KR19980036953A - Remote monitoring device of elevator - Google Patents

Abstract

The present invention relates to a remote monitoring regular reporting technology of an elevator that regularly collects the operation history and status, the degree of use of parts, etc. in a remote maintenance center to analyze abnormal symptoms and replacement of the elevator. In the remote monitoring regular reporting device of an elevator, data is transmitted from the monitoring terminal device to the main host computer according to a predetermined periodic reporting cycle, and thus there is a defect that cannot be adaptively prevented from preventing a failure.

Accordingly, in order to solve this problem, the present invention stores the data transmitted from the repeaters 42-44, and when the transfer command from the main host computer 47 is received, the main host computer 47 through the LAN. Sub-host computer 45-46 attempting a communication connection with the sub-host computer 45-46 and the sub-host computer 45-46 via a LAN, and attempting variable connection with the repeater 42-44 periodically. It comprises a main host computer 47 for storing periodic reporting data transmitted from a large database.

Description

Remote monitoring device of elevator

1 is a block diagram of a remote monitoring device of a general elevator.

2 is a detailed block diagram of a monitoring terminal device in FIG.

3 is a detailed block diagram of the main host computer in FIG.

4 is a signal flow diagram of a remote monitoring periodic reporting device in a general elevator.

5 is an exemplary block diagram of a remote monitoring apparatus for an elevator of the present invention.

6 is a detailed block diagram of the sub-host computer in FIG.

7 is a detailed block diagram of the main host computer in FIG.

8 is a flowchart illustrating a data transmission signal from a sub host computer to a main host computer.

9 is a flowchart of a periodic report command and a storage operation signal in a host computer.

10 is a signal flow diagram for a periodic check cycle calculation and designation sequence.

Explanation of symbols on the main parts of the drawings

40, 41: elevator control device 42-44: repeater

45, 46: Sub host computer 47: Main host computer

48: Maintenance Center

The present invention relates to a remote monitoring regular reporting technology of the elevator periodically collects the operation history and condition, the degree of use of parts, etc. in order to analyze the abnormal symptoms and replacement of the elevator, especially in the maintenance center The present invention relates to an elevator remote monitoring apparatus that schedules periodic reports to efficiently utilize the performance of the main host and to collect information more efficiently.

If a breakdown occurs in the elevator, it may not only inconvenience passengers, but may cause a safety accident to damage the passenger's body. To prevent this, it is desirable from an economic point of view to replace parts indiscriminately. The result is not.

Therefore, in order to satisfy both of the above conditions, it is necessary to periodically check the state of each elevator to replace various old parts in a timely manner. For this purpose, a remote monitoring device of the elevator is usually used.

FIG. 1 is a block diagram of a general elevator remote monitoring apparatus. As shown in FIG. 1, an elevator control exerting all the control functions for driving a cage to a corresponding floor in response to calling information generated from a platform or a cage of each floor. Apparatus 10-13; In order to monitor the operation status of the elevator control device 10-13, the driving history and driving status data are periodically supplied and stored in the memory, and the usage data of parts are periodically stored in the main host computer (16). Monitoring terminal devices (14) and (15) for transmitting to the side; It consists of a main host computer (16) for analyzing the data transmitted from the monitoring terminal device (14), (15) to determine the possibility of failure of each elevator component and replacement of old parts. Referring to Figures 2 to 4 as follows.

The monitoring terminal device 14, 15 periodically monitors the driving state of the elevator control device 10-13, such as driving history, driving state data, for example, elevator trapping, starting system, safety system, power supply system. It stores data on driving status of door system, etc., and usage level of various sensors and switches for a certain period of time in memory. In addition, the usage data of the components stored in the memory are periodically stored again in a large database on the main host computer 16 of the maintenance / maintenance center via a telephone line.

That is, as shown in FIG. 2, the data control circuit 21 in the monitoring terminal devices 14 and 15 periodically runs the elevator control device 10-13 through the elevator control device communication circuit 20. As shown in FIG. The driving state data is received and stored in the memory circuit 24, and the various data stored in the memory circuit 24 are transferred to the main host computer 16 through the data modulation / demodulation circuit 22 and the telephone line network control circuit 23. It is delivered and stored in a large internal database.

In addition, the main host computer 16 reads the data stored in the database to determine the possibility of failure of each elevator part and whether to replace the old part, and to generate and display the analysis contents and corresponding maintenance instructions or externally through the printer. Will output

That is, as shown in FIG. 3, the information processing unit 32 in the main host computer 16 is supplied from the monitoring terminal devices 14 and 15 through the telephone network control unit 30 and the data modulation / demodulation unit 31. By analyzing the information on the operation history, operation status, and usage of each part of the elevator control device (10-13), the above prediction and diagnosis of preventive maintenance are performed. Parts replacement is instructed via 36 or display / terminal 36.

