JP6186791B2 - Alarm management system and alarm display method - Google Patents

Description

  The present invention relates to an alarm management system and an alarm display using an alarm monitoring device that receives an alarm signal from a plurality of devices installed at a distance and visually displays a corresponding relationship between the alarmed device and the alarm on a display device. It relates to the improvement of the method.

As an alarm monitoring device that receives an alarm signal from a plurality of devices installed at a distance and visually displays on a display device the correspondence between the device in which the alarm has occurred and the alarm, for example, an alarm disclosed in Patent Document 1 Monitoring systems are known.
This alarm monitoring system includes an alarm receiving unit that receives an alarm from a network device, an alarm monitoring database that accumulates alarm monitoring data, an alarm output control unit that generates display information according to the alarm received by the alarm receiving unit, and the like. A network management system (NMS) centrally manages the status of network devices, and the output from the alarm output control unit displays the occurrence of an alarm in each network device on the workstation display.
Although the alarm monitoring system disclosed in Patent Document 1 can identify the device itself in which the alarm has occurred by simply looking at the display, a large number of devices, particularly devices having similar dimensions and shapes, are in the same room. However, even if the name and machine number of the alarmed device itself can be easily seen from the display, maintenance of the device can be performed in the room where the device is deployed. It may be difficult for the person who goes to find the alarmed device.
For example, in a rack room such as a broadcasting station, a large number of devices are installed, and if the device breaks down, it directly leads to a broadcast accident. Therefore, the state of each device, for example, CPU failure, power supply abnormality, fan function stop An alarm monitoring system that can check the status of the equipment, etc. is installed to notify the administrator of equipment abnormality as soon as possible, but if the person who is actually dispatched for equipment maintenance is not used to the rack room situation, the alarm Inconvenience arises in that it takes time to find the device in which the trouble occurred and the start of maintenance is delayed.

On the other hand, the failure alarm display device disclosed in Patent Document 2 flickers the indicator light of the device itself and notifies the operation center of the occurrence of the alarm. Can easily find the alarmed device, but the display state of the monitoring room display cannot be operated from the alarmed device side, so the maintenance is completely completed and the device failure is recovered Until then, there is a disadvantage that the alarm display on the display is not changed.
As a result, even if the person dispatched for maintenance starts the maintenance work of the equipment, the administrator in the monitoring room does not know whether the maintenance of the equipment in which the alarm has occurred is started, for example, to eliminate the alarm. In some cases, such a problem may occur that workers are dispatched in duplicate.

Since the failure display device disclosed in Patent Document 3 also displays the occurrence of an alarm on the failure occurrence display unit on the device side in the same manner as the failure alarm display device of Patent Document 2, a person dispatched for maintenance generates an alarm. However, since the alarmed device cannot control the display state of the monitor room display, the maintenance is completely completed and the failure of the device is restored. Until then, there is a disadvantage that the alarm display on the display is not changed.
In particular, in the failure display device disclosed in Patent Document 3, the failure occurrence display unit on the device side is completely incorporated in the device as a part of the system. It is not possible to display the occurrence of an alarm with the above, and there is a problem that it is not easy to retrofit the failure occurrence display section.

JP 2002-57666 A JP 2002-32877 A (paragraphs 0004 and 0007) JP-A-9-274574 JP 2005-101735 A

  The object of the present invention is that a person dispatched for maintenance can easily find an alarmed device, and an administrator in a monitoring room can easily determine whether maintenance of an alarmed device has started. It is an object of the present invention to provide an alarm management system and an alarm display method that can be grasped.

In order to achieve the above object, an alarm management system according to the present invention is connected to a plurality of devices installed apart from each other via a network, receives an alarm signal from each device, and generates an alarm. An alarm management system comprising: an alarm monitoring device that visually displays a correspondence relationship with an alarm on a display device; and an indicator lamp for a device that is installed in proximity to each device corresponding to each device , In order to achieve the objective, especially
While connecting each of the alarm monitoring device and the indicator lamp with a bidirectional signal line, a manual operation switch is provided for each indicator lamp,
The alarm monitoring equipment, as well as operating the display lamp corresponding to the generated device alarms in the alarm display mode, functions and the table示灯when detecting a signal from the manually operated switch that is deployed to the indicator comprising a display form management means for stopping the alarm display in the alarm operation in the display mode and the display device on the device corresponding to the display lamps, that have adopted a configuration that.

In order to achieve the above object, an alarm display method according to the present invention is connected to a plurality of devices installed at a distance from each other via a network and receives an alarm signal from the device to generate an alarm. Monitoring device for visually displaying the correspondence between the alarm and the alarm on the display device, and a manual operation switch for each device installed in the vicinity of each of the devices and connected to the alarm monitoring device by a bidirectional signal line a display method of an alarm in the alarm management system comprising a biasing indicator, especially,
The indicator lamp provided close to the detected equipment of an alarm, is activated in the alarm display mode by a signal from the alarm monitoring device,
Next, it operates when the alarm monitoring device detects a signal from a manual operation switch provided on the indicator lamp, and operates in the alarm display mode of the indicator lamp and the display of the device corresponding to the indicator lamp. an alarm display on a device, that has adopted the configuration that is stopped by a signal from the alarm monitoring device.

The alarm management system and the alarm display method of the present invention operate an indicator lamp provided in the vicinity of a device in which the occurrence of an alarm is detected, in an alarm display mode by a signal from the alarm monitoring device, while being provided in the indicator lamp. When the alarm monitoring device detects a signal from the manual operation switch, the operation of the indicator light in the alarm display mode and the alarm display on the display device of the device corresponding to the indicator light are stopped by the signal from the alarm monitoring device. As a result, the person dispatched for the maintenance of the device can easily find the device in which the alarm has occurred by referring to the indicator lamp that operates in the alarm display mode, and the person dispatched for the maintenance of the device By operating the manual operation switch of the indicator light at the start of maintenance, Who can also be easily grasp that occurred maintenance of the equipment of the alarm has been initiated.
In addition, because it is configured to control the display mode of the indicator light for each device installed in the vicinity of each device on the side of the alarm monitoring device, an indicator light can be easily retrofitted to devices without an alarm display function. Thus, it is possible to easily confirm whether or not to start the operation for confirming the device in which the alarm has occurred or the maintenance operation for the device in which the alarm has occurred by using the display device of the alarm monitoring device.

