JP3383752B2 - Building remote monitoring device - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a building remote monitoring apparatus, and more particularly to a building remote monitoring apparatus for remotely monitoring equipment installed in a building by a monitoring center apparatus. About. 2. Description of the Related Art In a building remote monitoring apparatus, when an abnormality occurs in equipment installed in a building, a terminal device in the same building detects the abnormality and transmits abnormality information on the abnormality to the communication line. To the monitoring center device via the When the monitoring center device receives the abnormality information, the monitoring center device displays the abnormality information on a screen display device to notify a supervisor,
Print on the printer. Also, it is stored as an abnormal history. Then, the controller of the monitoring center recognizing the abnormal information notifies the abnormal information to a sales office or the like which is a dispatch base by telephone or facsimile and requests a response. [0003] Further, in normal times, the abnormal information sporadically occurs due to its nature, but may be intensively generated due to, for example, a power failure due to a typhoon, a lightning strike, or equipment failure due to an earthquake. When the abnormal information is transmitted intensively in this way, the monitoring center controller can not respond and the processing of the monitoring center device itself cannot catch up with the processing while confirming the contents on the one-by-one screen display device. It becomes difficult to do. Therefore, the number of transmissions in a certain unit time is counted, and when the number of transmissions exceeds a predetermined value, the output to the screen display device is blocked, and only the output to the printing device is switched. And the supervisor or supporter of the monitoring center,
Based on the printed abnormal information, the dispatch base is contacted and a response request is made. [0004] Conventionally, as this kind, for example, one described in Japanese Patent Application No. 63-169068 can be mentioned. [0005] By the way, in the above-mentioned conventional building remote monitoring apparatus, when the number of abnormal information transmitted exceeds a predetermined value, all abnormal information is processed by the printing device. Receiving important abnormal information,
For example, even when abnormal information relating to an elevator confinement accident is received, it is necessary to wait for the printing device to sequentially print. Also, due to the nature of the monitoring center, remote monitoring is performed over a wide area, but there is no problem in areas where transmission is concentrated due to a local power outage, but there is no problem because the cause is clear. Abnormal information from an area distant from the above will be handled in the same way. The present invention has been made in view of such a situation in the prior art, and its object is to be able to quickly respond to abnormal information of high importance even if abnormal information is transmitted in a concentrated manner. An object of the present invention is to provide a building remote monitoring device capable of preventing an increase in processing load due to low-priority abnormality information. SUMMARY OF THE INVENTION In order to achieve the above object, the present invention provides an equipment installed in a plurality of buildings and an equipment installed in each of the buildings, wherein the equipment in the same building has an abnormality. A terminal device for detecting the occurrence, and a monitoring center device connected to the terminal device via a communication line,
When an abnormality occurs in the equipment, a terminal device in the same building transmits abnormality information relating to the abnormality to the monitoring center device via the communication line, and displays the information on a screen display device provided in the monitoring center device and a printing device. In the building remote monitoring device for printing at a predetermined time, the monitoring center device detects that a predetermined number or more of abnormal information has been input within a unit time from a specific region among the regions monitored by the monitoring center device. A concentration mode detection unit, a concentration mode storage unit for storing contents detected by the concentration mode detection unit, and a code indicating an area assigned to the abnormality information when the abnormality information is input, and the concentration mode storage unit Compares with the concentrated mode information held in the
And determining alarm processing unit, important that the abnormality information determined to concentration mode in the alarm processing section to determine whether or not important onset report
A determination unit for determining the concentration mode in the alert processing unit.
And the importance judgment section judges that the notification is not an important alarm.