Here, the data modulation / demodulation unit 31 performs a mutual conversion function between the digital data and the analog data, and the telephone network control unit 31 controls the call / incoming call between the maintenance / maintenance center and the telephone line. In addition, the large-capacity database 33 stores information on a remote diagnosis program file for remotely diagnosing the driving history and the driving state of each elevator control device 10-13, the driving history, the driving state, the parts use degree, and the like. Database. In addition, the display / terminal section 36 is a means for printing or displaying the contents of information of any large-capacity database section 33 or the like in accordance with the requirements of the system.

Accordingly, the maintenance / maintenance center of the elevator can prevent the occurrence of a failure by monitoring the preliminary occurrence of the failure 1 before the failure occurs in the elevator.

However, in the conventional remote monitoring periodic reporting device of an elevator, data is transmitted from the monitoring terminal device to the main host computer according to a predetermined periodic reporting cycle. There is a defect that becomes impossible, and there is a risk of losing the data transmitted from the elevator control device while the monitoring terminal is waiting to store the data. It is set at the same reporting period, so there is a defect that can not respond more adaptively to failure prevention.

Accordingly, an object of the present invention is to more efficiently transmit the operation status data and parts usage information of elevators from the monitoring terminal device to the main host computer side, and the periodic reporting cycle according to the frequency and trend of failure of each elevator. The present invention provides a remote monitoring device for an elevator that operates flexibly.

5 is a block diagram illustrating an exemplary embodiment of a remote monitoring apparatus for an elevator of the present invention for achieving the above object, and as shown therein, driving a cage to a corresponding floor in response to calling information generated from a platform or a cage of each floor. Elevator control device (40-44) for exerting all control functions; A repeater 42-44 for storing the changed operation information and the number of times of use of each component and time, and transmitting the changed operation information to the maintenance / repair center 48 through a telephone line whenever there is a change in the operation information; Store the data transmitted from the repeater 42-44 in a local database and attempt to communicate with the main host computer 47 via a LAN when a transfer command from the main host computer 47 is received. A sub-host computer 45-46; The main host is connected to the sub-host computer 45-46 by LAN and attempts to connect to the repeater 42-44 periodically and stores the periodic report data transmitted from them in a large database. The configuration of the computer 47 will be described in detail with reference to FIGS. 6 to 10 to which the operation and effects of the present invention configured as described above are attached.

In the elevator controllers 40 and 41, whenever there is a change in the driving information, the changed driving information and the number of times and time of use of each component are stored in the memory in the repeater 42. The state of the various switches is detected.

On the other hand, the large-capacity database 74 of the maintenance / repair center 48 stores past driving history, parts use degree, elevator history, and the like. The operation information stored in the memory in the repeater 42 and the information on the degree of use of the parts are transmitted to the sub-host computer 45 in the same manner as the repeater of the prior art, except that the information is transmitted to the sub-host computer 45. Is sent.

The other sub host computer 46 including the sub host computer 45 stores the data transmitted from the repeaters 42-44 operating as described above in the local database 63 and then the main host computer 47. At the time of receiving a transfer command from the host computer, a communication connection is attempted with the main host computer 47, and the data stored in the local database 63 is stored in the large database 74 of the main host computer 47, and then the local database. The data stored in 63 is deleted.

Here, what cannot be overlooked is a local database having the same data structure as the large database 74 as in the present invention, rather than storing the data as file data and storing it in the large database 74 as in a conventional manner. The method of storing in (63) and then in the large-capacity database (74) is advantageous in terms of processing speed and efficient. In addition, it should be noted that the conventional method can be changed to the method proposed by the present invention by changing only the portion connected to the sub-host computers 45 and 46 in the conventional method.

By doing in this way, the connection rate and connection speed of the repeaters 42-44 can be increased, and the communication error frequency of the repeaters 42-44 and the communication disconnection frequency of the elevator control apparatuses 40 and 41 can be reduced.

8 shows a signal flow of the sub-host computers 45 and 46 that operate as described above.

On the other hand, the main host computer 47 in the maintenance / repair center 48 performs a number of control functions in addition to the reception and storage operations of the periodic report data. That is, in order to receive and store the periodic reporting data, the main host computer 47 issues a command to each of the subhost computers 45 and 46 to transmit the periodic reporting data according to its use frequency. At this time, the sub-host computer related to the command transfers the data stored in the local database 63 to the main host computer 47 as described above, and the data is stored in the large-capacity database 74.