It is the block diagram shown about the structure of the alarm management system of one Embodiment to which this invention is applied. It is the functional block diagram which simplified and showed the structure of the alarm monitoring apparatus in the embodiment. It is the figure which simplified and showed about the attachment position of the indicator lamp and the manual operation switch in the apparatus storage shelf which attached the some apparatus in the close state. It is the block diagram which showed the outline of the structure of the alarm monitoring apparatus in the embodiment. It is the conceptual diagram which showed the structural example of the correspondence storage table which memorize | stores the correspondence between an apparatus, an indicator lamp, and a manual operation switch. It is the flowchart which showed the outline of the structure of the alarm management control program which the microprocessor of the alarm monitoring apparatus in the embodiment performs. It is the timing chart which showed the change of the lighting state of the indicator lamp at the time of alarm occurrence. It is the timing chart which showed the change of the lighting state of the indicator lamp at the time of maintenance transfer.

  Next, an exemplary embodiment for carrying out the present invention will be described with reference to the drawings.

  FIG. 1 is a block diagram showing a configuration of an alarm management system according to an embodiment to which the present invention is applied.

  As shown in FIG. 1, the alarm management system 1 of this embodiment is connected to a plurality of devices 2-1, 2-2,... Including a computer via a network 3 such as a Local Area Network. .., And the corresponding relationship between the alarmed devices 2-1, 2-2,... And the alarm are visually displayed on the display device 4. The alarm monitoring device 5 and the indicators 6-1, 6 for each device 2-1, 2-2,... Installed in the vicinity of each device 2-1, 2-2,. It is an alarm management system with -2, ....

  In FIG. 1, only two devices 2-1 and 2-2 are shown, but the number of devices is arbitrary.

  Each of the indicator lamps 6-1, 6-2,... Is provided with a unique manual operation switch 7-1, 7-2,. ... Between the alarm monitoring device 5 and the indicator lamps 6-1, 6-2,. , 7-2,... Are connected so as to be able to transmit operation signals to the alarm monitoring device 5.

A plurality of devices 2-1, 2-2,... Are device storage shelves 9 arranged in a rack room or the like separated from the monitoring room where the alarm monitoring device 5 is installed, for example, 19 as shown in FIG. A number of equipment storage shelves 9, such as inch racks, are attached in close contact with each other.
In addition, the indicator lights 6-1, 6-2,... Equipped with the manual operation switches 7-1, 7-2,. It is attached to a position on the equipment storage shelf 9 by a retrofitting method using bolts, tapping screws or the like.

  FIG. 2 is a functional block diagram showing a simplified configuration of the alarm monitoring device 5.

  The alarm monitoring device 5 of this embodiment is connected to each device 2-1, 2-2,... Via the interface of the alarm monitoring device 5 constituted by various contacts, Ethernet (registered trademark), etc. and the network 3. An alarm collecting means 10 for receiving an input alarm signal, an apparatus 2-1 2-2,... The alarm analysis means 11 for identifying the correspondence relationship between the alarms, and various types of data including the correspondence relation between the alarm types obtained by the alarm analysis means 11 and the devices 2-1, 2-2,. An alarm management unit 12 is provided that stores the history log in the alarm storage unit 13.

  The correspondence relationship between the alarm newly calculated by the alarm analysis means 11 and the devices 2-1, 2-2,... Is also notified to the display image creation means 14 via the alarm management means 12, and this notification is made. The received display image creation means 14 generates image data for displaying the correspondence between the newly generated alarm and the devices 2-1, 2-2,..., And this image data is displayed on the display device 4. By transmitting, the latest information on the correspondence between the alarmed devices 2-1, 2-2,... And the alarm is visually displayed on the display device 4.

  The correspondence relationship between the alarm newly calculated by the alarm analyzing unit 11 and the devices 2-1, 2-2,... Is also applied to the indicator light managing unit 15 constituting a part of the display mode managing unit 16. The indicator lamp managing means 15 that has been notified of the notification and provided with the notification is provided with indicator lamps 6-1, 6-2 provided in proximity to the devices 2-1, 2-2,. ,... Are transmitted via the signal line 8 to the indicator lamps 6-1, 6-2,. , 6-2,... Are operated in an alarm display mode.

  The correspondence between the devices 2-1, 2-2,... And the indicator lamps 6-1, 6-2,. The relationship is registered in the alarm monitoring device 5 in advance.

Moreover, the operation signal transmitted via the signal line 8 from the manual operation switches 7-1, 7-2,. Detected by the indicator light management means 15 constituting a part of the management means 16, the indicator light management means 15 detecting this corresponds to the manual operation switches 7-1, 7-2,. A maintenance operation signal for stopping the operation in the alarm display mode of the indicator lamps 6-1, 6-2,... Through the corresponding indicator lamps 6-1, 6-2,... To start the operation of the indicator lights 6-1, 6-2,. Indicator lamp 6 that started operation in maintenance display mode , 6-2, devices 2-1 and 2-2 corresponding to ..., and notifies the signal specifying the ... into alarm management unit 12 constituting the other portion of the display form management unit 16.
And the alarm management means 12 which received this has the apparatus 2-1, 2-2, ... corresponding to the indicator lamps 6-1, 6-2, ... which started the operation | movement in a maintenance display mode. It is detected that the alarm state has shifted to the maintenance state, the devices 2-1, 2-2,... That have shifted to the maintenance state are notified to the display image creating means 14, and the display image creating means that has received this notification. 14 generates image data for rewriting and displaying the status of the devices 2-1, 2-2,... Newly transferred to the maintenance state from the alarm state to the maintenance state, and this image data is displayed on the display device 4. By transmitting, the latest information of the devices 2-1, 2-2,... That have transitioned from the alarm occurrence state to the maintenance state is visually displayed on the display device 4.

  The correspondence relationship between the manual operation switches 7-1, 7-2,... And the indicator lamps 6-1, 6-2,.