The configuration is such that a list display unit for displaying the determined abnormality information is provided . According to the present invention having the above-described configuration, when an abnormality occurs in the equipment installed in the building, the abnormality information is transmitted to the monitoring center device via the terminal device. On the other hand, the monitoring center device continuously determines whether or not a predetermined number or more of abnormal information has been input within a unit time from a specific region among the regions monitored by the monitoring center device by the centralized mode detection unit. Upon detecting that a predetermined number or more of abnormal information is input within a unit time, the content detected by the concentrated mode detecting unit by the concentrated mode storage unit, that is, the abnormal information related to the area is set to the concentrated mode. Is retained as centralized mode information. Further, when the abnormality information is input, the alarm processing unit compares the code indicating the area assigned to the abnormality information with the concentrated mode information held in the concentrated mode storage unit. The processing is transferred to the important determination unit in response to the determination of the concentration mode. That is, it is determined whether or not the abnormality information determined to be in the concentrated mode by the importance determination unit is an important alert. At this time, the abnormal information determined to be important and the abnormal information determined not to be in the concentrated mode by the comparison are sent to the operation processing unit, and the controller immediately responds. On the other hand, the abnormality information determined to be unimportant by the importance determination unit is transferred to the list display unit. As described above, since the abnormal information is managed for each region and the processing mode is changed according to the degree of importance, even if the abnormal information is transmitted in a concentrated manner, the degree of importance is high. It is possible to quickly respond to the abnormality information and prevent an increase in the processing load due to the abnormality information having low importance. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of a building remote monitoring apparatus according to the present invention will be described below with reference to the drawings. FIG. 1 is a block diagram showing an embodiment of a building remote monitoring device according to the present invention, FIG. 2 is a flowchart showing a processing procedure of the building remote monitoring device of FIG. 1, and FIG. 3 is a diagram of the building remote monitoring device of FIG. It is a flowchart which shows another processing procedure. In the building remote monitoring device of the present embodiment, as shown in FIG.
An equipment 3 such as an elevator equipment and a terminal device 2 for detecting that an abnormality has occurred in the equipment 3 in the same building are provided. On the other hand, the monitoring center device 10 connected to the terminal device 2 via the communication line 30 includes a communication unit 11 for controlling communication with the terminal device 2 and a communication device in the area monitored by the monitoring center device 10. A centralized mode detecting unit 12 that detects that a predetermined number or more of abnormal information has been input within a unit time from a specific area, a centralized mode storage unit 14 that holds the content detected by the centralized mode detecting unit 12, When the abnormal information is input, the code indicating the area assigned to the abnormal information is compared with the concentrated mode information held in the concentrated mode storage unit 14, and if it is determined that the mode is not the concentrated mode, the abnormal mode is determined.
Alert processing unit 1 that transfers the normal information to operation processing unit 13
5, the alarm abnormality information determined to concentration mode processing unit 15 no line determines whether critical onset report, determines that important
The abnormal information determined by the operation processing unit 13 is not important .
The abnormality information is provided in the list display section 17 with an importance determination section 16 for performing processing transfer. The operation processing unit 13 has a display unit 13a and an operation unit 13b. In this embodiment, when an abnormality occurs in the equipment 3, abnormality information is transmitted from the terminal device 2 to the communication line 30.
Is transmitted to the communication unit 11 of the monitoring center device 10 via The communication unit 11 sends the abnormality information to the concentration mode detection unit 12 and the alarm processing unit 15 in response to the reception of the abnormality information. And
As shown in the flowchart of FIG. 2, the centralized mode detection unit 12 buildings 1 which has transmitted the abnormality information as steps SS1
The abnormality information is stored in a corresponding area of a report table for each area where the location is located, for example, in municipalities. In addition, in order to specify an area in units of municipalities, a code indicating the area is added to an identification code unique to each terminal device. Next, in step SS2, the concentrated mode detection unit 12
The stored abnormal information of the area is grasped by the number of transmissions per unit time, and for example, transmission of abnormal information from the same area is 5 times.
Judge whether there are more than 3 events per minute. At this time, if there are three or more transmissions of abnormal information from the same area in five minutes, it is detected as the centralized mode, and as step SS3, the operation processing unit 13 displays a setting screen for setting the area to the centralized mode. . On the basis of this screen display, the traffic controller
In step S4, the status is confirmed, and a further determination is made as to whether or not to enter the centralized mode. If the centralized mode is selected here, the centralized mode of the area is set as the procedure SS5 and stored in the centralized mode table of the centralized mode storage unit 14. If the concentrated mode is not selected, the processing related to the concentrated mode detection ends. On the other hand, as shown in the flowchart of FIG. 3, the alert processing unit 15 to which the above-described abnormality information has been sent is translated and edited into display information at step S1. Next, in step S2, the centralized mode table for each area stored in the centralized mode storage unit 14 is searched from the identification number of the terminal device 2 that has transmitted the abnormality information, and it is determined whether or not the centralized mode is set. Do. At this time,
When it is determined that the centralized mode is set, the importance determination unit 16 determines whether the content of the abnormality information is important that requires immediate response as step S3. That is, for example, when the abnormality information is related to an elevator confinement accident, the degree of urgency is high, so it is determined to be important.On the other hand, for example, the abnormality information related to the power supply of the equipment is found to be caused by a local power outage. If it is, it is determined that the importance is low. The abnormality information determined to be of low importance at this time is stored in the list display unit 17 in step S4.
