JP2004107044A - Elevator remote monitoring system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To prevent rewriting for a program from being notified erroneously to a center system as transmission abnormality between an elevator control panel and a remote monitor, when the rewriting for the program is executed in the elevator control panel by a remote operation. <P>SOLUTION: The elevator control panel 3 transmits a transmission abnormality detection stopping indication signal for stopping an operation for detecting the transmission abnormality between the elevator control panel 3 and the remote monitor 7, to the remote monitor 7, before executing the rewriting for the program (S9), transmits a transmission abnormality detection starting indication signal for starting the operation for detecting the transmission abnormality to the remote monitor 7, after finishing the rewriting for the program (S11), and stops the operation for detecting the transmission abnormality by the remote monitor 7, during a period from reception of the stopping indication signal to reception of the starting indication signal. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an elevator remote monitoring system, and more particularly to an elevator remote monitoring system for transmitting abnormality detection information to a center device installed at a remote place via a communication line when an abnormality occurs in an elevator. .
[0002]
[Prior art]
In recent years, operation control by an elevator control panel is performed by a CPU reading and executing a control program incorporated in a ROM on a microcomputer board in the apparatus. If it is necessary to upgrade the control program for some reason, the control panel is reset and replaced with a new control program.
[0003]
That is, when the control program is upgraded, for example, an extension board equipped with a new ROM storing a new control program is attached to the connector of the main board, and data for operating with the new ROM is set. By resetting the circuit once, the bus switching device is reset to operate the control program on the new ROM, and control is performed by the new control program (for example, see Patent Document 1). If the operation is hindered by the new control program, the old control program is switched to correct the new control program.
[0004]
[Patent Document 1]
JP 2001-240337 A (paragraph [0025])
[0005]
Further, as another conventional technique, a remote monitoring system is provided with a maintenance / inspection determining means for determining whether or not each terminal such as an elevator controller and a facility status monitoring device is performing a maintenance / inspection operation, and the maintenance / inspection operation is performed during the Some terminal devices do not transmit the abnormality detection information to the receiving device (for example, Patent Document 2). In the device of the document, no consideration is given to updating the control program.
[0006]
[Patent Document 2]
JP-A-10-194620 (page 3-4, FIG. 1)
[0007]
[Problems to be solved by the invention]
The conventional elevator control device described in Patent Literature 1 is configured as described above. When switching to a new control program, a new ROM is connected, and after resetting, elevator control is performed by the new program. When this is remotely monitored, the circuit of the elevator control panel is reset once, and during that time transmission between the elevator control panel and the remote monitoring device is stopped, so that the remote monitoring device communicates with the elevator control panel. In the place where the report was received, it was not clear whether the transmission was interrupted by rewriting the program of the elevator control panel or the transmission was interrupted due to an abnormality in the elevator control panel. There was a problem such as causing confusion.
[0008]
In the above Patent Document 2, it is possible to prevent the transmission of the abnormality detection information during the maintenance and inspection work. However, even if the maintenance and inspection determination means is hindered by some trouble and the maintenance and inspection work is completed. Regardless, if it cannot be determined, there is a problem that even if an abnormality occurs, the abnormality detection information cannot be sent to the receiving device forever.
[0009]
The present invention has been made in order to solve such a problem. An elevator remote monitoring system which prevents an erroneous transmission of an elevator control panel from being erroneously reported when a program of an elevator control panel is rewritten is provided. The purpose is to get.
[0010]
[Means for Solving the Problems]
The present invention is an elevator monitoring system including an elevator control panel that controls an elevator to be monitored, and a remote monitoring device that relays communication between the elevator control panel and a center device installed at a remote location. A control unit for controlling an elevator, an abnormality detection unit that detects an abnormality of the elevator and sends abnormality information to the remote monitoring device, and a remote monitoring device from the center device. A program rewriting unit that rewrites and executes its own program through the remote monitoring device, when the abnormality information is received from the elevator control panel, an abnormality information relay unit that sends the abnormality information to the center device; When the program for the elevator control panel is received from the center device to rewrite the program, A rewriting program relay unit for sending to the elevator control panel, wherein the elevator control panel detects a transmission abnormality between the elevator control panel and the remote monitoring device before executing the program rewriting. An elevator remote monitoring system that sends a stop instruction signal to stop the operation to the remote monitoring device, and sends a start instruction signal to start the operation for detecting a transmission error to the remote monitoring device after the rewriting of the program is completed. It is.
[0011]
BEST MODE FOR CARRYING OUT THE INVENTION
Embodiment 1 FIG.
