JP2008105840A - Elevator remote monitoring system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an elevator remote monitoring system capable of sending information about an elevator to be monitored in a good radio wave state, even if a plurality of remote monitoring devices which can communicate with a PHS station in a good radio wave state is arranged. <P>SOLUTION: In the elevator remote monitoring system, a circuit is established between remote monitoring devices incidentally disposed to a plurality of elevators and a monitoring center disposed in a remote plate from the elevators by using PHS network. Therefore, information of the plurality of the elevators is transmitted/received, and the breakdown of the elevators is remotely monitored in the monitoring center. The remote monitoring devices are connected by communication, and while the circuit is established between another remote monitoring device and the monitoring center, the remote monitoring devices except for another remote monitoring device does not establish a circuit with the PHS network. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to an elevator remote monitoring system for monitoring an elevator from a remote location.

  In a conventional elevator remote monitoring system, a remote monitoring device that monitors an elevator as a monitoring target and a remote monitoring device are provided apart from each other, and the elevator is remotely controlled based on information from the remote monitoring device via a telephone line. An adapter for providing a monitoring center for monitoring, converting information from a remote monitoring device connected to the elevator control panel into a digital signal format transmitted by a PHS (Personal Handy Phone System) network, and transmitting as an assumed voice mode during communication; A PHS terminal connected to the adapter, and a PHS base station connected to the monitoring center via an analog telephone line and communicating with the PHS terminal via the PHS network (for example, see Patent Document 1) .

Japanese Patent Laid-Open No. 2002-20049

However, when a general PHS terminal or other remote monitoring device establishes a line with the PHS base station, an “outgoing request” is transmitted from the elevator control panel, and the PHS terminal communication unit of the remote monitoring device is the most Even if an attempt is made to establish a line with a PHS base station having a good radio wave condition, if the PHS base station is not available for communication with a general PHS terminal or other remote monitoring device, the PHS base station and the PHS base station A line cannot be established with the remote monitoring apparatus, and the remote monitoring apparatus is established with a PHS base station having another poor radio wave condition.
In addition, when only the PHS base station having a very poor radio wave condition is available, a line may not be established with the PHS network.

  In addition, although a line between the remote monitoring device and the PHS base station is established and communication is possible, the communication speed may be a low speed connection (for example, 32 kbps) instead of a high speed connection (for example, 64 kbps). This is because the mechanism of increasing the number of PHS terminals that can be connected (for example, increasing from two to four) instead of decreasing the communication speed of the PHS terminals connected to the PHS base station (for example, decreasing from 64 kbps to 32 kbps). The station is equipped.

  For example, if multiple elevators are placed in one building, the building fails for some reason, and the elevator stops, all elevators will “call out” to the remote monitoring device, and all remote monitoring devices will Even if you try to establish a line with a good PHS base station, a line with a PHS base station with a poor radio wave condition is established, a line with a PHS base station is not established, or the communication speed is low. There is a problem of becoming.

  An object of the present invention is to provide an elevator remote monitoring system capable of sending information on an elevator to be monitored in a good radio wave condition even when a plurality of remote monitoring devices capable of communicating with a PHS base station having a good radio wave condition are arranged. Is to provide.

  The elevator remote monitoring system according to the present invention establishes a line using a PHS network between a remote monitoring device disposed in association with each of a plurality of elevators and a monitoring center disposed remotely from the elevator. In the elevator remote monitoring system that transmits and receives information of the plurality of elevators and remotely monitors the elevator for failure at the monitoring center, the remote monitoring devices are connected by communication, and the other remote monitoring devices are While the line is established with the monitoring center, remote monitoring apparatuses other than the other remote monitoring apparatuses do not establish a line with the PHS network.

  The effect of the elevator remote monitoring system according to the present invention is that when there is a remote monitoring device that has established a line with the PHS network via a PHS base station having good radio wave conditions, the remote monitoring device other than the remote monitoring device is connected to the PHS network. No connection request is made and no connection is made to the PHS base station with a poor radio wave condition, so that communication in an environment with a poor radio wave condition can be prevented.