Moreover, the operation signal transmitted through the signal line 8 from the manual operation switches 7-1, 7-2,. When it is detected again by the indicator light management means 15 that constitutes a part of the management means 16, the indicator light management means 15 that has detected it detects that the manual operation switches 7-1, 7-2,. A failure recovery signal for displaying the failure recovery display mode indicating the end of the maintenance by stopping the operation of the indicator lamps 6-1, 6-2,. 8 to the corresponding indicator lamps 6-1, 6-2,... To completely stop the operation of the indicator lamps 6-1, 6-2,. In addition to returning to the initial state, the maintenance display mode can be activated by recovering from the failure. Signals for identifying the devices 2-1, 2-2,... Corresponding to the finished display lamps 6-1, 6-2,. Notify
And the alarm management means 12 which received this has the apparatus 2-1, 2-2, ... corresponding to the indicator lights 6-1, 6-2, ... which finished the operation | movement in a maintenance display mode. It is detected that the maintenance state has been changed to the failure recovery state, the devices 2-1 2-2,. By generating image data for rewriting and displaying the status of the devices 2-1 2-2,... That have recovered from the maintenance state to the failure recovery, and transmitting the image data to the display device 4, The display of the devices 2-1, 2-2,... That has transitioned from the maintenance state to the failure recovery state is deleted from the display device 4.

  That is, the display mode management means 16 in this embodiment is constituted by the indicator light management means 15 and the alarm management means 12.

  FIG. 4 is a block diagram showing an outline of the configuration of the alarm monitoring device 5.

  The alarm monitoring device 5 of this embodiment is constituted by a normal computer such as a workstation or a personal computer. As shown in FIG. 4, a microprocessor 17 for arithmetic processing and a microprocessor 17 are provided. ROM 18 that stores a basic control program required for drive control, RAM 19 that is used for temporary storage of operation data, nonvolatile memory 20 that stores various parameters, and the like, and functions as a mass storage device The input / output circuit 22 of the microprocessor 17 is connected to a display device 4 including a keyboard 23 and a mouse 24 functioning as a man-machine interface and a graphic display.

The interface 25 is an interface for connecting to the network 3, and the interface 26 is an interface for connecting to the signal line 8.
In the case where the protocol unique to the anomaly detection device or sensor attached to the devices 2-1, 2-2,... Does not conform to the protocol of the network 3, such as SNMP (Simple Network Management Protocol), A dedicated terminal is provided on the interface 26 for inputting an alarm from an abnormality detection device or a sensor attached to the devices 2-1, 2-2,... To the alarm monitoring device 5 via another signal line. It is done.

  An alarm management control program for causing the microprocessor 17 to function as the alarm collecting means 10, the alarm analyzing means 11, the alarm managing means 12, the display image creating means 14, the indicator lamp managing means 15 and the display mode managing means 16 is stored in advance in the hard disk drive 21. The alarm management control program is read into the RAM 19 as an execution target program when the alarm monitoring device 5 is activated.

Further, the hard disk drive 21 includes devices 2-1, 2-2,..., Indicator lights 6-1, 6-2,... And manual operation switches 7-1, 7-2,. Is stored in advance, and this correspondence storage table 27 is read into the RAM 19 together with the alarm management control program when the alarm monitoring device 5 is activated. An example of the logical configuration of the correspondence relationship storage table 27 is shown in FIG.
The hard disk drive 21 also functions as an alarm storage means 13 for storing various types of data including the correspondence between the type of alarm that has occurred and the devices 2-1, 2-2,. .

  Next, refer to the flowchart of FIG. 6 showing an outline of the configuration of the alarm management control program and the timing charts of FIGS. 7 and 8 showing the change in the lighting state of the indicator lamps 6-1, 6-2,. The overall processing operation of the alarm management system 1 in this embodiment will be specifically described.

  Note that the process of FIG. 6 is only one of the multitask processes that the microprocessor 17 repeatedly executes at predetermined intervals, and does not represent all the processes that the microprocessor 17 should execute.

  When the alarm monitoring device 5 is activated and the processing of the microprocessor 17 according to the alarm management control program is started, first, the microprocessor 17 functioning as the alarm collecting means 10 is connected to each device via the network 3 and the interface 25. It is determined whether or not an alarm signal from 2-1, 2-2,... Is input (step S1), and if no alarm signal input is detected, it further functions as indicator light management means 15. The microprocessor 17 receives operation signals from manual operation switches 7-1, 7-2,... Disposed on the indicator lights 6-1, 6-2,. Whether or not is input is determined (step S8).

  If neither an alarm signal input nor an operation signal input is detected, the microprocessor 17 repeatedly executes only the determination processing of step S1 and step S8 in a predetermined cycle, and the alarm collecting means 10 inputs the alarm signal. A standby state is entered in which it is detected or waits until the operation of the operation signal is detected by the indicator light management means 15.

  When an alarm signal input is detected by the alarm collecting means 10 and the determination result in step A1 becomes true, first, the microprocessor 17 functioning as the alarm analyzing means 11 analyzes the alarm received by the alarm collecting means 10. (Step S2), the type of alarm and the devices 2-1, 2-2,... That generated this alarm are specified (step S3).

  Next, the microprocessor 17 functioning as the alarm management unit 12 uses the correspondence relationship between the alarm type and the devices 2-1, 2-2,... The data is stored in the data storage area of the hard disk drive 21 that functions as 13 (step S4).

  Further, the microprocessor 17 functioning as the display image creation means 14 has the devices 2-1 2-2,... That have generated the alarm type and the alarm newly obtained in the processing of step S3 in the processing cycle. .. Are generated (step S5), and the image data is transmitted to the display device 4 to generate alarmed devices 2-1, 2-2,... And the latest information on the correspondence between the alarm type and the alarm type are visually displayed on the display device 4 (step S6).

  If the device in which the alarm is generated is “device 2-1” and the content of the alarm is “fan function stop”, the display device 4 displays, for example, “device”. 2-1: If the information such as “fan failure” is visibly displayed, and if the alarmed device is “device 2-2” and the alarm content is “power failure”, On the display screen of the display device 4, for example, information such as “device 2-2: power supply abnormality” is visually displayed.