Hereinafter, an embodiment of the present invention will be described with reference to the drawings. FIG. 1 is a diagram showing a configuration of an elevator remote monitoring system according to the present invention. As shown in FIG. 1, a center device 1 installed at a remote location with respect to an elevator (not shown) to be monitored controls the operation of the monitored elevator via an exchange 2 and a remote monitoring device 7. Is connected to the elevator control panel 3 which performs the following. In the remote monitoring device 7, an elevator control panel interface circuit 4 for exchanging communication with the elevator control panel 3, an exchange interface circuit 5 for exchanging communication with the exchange 2, and A control circuit 6 for controlling these interface circuits 4 and 5 is provided to relay communication between the elevator control panel 3 and the center device 1 and to detect transmission abnormalities in the communication. Has also gone.
[0012]
The operation when an abnormality occurs in the elevator to be monitored in the configuration of FIG. 1 will be described. When an abnormality occurs in the elevator, abnormality detection information is output from the elevator control panel 3 and transmitted to the center device 1 via the remote monitoring device 7 and the exchange 2.
[0013]
Next, a program rewriting operation will be described with reference to FIG. When the program of the elevator control panel 3 is to be rewritten by an instruction from the center device 1, the center device 1 first dials the telephone number of the remote monitoring device 7 to the exchange 2 (procedure S1). 2 sends a signal to the remote monitoring device 7 to notify the incoming call from the center device 1 (procedure S2). When the control circuit 6 of the remote monitoring device 7 recognizes the incoming call via the exchange interface circuit 5, it sends a response signal to the exchange 2. (Step S3), and upon receiving the response signal, the exchange 2 sends a response signal to the center device 1 (Step S4), and the center device 1 and the remote monitoring device 7 can communicate with each other.
[0014]
Next, the center device 1 sends out the program data of the elevator control panel 3 for rewriting the control program via the exchange 2, the exchange interface circuit 5, the control circuit 6, and the elevator control panel interface circuit 4 of the remote monitoring device 7. When the elevator control panel 3 receives the program data (step S5), the elevator control panel 3 sends a response signal indicating that the program data has been received to the center apparatus 1 via the remote monitoring device 7 and the exchange 2 (step S6). The center device 1 sends a signal of a rewrite instruction for instructing the start of operation with the program data to the elevator control panel 3 along the same route (step S7). Thus, the elevator control panel 3 sends a response signal indicating that the rewrite instruction signal has been received to the center device 1 through the same route (procedure S8). Next, the elevator control panel 3 sends a transmission abnormality detection stop instruction signal to the remote monitoring device 7 to stop the transmission abnormality detection function of the elevator control panel 3 and the remote monitoring device 7 (step S9), and performs remote monitoring. When the control circuit 6 of the apparatus 7 receives the transmission abnormality detection stop instruction signal via the elevator control panel interface circuit 4, the control circuit 6 temporarily stops transmission abnormality detection with the elevator control panel 3 from that point.
[0015]
Thereafter, the elevator control panel 3 resets itself to execute the program rewriting, rewrites the program, and resumes the operation by the program (step S10). After the restart, the elevator control panel 3 sends a signal of a transmission abnormality detection start instruction to the remote monitoring device 7 to start the transmission abnormality detection function of the elevator control panel 3 and the remote monitoring device 7 (step S11), and remote monitoring is performed. When the control circuit 6 of the apparatus 7 receives the transmission abnormality detection start instruction signal via the elevator control panel interface circuit 4, the control circuit 6 restarts the transmission abnormality detection with the elevator control panel 3 at that time.
[0016]
As described above, according to the present embodiment, before executing the program rewriting, the elevator control panel 3 instructs the remote monitoring device 7 to detect the transmission abnormality between the elevator control panel 3 and the remote monitoring device 7. A signal for restarting transmission error detection is sent to the remote monitoring device 7 after the execution of the program rewriting is completed. Until the detection start signal is received, the remote monitoring device 7 stops the function of detecting the transmission abnormality with the elevator control panel 3, so that the elevator control panel 3 has to execute the program rewriting. Even if the reset is performed, it is possible to prevent the transmission of the transmission abnormality notification from the remote monitoring device 7 to the elevator control panel 3 to the center device 1 beforehand. Thereby, in the center device 1, it is possible to clearly recognize that the cause of the transmission interruption is not due to the rewriting of the program but to the abnormality of the elevator control panel 3. Further, since the notification is not given when the program is rewritten, the exchange 2 and the center device 1 are not used by useless notification, and comfortable remote monitoring can be performed.
[0017]
Embodiment 2 FIG.
FIG. 3 is a diagram showing a flowchart of another embodiment of the remote monitoring device in the elevator remote monitoring system of the present invention, and the operation thereof will be described accordingly. Note that the overall configuration is the same as that of FIG. 1, and thus the description thereof is omitted here and FIG. 1 is referred to. It is assumed that the operation in FIG. 3 is performed after step S8 of the operation in FIG. 2 or is performed simultaneously with the operation in FIG. That is, also in the present embodiment, steps S1 to S8 in FIG. 2 are performed.