Embodiment 1 FIG.
FIG. 1 is a block diagram showing a configuration of an elevator remote monitoring system according to Embodiment 1 of the present invention.
The elevator remote monitoring system according to the first embodiment of the present invention is a system that monitors the operation status of three elevators 1a to 1c installed in three neighboring buildings (not shown) in a remotely arranged monitoring center 9. Information is transmitted and received between the elevators 1 a to 1 c and the monitoring center 9 using the PHS network 8. At this time, the PHS base station 7a installed in the vicinity of these buildings has a good radio wave condition with respect to these elevators 1a to 1c, and the elevators 1a to 1c have a free line on the PHS base station 7a. Is established with the PHS base station 7a. The PHS network 8 is provided with PHS base stations 7b and 7c that can be connected to the elevators 1a to 1c although the radio wave condition is poor. The PHS base stations 7 a to 7 c are also accessed from the general PHS terminal 10. In addition, the number of buildings, elevators, and PHS base stations is an example for explanation, and is not limited thereto.

The elevator remote monitoring system according to Embodiment 1 of the present invention includes elevator control panels 2a to 2c of elevators 1a to 1, remote monitoring devices 3a to 3c arranged corresponding to the elevators 1a to 1c, and PHS base stations. 7a, PHS network 8, and monitoring center 9.
Each of the elevator control panels 2a to 2c transmits a "call request" when the monitored elevators 1a to 1c break down, and transmits a "disconnect request" when information exchange with the monitoring center 9 is completed. To do.

Each of the remote monitoring devices 3a to 3c establishes a line with the monitoring center 9 when receiving a “call request”, and disconnects the line with the monitoring center 9 when receiving a “disconnection request”.
Next, the remote monitoring devices 3a to 3c will be described in detail. Since the remote monitoring devices 3a to 3c are the same, the remote monitoring device 3a will be described, and the description of the other remote monitoring devices 3b and 3c will be omitted. .
The remote monitoring device 3a includes an elevator communication interface circuit (elevator communication I / F) 4a connected to the elevator control panel 2a, a transmission / reception control unit 5a connected to the elevator communication interface circuit 4a, and a PHS connected to the transmission / reception control unit 5a. A terminal communication unit 6a and a remote monitoring device communication interface circuit (remote monitoring device communication I / F) 11a connected to the transmission / reception control unit 5a are provided.

The elevator communication interface circuit 4a receives a signal from the elevator control panel 2a and transmits it to the transmission / reception control unit 5a, and conversely transmits a signal from the transmission / reception control unit 5a to the elevator control panel 2a.
When the transmission / reception control unit 5a receives a "call request" from the elevator control panel 2a, the transmission / reception control unit 5a connects the other remote monitoring devices 3b and 3c connected by the communication line 12 via the remote monitoring device communication interface circuit 11a. The transmission / reception control units 5b and 5c are checked whether the remote monitoring devices 3b and 3c are communicating. When it is confirmed that the other remote monitoring devices 3b and 3c are communicating, it is confirmed whether or not communication is being performed at a predetermined cycle. When it is confirmed that the other remote monitoring devices 3b and 3c are not communicating, the PHS terminal communication unit 6a is operated to establish a line between the PHS terminal communication unit 6a and the PHS base station 7a.

  Further, when receiving the “disconnection request” from the elevator control panel 2a, the transmission / reception control unit 5a stops the PHS terminal communication unit 6a and disconnects the line between the PHS terminal communication unit 6a and the PHS base station 7a. . By disconnecting the line between the PHS terminal communication unit 6a and the PHS base station 7a, the line with the monitoring center 9 via the PHS network 8 is disconnected.

  The inter-remote monitoring apparatus communication interface circuit 11a enables communication with other remote monitoring apparatuses 3b and 3c connected to the communication line 12.