  Next, the devices 2-1 and 2-2 in which the microprocessor 17 functioning as the indicator light management unit 15 constituting a part of the display mode management unit 16 has generated the alarm obtained in the processing of step S3 in the processing cycle. ,... Is referred to the correspondence relationship storage table 27 as shown in FIG. 5, and the indicator lamps provided in the vicinity of the devices 2-1, 2-2,. .., 6-1, 6-2,..., And the display lamps 6-1, 6-2,. .. An alarm management control program in this processing cycle by operating the indicator lamps 6-1, 6-2,... In the alarm display mode by transmitting an alarm operation signal for operating the alarm display mode. This process is terminated (step S7). Then, in the next cycle, the microprocessor 17 again enters a standby state in which it waits for the alarm collection means 10 to detect the input of an alarm signal or the indicator light management means 15 to detect the input of an operation signal. (Refer to step S1, step S8).

Here, for example, if the device in which the alarm has occurred is “device 2-1”, the “indicator light 6-1” corresponding to “device 2-1” is obtained from the correspondence storage table 27 in FIG. The microprocessor 17 functioning as the indicator lamp managing means 15 constituting a part of the display mode managing means 16 transmits an alarm activation signal to the “indicator lamp 6-1”, and the “indicator lamp 6-1”. Starts operation in the alarm display mode (see FIG. 7).
In this embodiment, the operation mode of the indicator lamps 6-1, 6-2,... In the alarm display mode is a red lamp.

  The administrator who packs in the monitoring room can easily confirm the correspondence relationship between the type of newly generated alarm and the devices 2-1, 2-2,. , An appropriate worker corresponding to the type of alarm can be dispatched to the devices 2-1, 2-2,.

  In addition, since the indicator lamps 6-1, 6-2,... That are closest to the devices 2-1, 2-2,. An operator who visits the site has many devices 2-1, 2-2,..., Especially devices 2-1, 2-2,. Even in a situation where a large number are densely deployed, it is possible to easily find out the devices 2-1, 2-2,.

  Then, when an operator who has identified the devices 2-1, 2-2,... To be subject to maintenance starts the maintenance work, the devices 2-1, 2-2,. When the manual operation switches 7-1, 7-2,... Arranged on the display lamps 6-1, 6-2,. A microprocessor 17 functioning as an indicator lamp managing means 15 constituting a part of the managing means 16 is provided with a manual operation switch 7-provided on the indicator lamps 6-1, 6-2,. , 7-2,... Are detected (step S8).

  Next, the microprocessor 17 functioning as the indicator light management means 15 constituting a part of the display mode management means 16 sets the manual operation switches 7-1, 7-2,. The device 2-1 corresponding to the manual operation switches 7-1, 7-2,..., Which are specified and referred to the correspondence storage table 27 as shown in FIG. .., And further, the device 2-1 from the data storage area of the hard disk drive 21 that functions as the alarm storage unit 13 based on the specified devices 2-1, 2-2,. , 2-2,... Are read, and whether or not the status of the devices 2-1, 2-2,. The hand detected in the process of S8 Operation switches 7-1 and 7-2, the operation of ... it is determined whether or not made by an operator attempting to start the maintenance work (Step S9).

  The determination result of step S9 is true, and the devices 2-1 2-2,... Corresponding to the manual operation switches 7-1 7-2,. When it becomes clear that the status is in the alarm display mode, the microprocessor 17 functioning as the indicator light management unit 15 constituting a part of the display mode management unit 16 indicates that the operation signal .., 1, 2, 2,..., Operation signals that are input first after the start of the operation in the alarm display mode, that is, maintenance. The manual operation switches 7-1 and 7 that transmit the operation signal are regarded as the operation signal transmitted by the worker who is going to start the work, referring to the correspondence storage table 27 as shown in FIG. Table corresponding to -2, ... .. Is a maintenance display mode that identifies lamps 6-1, 6-2,... And stops the operation of the indicator lamps 6-1, 6-2,. By transmitting a maintenance operation signal for starting the operation at the corresponding indicator lamps 6-1, 6-2,... Via the signal line 8, the indicator lamps 6-1, 6-2. ,... Are started in the maintenance display mode (step S10).

  Next, the microprocessor 17 functioning as the alarm management unit 12 constituting the other part of the display mode management unit 16 identifies the devices 2-1, 2-2,. Recognizing that the devices 2-1, 2-2,... Corresponding to the indicator lights 6-1, 6-2,. The microprocessor 17 functioning as the display image creation means 14 generates image data for rewriting and displaying the status of the devices 2-1, 2-2,. (Step S11), and by transmitting this image data to the display device 4, the apparatus 2- , 2-2,... Are visually displayed on the display device 4 (step S12), and the microprocessor 17 functioning as the alarm management means 12 is connected to the devices 2-1, 2-2,. The transition from the alarm occurrence state to the maintenance state is stored in the data storage area of the hard disk drive 21 functioning as the alarm storage means 13 as one of the abnormality occurrence histories (step S13).