[0018]
As shown in FIG. 3, the control circuit 6 of the remote monitoring device 7 always checks whether or not a signal of a transmission abnormality detection stop instruction has been received from the elevator control panel 3 via the elevator control panel interface circuit 4 (step S12). Upon receiving the transmission abnormality detection stop instruction signal in step S9 of the first embodiment, the timer is set to start a timer for measuring time (step S13). While measuring the time with the timer, it is checked whether a signal indicating a transmission error detection start instruction has been received (step S14). Until the timer in step S13 times out, the transmission error in step S11 of the first embodiment is detected. When the detection start instruction signal is received, the timer is reset to stop (Step S15), and transmission abnormality detection is started (Step S17). On the other hand, even when the signal of the transmission abnormality detection start instruction of step S11 of the first embodiment is not received before the timer of step S13 times out (step S16), the transmission abnormality detection is started when the timer times out. (Step S17).
[0019]
As described above, in the present embodiment, the same effects as those of the above-described first embodiment are obtained, and further, when the transmission abnormality detection stop signal is received from the elevator control panel 3, the remote monitoring device 7 detects the transmission abnormality. The detection function is stopped, and the time is measured by a timer. Even if the transmission abnormality start signal is not received within the predetermined time, the transmission abnormality with the elevator control panel 3 is automatically detected after the predetermined time has elapsed. Since the function is started, the transmission abnormality detection start signal reaches the remote monitoring device 7 due to some trouble or the like after the elevator control panel 3 stops the transmission abnormality detection function to execute the program rewriting. Even if not, the remote monitoring device 7 can automatically start the transmission abnormality detection function after a certain period of time.
[0020]
【The invention's effect】
The present invention is an elevator monitoring system including an elevator control panel that controls an elevator to be monitored, and a remote monitoring device that relays communication between the elevator control panel and a center device installed at a remote location. A control unit for controlling an elevator, an abnormality detection unit that detects an abnormality of the elevator and sends abnormality information to the remote monitoring device, and a remote monitoring device from the center device. A program rewriting unit that rewrites and executes its own program through the remote monitoring device, when the abnormality information is received from the elevator control panel, an abnormality information relay unit that sends the abnormality information to the center device; When the program for the elevator control panel is received from the center device to rewrite the program, A rewriting program relay unit for sending to the elevator control panel, wherein the elevator control panel detects a transmission abnormality between the elevator control panel and the remote monitoring device before executing program rewriting. An elevator remote monitoring system that sends a stop instruction signal to stop the operation to the remote monitoring device, and sends a start instruction signal to start the operation for detecting a transmission error to the remote monitoring device after the rewriting of the program is completed. Therefore, during the period from the reception of the stop instruction signal to the reception of the start instruction signal, the remote monitoring device stops the operation for detecting the transmission abnormality, so that when the program of the elevator control panel is remotely rewritten, Can be prevented from being erroneously reported to the center device as a transmission abnormality between the elevator control panel and the remote monitoring device.
[Brief description of the drawings]
FIG. 1 is a configuration diagram illustrating an example of an elevator remote monitoring system.
FIG. 2 is a timing chart showing a flow of a signal for rewriting a remote program of the elevator remote monitoring system according to the first embodiment of the present invention.
FIG. 3 is a flowchart showing an operation flow of a remote monitoring device in an elevator remote monitoring system according to a second embodiment of the present invention.
[Explanation of symbols]
1 center equipment, 2 switchboard, 3 elevator control panel, 4 elevator control panel interface circuit, 5 switchboard interface circuit, 6 control circuit, 7 remote monitoring device.

Claims (2)

An elevator monitoring system that includes an elevator control panel that controls an elevator to be monitored and a remote monitoring device that relays communication between the elevator control panel and a center device installed at a remote location,
The elevator control panel,
A control unit for controlling the elevator;
An abnormality detector that detects an abnormality of the elevator and sends the abnormality information to the remote monitoring device;
A program rewriting unit that rewrites and executes its own program from the center device via the remote monitoring device,
The remote monitoring device,
When the abnormality information is received from the elevator control panel, an abnormality information relay unit to be sent to the center device,
From the center device, when receiving the program to rewrite the program of the elevator control panel, comprising a rewriting program relay unit to send to the elevator control panel,
Before the elevator control panel rewrites a program, the elevator control panel sends a stop instruction signal to the remote monitoring device to stop an operation for detecting a transmission abnormality between the elevator control panel and the remote monitoring device. And transmitting a start instruction signal to the remote monitoring device to start the operation for detecting a transmission abnormality after the rewriting of the program is completed. The remote monitoring device,
The time measurement is started from the time when the stop instruction signal is received from the elevator, and when the start instruction signal is not received within a predetermined time, the operation for detecting a transmission abnormality is started. The elevator remote monitoring system according to claim 1.

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