The signal flow for the periodic report command and the storage operation sequence in the main host computer 47 operating as in the above description is shown in FIG.

10 shows how the main host computer 47 properly assigns a periodic reporting period of each repeater 42-44.

That is, the main host computer 47 determines an appropriate periodic reporting cycle based on the recent occurrence and trend of failure of each elevator and the latest operation status information. If the elevator named A has a higher frequency of failures than the other elevators in recent t periods, set a faster reporting period than the average reporting period.If the failure trend has increased during the last t hours, the reporting period is also faster than the average reporting period. Set it. In addition, if the frequency of anomalous occurrence in the driving state information of the elevator during the last t hours is increased more than in the previous operating state information, the period is set faster than the average reporting period. At this time, the method for obtaining each period value is based on the following equation.

First, the failure frequency factor Q ₁ is obtained by the following equation using the average failure number S _all of _all elevators and the failure number S of the elevators for the last t hours.

Q ₁ = S / S _all

Second, the failure trend factor Q ₂ is obtained by using the elevator failure number S _before for the previous t hours and the elevator failure number S for the last t hours.

Q ₂ = S / S _before

Third, the operating state information factor Q ₃ is caused symptoms of the elevator during the previous time t by using the S _before the recent generation abnormality of the elevator E for a time t is obtained by the following expression.

Q ₃ = E / E _before

Using each of the above factors, the periodic reporting period of each elevator is obtained by the following equation.

Periodic reporting cycle = (Q ₁ + Q ₂ + Q ₃ ) × (average reporting cycle) / 3

In this way, if you specify a periodic reporting cycle, elevators with many failures and abnormal symptoms report regularly at the corresponding intervals faster than the average cycle, so that you can check the abnormal conditions more effectively. If not, the regular report period will be longer than the average period, thereby reducing the number of communication. In a practical implementation, one repeater is connected to a plurality of elevator controls, so that the fastest periodic reporting period among elevators connected to each repeater 42-44 is assigned to the repeater.

As a result, in the related art, all the repeaters transmit data to one main host computer, which increases communication time and frequently causes communication between the repeater and the control device to be disconnected. However, when using the present invention, communication time and connection probability increase. In addition, the local database 63 may be used to efficiently store and transmit data. In addition, since each repeater (42-44) has an appropriate boil reporting period, the number of unnecessary data transmissions is reduced, and at the same time, the number of periodic reports is increased for the failure elevator so that an efficient reporting system can be established. .

As described in detail above, the present invention can efficiently perform data transfer to a large database of a primary host, and store data in a local database of multiple subhosts rather than storing data in a database of one primary host. Since the connection is increased, the possibility of connection at the repeater is increased, thereby improving the data communication speed, and ultimately, reducing the data communication time between the monitoring terminal and the elevator control device due to the data transmission time. . In addition, two-way communication from the monitoring terminal device to the main host enables statistical analysis of various elevator histories in the main host to specify the appropriate periodic reporting period so that the failure symptoms of the elevator can be identified as soon as possible. Therefore, there is an effect that can give confidence to customers.

Claims (6)

A plurality of repeaters 42-44 connected to a plurality of elevator control apparatuses and transmitting the changed operation information and the number of times and time of use of each part to the maintenance / maintenance center whenever there is a change in operation information; Sub-host which stores the data transmitted from the repeater 42-44 and attempts communication connection with the main host computer 47 via LAN when a transfer command from the main host computer 47 is received. Computer 45-46; The main host is connected to the sub-host computer 45-46 by LAN and attempts to connect to the repeater 42-44 periodically and stores the periodic report data transmitted from them in a large database. An elevator remote monitoring apparatus, comprising a computer (47). The method of claim 1, Repeater (42-44) is a remote monitoring device for an elevator, characterized in that configured to store the primary periodic reporting data in the local database of the sub-host computer (45-46). The method of claim 1, Repeater (42-44) is a remote monitoring device for an elevator, characterized in that it comprises a means for temporarily storing the operation information and information related to the degree of use of each part. The method of claim 1, The sub-host computer 45-46 transfers the periodic report data to the main host computer 47 at the request of the main host computer 47 when the system frequency of the main host computer 47 is low. Remote monitoring device of the elevator, characterized in that configured to be stored in. The method of claim 1, The main host computer 47 is configured to determine the appropriate periodic reporting period for each elevator based on the frequency of failure, trend of failure, and recent operation status for each elevator. 2. The elevator according to claim 1, wherein the main host computer 47 is configured to issue a command to the sub-host computer 45-46 to change the periodic reporting period value of each remote repeater 42-44. Remote monitoring system.