Here, for example, when the device in which the alarm is generated is the device 2-1, the manual operation switch 7-1 disposed on the indicator light 6-1 closest to the device 2-1 is the hand of the operator. Is operated, the microprocessor 17 functioning as the indicator light managing means 15 constituting a part of the display mode managing means 16 is operated by the manual operation switch 7-disposed on the indicator lamp 6-1 through the signal line 8. The input of the operation signal from 1 is detected (see step S8).
Then, the microprocessor 17 refers to the correspondence storage table 27 as shown in FIG. 5 to identify the device 2-1 corresponding to the manual operation switch 7-1 that is the transmission source of the operation signal. The latest log corresponding to the device 2-1 is read out from the data storage area of the hard disk drive 21 that functions as the alarm storage means 13 based on the specified device 2-1. In this case, the device 2- Since the latest status of 1 is in the alarm display mode, the determination result in step S9 is true.
As a result, the operation signal from the manual operation switch 7-1 detected in the processing of step S8 of this processing cycle indicates that the indicator lamp 6-1 corresponding to the device 2-1 starts the operation in the alarm display mode. It becomes clear that the first input operation signal is an operation signal transmitted by an operator who wants to start maintenance work.
Therefore, the microprocessor 17 functioning as the indicator light management means 15 constituting a part of the display mode management means 16 refers to the correspondence relationship storage table 27 as shown in FIG. Maintenance for specifying the indicator lamp 6-1 corresponding to 7-1, stopping the operation of the indicator lamp 6-1 in the alarm display mode, and starting the operation in the maintenance display mode indicating that the maintenance is being performed. By transmitting the operation signal to the corresponding indicator lamp 6-1 via the signal line 8, the operation of the indicator lamp 6-1 in the maintenance display mode is started (see step S10, FIG. 8). .
In this embodiment, the operation mode of the indicator lamps 6-1, 6-2,... In the maintenance display mode is blinking of the yellow lamp.
Further, the microprocessor 17 functioning as the alarm management means 12 constituting the other part of the display mode management means 16 displays the device 2-1 identified in the process of step S10, that is, the display that has started the operation in the maintenance display mode. Recognizing that the device 2-1 corresponding to the lamp 6-1 has shifted from the alarm generation state to the maintenance state, the microprocessor 17 functioning as the display image creation means 14 newly shifts to the maintenance state. The image data for rewriting and displaying the status of the alarm from the alarm state to the maintenance state is generated (see step S11), and this image data is transmitted to the display device 4 so that the device 2- 1 is visually displayed on the display device 4 (see step S12). The data storage area of the hard disk drive 21 that functions as the alarm storage means 13 with the history of the device 2-1 that has shifted from the alarm occurrence state to the maintenance state as one of the abnormality occurrence histories. (See step S13).
Therefore, in such a situation, the visible display on the display screen of the display device 4 is rewritten from information such as “device 2-1: fan stop” to information such as “device 2-1: under maintenance” ( As a latest history of the device 2-1, the maintenance history is stored in the data storage area of the hard disk drive 21 that functions as the alarm storage means 13 (see step S13).

  Since the manager who packs in the monitoring room can easily confirm on the display device 4 that the dispatched worker has started the maintenance of the devices 2-1, 2-2,. , It is possible to prevent mistakes such as redundant dispatch of workers for alarm elimination.

  On the other hand, the determination result of step S9 is false, and the devices 2-1 2-2,... Corresponding to the manual operation switches 7-1, 7-2,. If it is clear that the status is not an alarm display, the microprocessor 17 functioning as the indicator light management means 15 constituting a part of the display mode management means 16 is identified by the process of step S9. Whether the status corresponding to the manual operation switches 7-1, 7-2,... That is the transmission source of the received operation signal is in the maintenance display mode, that is, the processing in step S8 of this processing cycle. It is determined whether or not the operation of the manual operation switches 7-1, 7-2,... Detected in (1) is performed by an operator who has finished the maintenance work (step S 14).

  The determination result of step S14 is true, and the statuses of the devices 2-1, 2-2,... Corresponding to the manual operation switches 7-1, 7-2,. When it is clear that the maintenance display mode is set, the microprocessor 17 functioning as the indicator lamp management unit 15 constituting a part of the display mode management unit 16 indicates that the operation signal is the device 2-2. .., 6-2,..., The operation signal input first after the start of the operation in the maintenance display mode, that is, the maintenance work is performed. The manual operation switches 7-1, 7-2,... Which have been regarded as the operation signals transmitted by the finished workers and have transmitted the operation signals with reference to the correspondence storage table 27 as shown in FIG. ..Display corresponding to 6-1, 6-2,... And a failure recovery display mode that indicates the end of the maintenance by stopping the operation of the indicator lamps 6-1 6-2,. Is transmitted to the corresponding indicator lamps 6-1, 6-2,... Via the signal line 8, so that the indicators 6-1, 6-2,. The operation is completely stopped to set the initial state, that is, the extinguished state (step S15).

  Next, the microprocessor 17 functioning as the alarm management unit 12 constituting the other part of the display mode management unit 16 identifies the devices 2-1, 2-2,... Recognizing that the devices 2-1, 2-2,... Corresponding to the indicator lights 6-1, 6-2,. Image data for the microprocessor 17 functioning as the display image creation means 14 to rewrite and display the status of the devices 2-1, 2-2,... Newly transferred to the failure recovery state from the maintenance state to the failure recovery state. (Step S11), and by transmitting this image data to the display device 4, the devices 2-1, 2-2, The latest information is visually displayed on the display device 4 (step S12), and the microprocessor 17 functioning as the alarm management means 12 changes the state of the devices 2-1, 2-2,. Is transferred to the data storage area of the hard disk drive 21 that functions as the alarm storage means 13 as one of the abnormality occurrence histories (step S13).

Here, for example, when the device under maintenance is the device 2-1, the manual operation switch 7-1 disposed on the indicator light 6-1 closest to the device 2-1 is the hand of the operator. Is operated, the microprocessor 17 functioning as the indicator light managing means 15 constituting a part of the display mode managing means 16 is operated by the manual operation switch 7-disposed on the indicator lamp 6-1 through the signal line 8. The input of the operation signal from 1 is detected (see step S8).
Then, the microprocessor 17 refers to the correspondence storage table 27 as shown in FIG. 5 to identify the device 2-1 corresponding to the manual operation switch 7-1 that is the transmission source of the operation signal. The latest log corresponding to the device 2-1 is read out from the data storage area of the hard disk drive 21 that functions as the alarm storage means 13 based on the specified device 2-1. In this case, the device 2- Since the latest status of 1 is in the maintenance display mode, the determination result in step S9 is false and the determination result in step S14 is true.
As a result, the operation signal from the manual operation switch 7-1 detected in the process of step S8 of this process cycle indicates that the indicator lamp 6-1 corresponding to the device 2-1 starts the operation in the maintenance display mode. From the above, it is clear that the operation signal is input first, that is, the operation signal transmitted by the worker who has finished the maintenance work.
Therefore, the microprocessor 17 functioning as the indicator light management means 15 constituting a part of the display mode management means 16 refers to the correspondence relationship storage table 27 as shown in FIG. A failure recovery signal for specifying the indicator lamp 6-1 corresponding to 7-1 and stopping the operation of the indicator lamp 6-1 in the maintenance display mode to display the failure recovery display mode indicating the end of maintenance. Is transmitted to the corresponding indicator lamp 6-1 via the signal line 8, thereby completely stopping the operation of the indicator lamp 6-1 and returning to the initial state of the extinguished state (step S15). .
In this embodiment, the operation modes of the indicator lamps 6-1, 6-2,.
Further, the microprocessor 17 functioning as the alarm management unit 12 constituting the other part of the display mode management unit 16 displays the device 2-1 identified in the process of step S15, that is, the display that has finished the operation in the maintenance display mode. Recognizing that the device 2-1 corresponding to the lamp 6-1 has shifted from the maintenance state to the failure recovery state, the microprocessor 17 functioning as the display image creation unit 14 newly shifts to the failure recovery state. The image data for rewriting and displaying the status of 1 from the maintenance state to the failure recovery state is generated (see step S11), and the image data is transmitted to the display device 4 to shift the device from the maintenance state to the failure recovery state. The latest information of 2-1 is visually displayed on the display device 4 (see step S12), and the alarm manager The microprocessor 17 that functions as 12 stores the history of the device 2-1 that has shifted from the maintenance state to the failure recovery state as one of the abnormality occurrence histories in the data storage area of the hard disk drive 21 that functions as the alarm storage unit 13. (See step S13).
Therefore, under such circumstances, the visible display on the display screen of the display device 4 is rewritten from information such as “device 2-1: under maintenance” to information such as “device 2-1: failure recovery” (step S12). Reference), the history of failure recovery as the latest history of the device 2-1 is stored in the data storage area of the hard disk drive 21 that functions as the alarm storage means 13 (see step S 13).