FIG. 2 is a flowchart showing a line control routine in which the remote monitoring device 3a according to the first embodiment controls a line in order to transmit information about the failure from the elevator control panel 2a to the monitoring center 9 when the elevator 1a fails. .
Next, the procedure of a line control routine for transmitting information related to the failure from the elevator control panel 2a to the monitoring center 9 when the elevator 1a fails will be described with reference to FIG. This line control routine is started periodically.
In step S1, the transmission / reception control unit 5a determines whether or not a “call request” is received from the elevator control panel 2a. When the “call request” is received, the process proceeds to step S2, and no “call request” is received. When the line control routine ends.
In step S2, the transmission / reception control unit 5a confirms whether or not the other remote monitoring devices 3b and 3c are communicating, repeats step S2 when confirming that communication is in progress, and proceeds to step S3 when confirming that communication is not being performed. For example, if the remote monitoring device 3b is communicating with the monitoring center 9, the transmission / reception control unit 5a periodically checks whether the remote monitoring device 3b is communicating with the remote monitoring device 3b.
In step S3, the transmission / reception control unit 5a establishes a line between the elevator control panel 2a and the monitoring center 9, and proceeds to step S4. As described above, when a line is established between the elevator control panel 2a and the monitoring center 9, information related to the failure is transmitted and received between the elevator control panel 2a and the monitoring center 9.
In step S4, the transmission / reception control unit 5a determines whether or not a “cut request” has been received from the elevator control panel 2a. When the “cut request” is received, the process proceeds to step S5, and no “cut request” has been received. Step S4 is repeated.
In step S5, the transmission / reception control unit 5a disconnects the line between the elevator control panel 2a and the monitoring center 9, and ends the line control routine.

Thus, for example, when there is a remote monitoring device 3b whose line is established with the PHS network 8 via the PHS base station 7a having a good radio wave condition, the remote monitoring devices 3a and 3c other than the remote monitoring device 3b are connected to the PHS network 8b. Since no connection request is made to the network 8 and the PHS base stations 7b and 7c with poor radio wave conditions are not connected, communication in an environment with poor radio wave conditions can be prevented.
In addition, when a number of elevators break down at the same time, the monitoring center 9 can sequentially collect information related to the failure via the PHS base station 7a having a good radio wave condition, so that the overall failure status can be quickly grasped.

Embodiment 2. FIG.
The elevator remote monitoring system according to the second embodiment of the present invention is different from the elevator remote monitoring system according to the first embodiment except that the remote monitoring apparatus is the same. Is omitted.
The remote monitoring apparatus according to the second embodiment is different from the remote monitoring apparatuses 3a to 3c according to the first embodiment except for the transmission / reception control unit, and the other parts are the same. To do.

  When the transmission / reception control unit according to the second embodiment receives a “call request” from the elevator control panel 2a, the remote monitoring unit is connected to another remote monitoring device via the communication line 12 via the remote monitoring device communication interface circuit 11a. The transmission / reception control units 5b and 5c of the devices 3b and 3c are checked whether the remote monitoring devices 3b and 3c are communicating. When it is confirmed that the other remote monitoring devices 3b and 3c are communicating, it is confirmed whether or not the communication speed is high (for example, 64 kbps). When the communication speed is not high but low (for example, 32 kbps), it is confirmed whether or not communication is being performed at a predetermined cycle. On the other hand, when the other remote monitoring devices 3b and 3c are not communicating or when it is confirmed that the communication speed is high even when the other remote monitoring devices 3b and 3c are communicating, the PHS terminal communication unit 6a is operated. The line between the PHS terminal communication unit 6a and the PHS base station 7a is established.

