then, YES is determined in S5, and the process returns to S2, where data is input again. If the input is OK in S4, the user clicks the completion key section 63 in FIG. Then, YES is determined in S6, and the process returns.
[0094]
(Acquisition of equipment information)
After the completion of the equipment room information setting process, the service person obtains the equipment room information regarding the contractor in charge of the service room by communication between the first management computer 3 and the second management computer 4, It is stored in the second management computer 4.
[0095]
(Transmission of error occurrence information)
In FIG. 1, it is assumed that an abnormality, for example, a combustion abnormality has occurred in the boiler 2. The boiler 2 communicates with the communication control device 14, and the communication control device 14 transmits the abnormality occurrence information to the first management computer 3 in a first abnormality transmission process ((1) in FIG. 1). The first detailed information transmission processing ((1) in FIG. 1) for transmitting the operation detailed information at the time of occurrence is performed. The abnormality occurrence information includes an alarm code that combines the alarm degree information (“abnormal”), the alarm phenomenon information (for example, “combustion abnormality”), and the cause information (for example, “air volume setting failure”), It is composed of the device identification information and the abnormality occurrence date and time information. In the operation detailed information, if there is abnormality information other than “combustion abnormality” of the boiler 2 that triggered the transmission of the abnormality occurrence information, the abnormality information is provided. Information is included.
[0096]
(Reception of error occurrence information and operation details information and e-mail transmission)
When the first management computer 3 performs the first abnormality reception process ((2) in FIG. 1) and the first operation detailed information reception process ((2) in FIG. 1) for receiving the abnormality occurrence information, Immediately, the second abnormality transmission process ((3) in FIG. 1) for automatically transmitting the abnormality occurrence information as an electronic mail to the mobile phone 5 of the service person in charge of the abnormality generating device is performed. In performing the second abnormal transmission process, the first management computer 3 has previously input information on the contractor in charge of the service staff and the equipment room configuration information (including the device identification information). In this configuration, the person in charge can be read out based on the device identification information in the abnormality occurrence information. Then, the e-mail is automatically transmitted to the e-mail address of the service person in charge registered in advance.
[0097]
(E-mail reception and service staff processing)
When the service technician performs the second abnormality receiving process ((4) in FIG. 1) of receiving the abnormality occurrence information by e-mail on the mobile phone 5, the service operator turns off the power supply until then. The second management computer 4 is started. Then, it communicates with the communication control device 14 and performs a second detailed information receiving process ((5) in FIG. 1) for receiving the detailed operation information when the abnormality of the boiler room 1 occurs.
[0098]
Next, the service person performs the first display process and the second display process.
[0099]
These display processes will be described according to the processing procedure of FIG. The user clicks the equipment room display key section 66 (see FIG. 7) on the display screen of the third display 46 of the second management computer 4. Then, YES is determined in S11, and the process shifts to S12, where the contractor selection key section 67 is clicked to drop down a list of contractor names assigned to the service staff (not shown). Then, the contractor name included in the abnormality occurrence information is clicked, and the flow shifts to S13 to display the equipment room display screen 38 shown in FIG.
[0100]
In the processing of S13, first, the equipment room abnormality information receiving processing is performed. In this process, the ninth controller 40 of the first management computer 4 communicates with the communication control device 14, and each device in the boiler room 1 connected to the communication control device 14 The abnormality occurrence information and the detailed operation information at the time of abnormality occurrence are read and received. Next, based on this information collection, the alarm content information necessary for displaying the equipment room display screen 38 is extracted and displayed on the equipment room display screen 38.
[0101]
This equipment room abnormality information reception processing is continuously performed during the display processing of the equipment room display screen 38 and the display processing of the individual equipment display screen 39. That is, the equipment room is being monitored (monitored) during the display processing of the equipment room display screen 38. Therefore, when there is a change in the alarm content information such as a further occurrence of an abnormality in the other device, it is displayed on the equipment room display screen 38.
[0102]
On the equipment room display screen 38, the boiler room 1 showing the entire configuration of the equipment and the abnormality information of the component equipment are simultaneously displayed in a superimposed manner. The situation, especially the abnormal situation, can be grasped at a glance. Also, since the connection status of each device in the boiler room 1 and the abnormality / normality of each device are displayed, if there is an abnormality in a plurality of the devices, the upstream device is checked first, and then the downstream device is checked. And the entire facility can be recovered from the abnormality at an early stage.
[0103]
Further, in the equipment room display screen 38, the alarm content information includes a first alarm display unit 54 for displaying an alarm based on a malfunction of the device main body and a second alarm other than the malfunction of the device main body as shown in FIG. Displayed separately from the display unit 55. With such a display, the service person can easily identify an alarm such as an abnormality that the maintenance manager must take responsibility for and an alarm that the contractor should handle. In some cases, it is also possible to contact the contractor and request the countermeasure to deal with the abnormality that the contractor should deal with, and the number of dispatches to the site for abnormality recovery can be reduced.
[0104]
Further, the second alarm display section 55 is displayed by being divided into the operation condition display section 63 and the daily management display section 64. The display content of the operation condition display section 63 is an input condition of the device. By knowing whether the input condition is abnormal or normal, it is possible to easily identify the device that is the source of the abnormality.
[0105]