  The manager packed in the monitoring room can easily confirm on the display device 4 that the dispatched worker has finished the maintenance of the devices 2-1, 2-2,.

  Moreover, the determination result of step S14 is false, and the devices 2-1 2-2,... Corresponding to the manual operation switches 7-1, 7-2,. When it is clear that the status is neither an alarm display nor a maintenance display, the microprocessor 17 functioning as the indicator light management means 15 constituting a part of the display mode management means 16 The operation of the manual operation switches 7-1, 7-2,... That is the transmission source of the operation signal specified in the process of S9 is regarded as an erroneous operation, and the alarm management control in this processing cycle The processing of the program ends, and in the next cycle processing, the alarm collecting means 10 detects the alarm signal input again or the indicator light management means 15 detects the operation signal input. Wait enters a standby state (see step S1, step S8).

  As described above, referring to the latest logs of the devices 2-1, 2-2,... Corresponding to the manual operation switches 7-1, 7-2,. Meaning of the operation signals from the manual operation switches 7-1, 7-2,..., That is, whether the transmission of the operation signals is performed by the worker who is going to start the maintenance work (the latest log is Since the alarm is generated), it is determined whether the work has been performed by the worker who has finished the maintenance work (when the latest log is under maintenance). Can be prevented from causing inconveniences such as incorrect information displayed on the display device 4 due to misoperation of -2,... And mishandling of the manual operation switches 7-1, 7-2,. Monitor 4 It is possible to prevent the confusion of that administrator.

  As described above, the alarm management system 1 according to this embodiment includes the indicator lights 6-1 and 6 provided in the vicinity of the devices 2-1, 2-2,. -2,... Are operated by turning on a red light indicating an alarm display mode by an alarm activation signal from the alarm monitoring device 5, so that the maintenance of the devices 2-1, 2-2,. The dispatched worker refers to the indicator lamps 6-1, 6-2,. Can be easily found.

  In particular, in this embodiment, the correspondence between the type of newly generated alarm and the devices 2-1, 2-2,... That generated the alarm is displayed on the display device 4. Can easily confirm the type of the alarm that has occurred, so that an appropriate worker corresponding to the type of alarm can be assigned to the devices 2-1, 2-2,. It becomes possible to dispatch to.

  Further, when transmission of an operation signal from the manual operation switches 7-1, 7-2,... Is detected by the alarm monitoring device 5, the manual operation switch 7-1 that is the transmission source of the operation signal. , 7-2,..., 7-2,... Is referred to by the latest log of the devices 2-1, 2-2,. Whether the latest log is an alarm occurrence or if it was performed by an operator who has completed maintenance work (if the latest log is under maintenance) Only when the transmission is performed by an operator who wants to start the maintenance work, a maintenance operation signal is transmitted from the alarm monitoring device 5 to the indicator lights 6-1, 6-2,. -1,6-2, ... are activated by turning on a yellow light indicating the maintenance display mode, and the devices 2-1, 2-2, ... that have generated an alarm shift from the alarm state to the maintenance state. Is displayed on the display device 4 so as to inform the manager who packs it in the monitoring room, so that the manager can send the devices 2-1, 2-2,. It is possible to easily confirm on the display device 4 that maintenance has been started, and it is possible to prevent mistakes such as redundant dispatch of workers for alarm elimination.

  Further, even when transmission of the operation signal from the manual operation switches 7-1, 7-2,... Is detected by the alarm monitoring device 5, the manual operation switch 7 that is the transmission source of the operation signal. If the latest log of the devices 2-1, 2-2,... Corresponding to -1, 7-2,. Therefore, erroneous information is displayed on the display device 4 due to an erroneous operation of the manual operation switches 7-1, 7-2,. Such an inconvenience can be prevented and confusion of the administrator who monitors the display device 4 can be prevented.

And all the display modes of the indicator lamps 6-1, 6-2,... Installed close to each of the devices 2-1, 2-2,. Because it is configured to control, it is possible to easily check the equipment with an alarm by attaching an indicator light to equipment without an alarm display function, and also to perform maintenance work on the equipment with an alarm. It can be easily confirmed from the display device 4 of the alarm monitoring device 5 whether or not there is a work in progress.
In other words, the indicator lamps 6-1, 6-2,... And the manual operation switches 7-1, 7-2,. .. is completely independent from the hardware of each device 2-1, 2-2,... Even if it is a case, the operator who starts a maintenance operation | work will operate the manual operation switch 7-1 of the indicator lights 6-1, 6-2, ... corresponding to the apparatus 2-1, 2-2, ... 7-2,..., If the device is operated, the device 2-1, 2-2,... That generated the alarm has shifted from the alarm state to the maintenance state, that is, the worker has started the maintenance work. This can be displayed on the display device 4 and can be surely notified to the manager who packs it in the monitoring room.
In addition, some devices are known to turn on the indicator light when an alarm occurs, but the shape and mounting position of the indicator light vary depending on the manufacturer and model number and are not consistent. It may be difficult to distinguish the lamps themselves. On the other hand, in this embodiment, the specifications of the indicator lamps 6-1, 6-2,... And the manual operation switches 7-1, 7-2,. Since the installation positions can be unified, a worker who goes out to maintenance in a rack room or the like can easily identify the device in which the alarm has occurred. Of course, it is possible to implement a display state of the maintenance state by installing an indicator light even for a device having no function of outputting an alarm.