FIG. 3 is a flowchart showing a line control routine in which the remote monitoring apparatus according to the second embodiment controls a line in order to transmit information about the failure from the elevator control panel 2a to the monitoring center 9 when the elevator 1a fails.
Next, a procedure for transmitting information related to the failure to the monitoring center 9 when the elevator 1a fails will be described with reference to FIG. This line control routine is started periodically.
In step S11, the transmission / reception control unit determines whether or not a “call request” is received from the elevator control panel 2a. When the “call request” is received, the process proceeds to step S2, and when the “call request” is not received. The line control routine ends.
In step S12, the transmission / reception control unit checks whether or not the other remote monitoring devices 3b and 3c are communicating, and proceeds to step S13 when confirming that communication is in progress, and proceeds to step S14 when confirming that communication is not being performed.
In step S13, the transmission / reception control unit checks whether or not the communication speed of the remote monitoring devices 3b and 3c in communication is high. When the communication speed is confirmed to be high, the process proceeds to step S14 and confirms that the communication speed is not high. Return to step S12.
In step S14, the transmission / reception control unit establishes a line between the elevator control panel 2a and the monitoring center 9, and proceeds to step S15. As described above, when a line is established between the elevator control panel 2a and the monitoring center 9, information related to the failure is transmitted and received between the elevator control panel 2a and the monitoring center 9.
In step S15, the transmission / reception control unit determines whether or not a “cut request” has been received from the elevator control panel 2a. When a “cut request” is received, the process proceeds to step S16, and when a “cut request” has not been received. Step S15 is repeated.
In step S16, the transmission / reception control unit disconnects the line between the elevator control panel 2a and the monitoring center 9, and ends the line control routine.

The remote monitoring apparatus according to the second embodiment communicates with the PHS base station 7a having a good radio wave condition at a low speed when another remote monitoring apparatus is communicating with the PHS base station 7a having a good radio wave condition at a high speed. Therefore, it is possible to eliminate the standby of a remote monitoring device that requires a new line connection.
Further, when other remote monitoring devices are communicating with the PHS base station 7a with good radio wave condition at a low speed, the communication waits until the communication is completed, so the communication speed at the PHS base station 7a can be further reduced. And stable communication can be performed.

It is a block diagram which shows the structure of the elevator remote monitoring system concerning Embodiment 1 of this invention. 6 is a flowchart showing a line control routine in which the remote monitoring apparatus according to the first embodiment controls a line in order to transmit information about the failure from the elevator control panel to the monitoring center when the elevator breaks down. 7 is a flowchart showing a line control routine in which the remote monitoring apparatus according to the second embodiment controls a line in order to transmit information about the failure from the elevator control panel to the monitoring center when the elevator breaks down.

Explanation of symbols

  1a to 1c elevator, 2a to 2c elevator control panel, 3a to 3c remote monitoring device, 4a to 4c elevator communication interface circuit (elevator communication I / F), 5a to 5c transmission / reception control unit, 6a to 6c PHS terminal communication unit, 7a ˜7c PHS base station, 8 PHS network, 9 monitoring center, 10 general PHS terminal, 11a to 11a communication interface circuit between remote monitoring devices (remote monitoring device communication I / F), 12 communication line.

Claims (2)

A line is established using a PHS network between a remote monitoring device that is attached to each of the elevators and a monitoring center that is remotely located with respect to the elevator, and information on the plurality of elevators is transmitted and received. In the elevator remote monitoring system for remotely monitoring the elevator failure at the monitoring center,
While the remote monitoring devices are connected by communication, and other remote monitoring devices establish a line with the monitoring center, remote monitoring devices other than the other remote monitoring devices are connected to the PHS network. Elevator remote monitoring system, characterized in that no line is established. A line is established using a PHS network between a remote monitoring device that is attached to each of the elevators and a monitoring center that is remotely located with respect to the elevator, and information on the plurality of elevators is transmitted and received. In the elevator remote monitoring system for remotely monitoring the elevator failure at the monitoring center,
When the remote monitoring devices are connected by communication, and the other remote monitoring devices establish a line with the monitoring center and are communicating at a high communication speed, other than the other remote monitoring devices The remote monitoring device establishes a line with the PHS network, and when the other remote monitoring device establishes a line with the monitoring center and is communicating at a low communication speed, the other remote monitoring device An elevator remote monitoring system characterized in that a remote monitoring device other than the monitoring device does not establish a line with the PHS network.

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