Is converted to list display information and displayed. On the other hand, the abnormality information determined to be not set to the centralized mode in step S2 and the abnormality information determined to be high in importance in step S3 are displayed on the screen of the operation processing unit 13 as step S5. Based on the displayed information, the traffic controller contacts the dispatch base, issues dispatch instructions, and provides work support. In the embodiment configured as described above, since the abnormal information is managed for each region and the processing mode is changed according to the importance, even if the abnormal information is transmitted in a concentrated manner. In addition, it is possible to quickly respond to abnormal information with high importance and prevent an increase in processing load due to abnormal information with low importance. In the present embodiment, after the centralized mode detecting unit 12 detects the centralized mode, the control operator further decides to set the centralized mode, but the present invention is not limited to this. At the stage when the mode detection unit 12 detects, the centralized mode may be set and stored in the centralized mode storage unit 14 so as to notify the controller to that effect. In addition, a printing device may be added to the operation processing unit 13 or the list display unit 17 so that the same content as the display information is printed, so that the controller can respond. As described above, according to the present invention, even when abnormal information is transmitted in a concentrated manner, abnormal information with high importance can be quickly dealt with and abnormal information with low importance can be dealt with. Can prevent an increase in the processing load, whereby safety and reliability can be improved, and the effort of the controller can be reduced.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a block diagram showing one embodiment of a building remote monitoring device of the present invention. FIG. 2 is a flowchart showing a processing procedure of the building remote monitoring device of FIG. 1; FIG. 3 is a flowchart showing another processing procedure of the building remote monitoring device of FIG. 1; [Description of Signs] 1 Building 2 Terminal device 3 Equipment 10 Monitoring center device 11 Communication unit 12 Centralized mode detection unit 13 Operation processing unit 14 Centralized mode storage unit 15 Alert processing unit 16 Importance judgment 17 List display unit 30 Communication line

──────────────────────────────────────────────────続 き Continued on the front page (51) Int.Cl. ⁷ Identification symbol FI H04Q 9/00 311 H04Q 9/00 311G (72) Inventor Toru Kato 1-6-6 Kandanishikicho, Chiyoda-ku, Tokyo Hitachi Building Systems Co., Ltd. (72) Inventor Hitoshi Shirayama 1-6-6 Kandanishikicho, Chiyoda-ku, Tokyo Inside the Hitachi Building System Co., Ltd. (56) References JP-A-61-208198 (JP, A) JP-A-5-120589 (JP, A) JP-A-7-334775 (JP, A) (58) Fields investigated (Int. Cl. ⁷ , DB name) G08B 19/00-21/24 G08B 23/00-31/00 Z

Claims (1)

(57) [Claim 1] An equipment installed in a plurality of buildings, and a terminal device provided in each of the buildings and detecting the occurrence of an abnormality in the equipment in the same building. A monitoring center device connected to the terminal device via a communication line, and when an abnormality occurs in the equipment, the terminal device in the same building transmits abnormality information regarding the abnormality to the monitoring center device via the communication line. The building remote monitoring device transmits the information to a screen display device provided in the monitoring center device and prints it on a printing device. The monitoring center device specifies the location within the area monitored by the monitoring center device. A centralized mode detecting unit that detects that a predetermined number or more of abnormal information has been input within a unit time from the area of the centralized mode, a centralized mode storage unit that stores the content detected by the centralized mode detecting unit When the abnormality information is input,
An alarm processing unit that compares the code indicating the area assigned to the abnormality information with the concentrated mode information stored in the concentrated mode storage unit and determines whether the mode is the concentrated mode; An importance determination unit that determines whether the abnormal information determined to be in the concentrated mode is an important alert.
The information processing unit determines that the
Displays the abnormality information that is judged not to be an important alert
A building remote monitoring device comprising a list display unit .