A part or all of the embodiment disclosed above can be appropriately expressed by the description shown in the following supplementary notes, but the form for carrying out the invention and the technical idea of the invention are not limited to these. Absent.
For example, in the above-described embodiment, the devices 2-1, 2-2,... Or the failure recovery state, the display modes of the display lamps 6-1, 6-2,... Used for identification are the display lamps 6-1, 6-2,. May be a combination of lighting, flashing, and color.
In the case of using a combination of lighting, flashing, and color, for example, whether the devices 2-1, 2-2,... Are in an alarm generation state or a maintenance state by lighting and flashing. It is possible to identify whether or not a fault is restored, and to indicate the type of alarm by the lighting color or blinking color.

  The alarm management control program may be stored in a non-temporary recording medium. As the non-temporary recording medium, for example, a DVD, CD, flash memory or the like can be used. When the alarm management control program is stored in a non-temporary recording medium, the alarm management control program is read from the non-temporary recording medium by a computer constituting the alarm monitoring device 5 and executed by the microprocessor 17. become.

[Appendix 1]
An alarm monitoring device that is connected to a plurality of devices installed at a distance from each other via a network, and that receives an alarm signal from the device and visually displays a correspondence relationship between the alarmed device and the alarm on a display device; An alarm management system comprising an indicator for each device installed in proximity to each of the devices,
While connecting each of the alarm monitoring device and the indicator lamp with a bidirectional signal line, a manual operation switch is provided for each indicator lamp,
In the alarm monitoring device, an indicator lamp provided in the vicinity of the alarmed device is operated in an alarm display mode, and when a signal from a manual operation switch provided on the indicator lamp is detected, the indicator lamp An alarm management system comprising a display mode management means for stopping the operation in the alarm display mode and the alarm display on the display device of the device corresponding to the indicator lamp.

[Appendix 2]
When the display mode managing means receives the first signal sent from the manual operation switch after operating the indicator lamp in the alarm display mode, the display mode management means and the display lamp corresponding to the manual operation switch The alarm management system according to claim 1, wherein the display mode of the device corresponding to the above is switched from the alarm display mode to a maintenance display mode indicating that maintenance is being performed.

[Appendix 3]
When the display mode management means receives the first signal sent from the manual operation switch after operating the display lamp in the maintenance display mode, the display mode management means and the display lamp corresponding to the manual operation switch The alarm management system according to appendix 2, wherein the display mode of the device corresponding to is switched from a maintenance display mode to a failure recovery display mode indicating the end of maintenance.

[Appendix 4]
The alarm management system according to any one of Supplementary Note 1, Supplementary Note 2, and Supplementary Note 3, wherein a display mode of the indicator lamp is identified by lighting and blinking of the indicator lamp.

[Appendix 5]
The alarm management system according to any one of Supplementary Note 1, Supplementary Note 2, and Supplementary Note 3, wherein a display mode of the indicator lamp is identified by a lighting color of the indicator lamp.

[Appendix 6]
An alarm monitoring device that is connected to a plurality of devices installed at a distance from each other via a network, and that receives an alarm signal from the device and visually displays a correspondence relationship between the alarmed device and the alarm on a display device; An alarm display method for an alarm management system comprising an indicator with a manual operation switch for each device installed in proximity to each of the devices and connected to the alarm monitoring device by a bidirectional signal line,
While the indicator lamp provided in the vicinity of the device where the occurrence of the alarm is detected is operated in the alarm display mode by the signal from the alarm monitoring device,
When the alarm monitoring device detects a signal from a manual operation switch provided on the indicator light, the alarm display mode of the indicator light and the alarm display on the display device of the device corresponding to the indicator light are displayed. An alarm display method characterized by being stopped by a signal from an alarm monitoring device.

[Appendix 7]
After the indicator lamp operates in the alarm display mode, when the alarm monitoring device detects an initial signal sent from the manual operation switch, the alarm monitoring device operates the indicator lamp corresponding to the manual operation switch. The alarm display method according to appendix 6, wherein the display mode of the device corresponding to the mode and the indicator lamp on the display device is switched from the alarm display mode to a maintenance display mode indicating that maintenance is being performed.

[Appendix 8]
After the indicator lamp operates in the maintenance display mode, when the alarm monitoring device detects an initial signal sent from the manual operation switch, the alarm monitoring device operates the indicator lamp corresponding to the manual operation switch. The alarm display method according to appendix 7, wherein the display mode on the display device of the mode and the device corresponding to the indicator lamp is switched from the maintenance display mode to a failure recovery display mode indicating the end of maintenance.

[Appendix 9]
The alarm display method according to any one of Supplementary Note 6, Supplementary Note 7, and Supplementary Note 8, wherein a display mode of the indicator lamp is identified by lighting and blinking of the indicator lamp.

[Appendix 10]
The alarm display method according to any one of Supplementary Note 6, Supplementary Note 7, and Supplementary Note 8, wherein a display mode of the indicator lamp is identified by a lighting color of the indicator lamp.

[Appendix 11]
An alarm monitoring device that is connected to a plurality of devices installed at a distance from each other via a network, and that receives an alarm signal from the device and visually displays a correspondence relationship between the alarmed device and the alarm on a display device; An alarm management control program for an alarm management system, comprising: an indicator lamp with a manual operation switch for each device installed in the vicinity of each of the devices and connected to the alarm monitoring device by a bidirectional signal line. ,
A microprocessor included in the alarm monitoring device,
An indicator lamp provided in the vicinity of a device that has newly generated an alarm is operated in an alarm display mode, and an alarm indication of an indicator lamp provided with the manual operation switch is received when a signal transmitted from the manual operation switch is received. Indicator light management means for stopping the operation in the mode, and
An alarm management functioning as an alarm management means for stopping an alarm display on the display device of a device corresponding to an indicator light that stops the operation in the alarm display mode upon receiving a notification from the indicator light management means Control program.