Then, after grasping the overall operation status in the boiler room 1, if the service personnel wants to individually view the detailed operation information of each device, it is displayed on the device selection display section 57 shown in FIG. Click the device identification information. Then, YES is determined in S15, and the process shifts to S17 to display the detailed operation information of the individual device obtained in S13. In this embodiment, the detailed operation information of the boiler 2 is displayed as the second display screen (individual device display screen) 39 as shown in FIG.
[0106]
As shown in FIG. 9, the individual device display screen 39 includes a contractor name display section 69, a facility room name display section 70, a device name display section 71, and a detection value display section for displaying detection values of various sensors of individual devices. 72, and an alarm content display section 73. The alarm content display unit 73 displays all the alarm content information relating to the boiler 2 that has issued the abnormality information. Of course, it can be configured to display some alarm content information depending on the implementation.
[0107]
In this way, the service technician can obtain and display the detailed operation information at the time of occurrence of an abnormality in the boiler 2 to determine the cause of the abnormality without confirming the detailed operation information at the management base. And quick recovery from abnormalities becomes possible.
[0108]
In this embodiment, the first management computer 3 can also form the same equipment room display screen 38 and the individual equipment display screen 39 as the second management computer 4. For this reason, when the service staff with little maintenance management experience is responding to the abnormality, the skilled service staff at the management base displays the same equipment room display screen 38 and the individual device display screen 39 as the service staff. You can give advice and give instructions while watching. As a result, the serviceability of the entire maintenance manager can be uniformed and improved.
[0109]
Switching from the second display screen 39 of the individual device display to the first display screen 38 of the equipment room display is performed by clicking the equipment room display key section 66 shown in FIG. Then, YES is determined in S17, and the process proceeds to S13. To end the individual device display and the equipment room display, click the completion key section 67. Then, YES is determined in S18, the process proceeds to S19, and returns to the initial screen (not shown).
[0110]
(Acquisition of treatment information)
Even if the cause of the abnormality can be determined from the information obtained from the first display screen 38 and the second display screen 39, if the specific action is not known, the service person activates the second management computer 4 and activates the second management computer 4. The processing for receiving the treatment information through communication with the server 6 is performed ((7) in FIG. 1). By executing this processing, it is possible to obtain the treatment for the cause from the treatment manual of the server 6 without carrying the service manual and hearing the treatment from the management base as in the related art, and to quickly and appropriately perform the abnormality. Recovery processing can be performed.
[0111]
(Acquisition of direct driving detailed information)
When the service person arrives at the abnormal site, the service person can perform the third detailed information receiving process ([6] in FIG. 1) at the site to obtain the operation detailed information by infrared communication. Since the system according to this embodiment has this processing function, communication can be performed without passing through the public line 7, so that there is an effect that communication costs are not required and the detailed operation information can be obtained without requiring time for connection.
[0112]
(Remote setting)
As a result of investigating the cause of the abnormality, if it is necessary to change the operating condition setting of the boiler 2 as a measure for the cause of the abnormality, the first management computer 3 and / or the second management computer 4 execute the remote setting process (FIG. The operation condition setting is changed by performing (1) (8)). As a result, the service person can perform from the reception of the abnormality occurrence to the abnormality countermeasure from a remote place away from the boiler room 1, and can quickly perform the abnormality recovery.
[0113]
【The invention's effect】
According to the present invention, it is clarified whether the alarm of the device is the responsibility of the manufacturer, the maintenance manager, or the user, so that the contractor is not anxious to the user, and the abnormality of the device can be quickly performed. The industrial value is enormous, such as being able to respond.
[Brief description of the drawings]
FIG. 1 is a schematic configuration diagram of an embodiment of a device maintenance management system embodying the present invention.
FIG. 2 is a schematic diagram of a main part of a boiler room of the embodiment.
FIG. 3 is a schematic configuration diagram of a controller of the communication control device of the embodiment.
FIG. 4 is a schematic configuration diagram of a controller of the boiler of the embodiment.
FIG. 5 is a schematic configuration diagram of a controller of the first management computer of the embodiment.
FIG. 6 is a schematic configuration diagram of a second management computer of the embodiment.
FIG. 7 is a schematic configuration diagram of a first display screen of the first management computer and the second management computer of the embodiment.
FIG. 8 is a detailed view of a main part of FIG. 7;
FIG. 9 is a schematic configuration diagram of another display screen of the first management computer and the second management computer of the embodiment.
FIG. 10 is a flowchart showing a main part control procedure by the first management computer and the second management computer of the embodiment.
FIG. 11 is a flowchart showing another main part control procedure by the first management computer and the second management computer of the embodiment.
[Explanation of symbols]
2 Steam boilers (equipment)
54 First alarm display unit 55 Second alarm display unit 63 Operating condition display unit 64 Daily management display unit

Claims (4)

An alarm method for a device for notifying alarm contents of a device, wherein the first alarm information based on a malfunction of the device main body and the other second alarm information are distinguished and notified. The method according to claim 1, wherein the second alarm information is an operating condition alarm and a daily management alarm. A maintenance management method in which a maintenance manager performs maintenance management of equipment used by the contractor based on a maintenance management contract with the contractor, wherein the first alarm information based on a malfunction of the device body and the other second alarm information A maintenance management method for the equipment, wherein the maintenance management of the malfunction of the equipment main body relating to the first alarm information is performed at the responsibility of the maintenance manager. The maintenance management method for thermal equipment according to claim 3, wherein the second alarm information is an operation condition alarm and a daily management alarm.

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