[Appendix 12]
When the indicator lamp management means receives the first signal sent from the manual operation switch after operating the indicator lamp in the alarm display mode, the operation mode of the indicator lamp including the manual operation switch is changed from the alarm display mode. Switch to the maintenance display mode,
The alarm management means switches the display mode on the display device of the device corresponding to the display lamp to be switched to the maintenance display mode from the alarm display mode to the maintenance display mode in response to the notification from the indicator light management unit. The alarm management control program according to appendix 11.

[Appendix 13]
When the indicator lamp management means receives the first signal sent from the manual operation switch after operating the indicator lamp in the maintenance display mode, the operation mode of the indicator lamp including the manual operation switch is changed from the maintenance display mode. Switch to the failure recovery display mode,
The alarm management unit is configured to switch the display mode on the display device corresponding to the display lamp to be switched to the failure recovery display mode from the maintenance display mode to the fault recovery display mode in response to the notification from the indicator light management unit. The alarm management control program according to appendix 12, which is characterized.

  INDUSTRIAL APPLICABILITY The present invention can be generally applied to an alarm management system using an alarm monitoring device that receives an alarm signal from a plurality of devices installed at a distance and visually displays a corresponding relationship between the alarmed device and the alarm on a display device. .

DESCRIPTION OF SYMBOLS 1 Alarm management system 2-1 and 2-2 Equipment 3 Network 4 Display apparatus 5 Alarm monitoring apparatus 6-1 and 6-2 Indicator lamps 7-1 and 7-2 Manual operation switch 8 Signal line 9 Equipment storage shelf 10 Alarm collection Means 11 Alarm analysis means 12 Alarm management means (other part of indicator light management means)
13 Alarm storage means 14 Display image creation means 15 Indicator light management means (part of indicator light management means)
16 Display mode management unit 17 Microprocessor (alarm collection unit, alarm analysis unit, alarm management unit, display image creation unit, indicator light management unit, display mode management unit)
18 ROM
19 RAM
20 Nonvolatile memory 21 Hard disk drive (alarm storage means)
22 I / O circuit 23 Keyboard 24 Mouse 25 Interface 26 Interface 27 Correspondence storage table

Claims (10)

An alarm monitoring device that is connected to a plurality of devices installed at a distance from each other via a network and that receives an alarm signal from each device and visually displays the correspondence between the alarmed device and the alarm on a display device; , An alarm management system comprising an indicator lamp for a device installed adjacent to each device corresponding to each device ,
While connecting each of the alarm monitoring device and the indicator lamp with a bidirectional signal line, a manual operation switch is provided for each indicator lamp,
The alarm monitoring equipment, as well as operating the display lamp corresponding to the generated device alarms in the alarm display mode, functions and the table示灯when detecting a signal from the manually operated switch that is deployed to the indicator alarm management system characterized in that it comprises a display form management means for stopping the alarm display in the operation of the alarm display mode and on the display device of the device corresponding to the indicator. The alarm management system according to claim 1,
The display mode management means, operation of said indicator said work if the indicator were allowed to operate in the alarm display mode receiving the first signal transmitted from said manual operation switch, corresponding to the manual operation switch alarm management system, characterized in that the display form on the display device on the device corresponding to the embodiment and the display lamp is provided with a function to switch to the maintenance display form indicating the running maintenance from the alarm display mode. The alarm management system according to claim 2,
The display mode management unit functions when receiving a first signal transmitted from said manual operation switch said indicator from actuate maintenance display mode, operation mode of the display lamp corresponding to the manual operation switch and alarm management system display modes on the display device of the device corresponding to the indicator, and characterized in that it comprises a function of switching the disaster recovery display mode indicating the end of the maintenance from the maintenance display mode. The alarm management system according to claim 1,
An alarm management system characterized in that a correspondence relationship between an alarmed device and an alarm is visually displayed on a display device in association with the alarmed device and information on the content of the alarm. In the alarm management system according to any one of claims 1 to 4,
The display mode of the indicator, flashing the lighting of the display lamp or the alarm management system, wherein the identifying at lighting color of a display lamp. An alarm monitoring device that is connected to a plurality of devices installed at a distance from each other via a network, and that receives an alarm signal from the device and visually displays a correspondence relationship between the alarmed device and the alarm on a display device; a method of displaying alarms in the alarm management system comprising a manually operated switch with indicator lamp for each device the connected bidirectional signal lines are disposed in proximity to each of the devices the alarm monitoring device ,
The indicator lamp provided close to the detected equipment of an alarm, is activated in the alarm display mode by a signal from the alarm monitoring device,
Next, it operates when the alarm monitoring device detects a signal from a manual operation switch provided on the indicator lamp, and operates in the alarm display mode of the indicator lamp and the display of the device corresponding to the indicator lamp. An alarm display method , wherein an alarm display on the apparatus is stopped by a signal from the alarm monitoring apparatus. The alarm display method according to claim 6, wherein
After the indicator is activated in the alarm display mode, when said alarm monitoring device detects a first signal transmitted from said manual operation switch, the alarm monitoring device, the indicator light corresponding to the manual operation switch An alarm display method characterized by switching an operation mode and a display mode of a device corresponding to the indicator lamp on the display device from an alarm display mode to a maintenance display mode indicating that maintenance is being performed. The alarm display method according to claim 7,
After the indicator is activated by the maintenance display mode, when said alarm monitoring device detects a first signal transmitted from said manual operation switch, the alarm monitoring device, the indicator light corresponding to the manual operation switch An alarm display method characterized by switching an operation mode and a display mode of a device corresponding to the indicator light on the display device from a maintenance display mode to a failure recovery display mode indicating the end of maintenance.
The alarm display method according to any one of claims 6 to 8,
In the visual display on the display device, the alarm monitoring device associates the device in which the alarm has been generated with the information on the contents of the alarm in relation to the correspondence relationship between the device in which the alarm has occurred and the alarm. An alarm management system characterized by visual display on a device. The alarm display method according to any one of claims 6 to 8,
The display mode of the indicator, flashing the lighting of the display lamp or the alarm display method characterized by identifying in lighting color.

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