KR20060059875A - Remote supervisory control system for elevating machine - Google Patents

Abstract

A lifting machine (1) is monitored and controlled at a remote monitor center (2) through a general public line (3). The general public line (3) has plural kinds of line networks including a high-speed digital line network (32) for transmitting a large amount of information from the lifting machine to the center and including a low communication cost public line network (31) for transmitting a control command from the center to the lifting machine. For the large amount of information, line network selection means (14) selects the high-speed digital line network (32), and for the control command, the means (14) selects the low communication cost public line network (31), and then the means (14) causes transmission. For each line network, security means (15) encrypts information to be transmitted or restores the encrypted information, and a specific code added to the control command on the center side is verified and authenticated.

Description

REMOTE SUPERVISORY CONTROL SYSTEM FOR ELEVATING MACHINE}

The present invention relates to a remote monitoring control system of an elevator.

Conventionally, a plurality of elevators and remote monitoring centers installed at a location apart from each other are connected via a public air line to monitor the status and failure information of elevators and escalators installed in a specific area in a collective manner, and if necessary, The remote monitoring control system which performs control with respect to is implemented and is being operated. In addition, with the recent increase in the speed and capacity of general public lines, high-speed digital line networks for realizing the Internet, etc., in addition to conventional analog lines, have been widely maintained, and image and audio information can be rapidly It is now possible to transfer in real time. On the other hand, since an unspecified number of people can access on an open network such as the Internet, there is an increasing need to consider security functions for information.

Under such circumstances, several proposals have been made to the remote supervisory control system of an elevator so far. For example, Japanese Unexamined Patent Application Publication No. 6-156907 proposes to connect a control device, a car camera and an interphone with a remote monitoring device via a high-speed digital communication line, and simultaneously transmit control signals, audio signals, and image signals. . For this reason, it is possible to transmit a large amount of information such as an image and a voice at high speed. In Japanese Patent Laid-Open No. 2003-89481, the telephone number of the service information center is stored in the terminal device on the elevator side, and when a call is made, it is determined whether or not it is a predetermined telephone number, and only when it matches, it is answered. . As a result, it is possible to prevent malicious mischief and disturbing operation by a third party.

However, since the conventional remote monitoring control system of an elevator is configured as described above, for example, a general high-speed digital line is used, a general third party can also access the control information for the elevator. have. Moreover, in the combination of only a telephone number, if a general third party knows the telephone number of a service information center, it may become accessible and may perform illegal operation with respect to an elevator.

In the present invention, the elevator status information, image information, and audio information can communicate at high speed and large capacity using a general high speed digital line network, while a control code for a lift is determined in advance using a normal line. In combination with the present invention, an object of the present invention is to realize a remote supervisory control system for an elevator that communicates with high security.

In order to achieve the above object, the present invention provides a remote supervisory control system for an elevator that monitors and controls at least one elevator at a remote monitoring center via a general public line, wherein the general public line has a large capacity from each elevator to the remote monitoring center. Each of the elevators and the network having a plurality of types of circuit networks including a high speed digital circuit network for transmitting information and a public network of low communication cost for transmitting a control command for controlling the elevators from the remote monitoring center. The remote monitoring center selects and transmits the required circuit network according to the information transmitted from a plurality of types of circuit networks, respectively. If the information to be transmitted is large-capacity information, the high-speed digital circuit network is used. Circuit that selects and transmits Selecting means, storage means for storing a specific code unique to the own elevator set in advance in each of the elevators, database means for storing the specific code of each elevator in the remote monitoring center, the elevators, and The remote monitoring center encrypts or decrypts the information transmitted for each of the plurality of types of circuit networks, and adds the specific code to the control command to each of the elevators in the remote monitoring center. And a security means for performing combined authentication between a specific code added to a control command from the remote monitoring center and a specific code stored on the elevator side.

BRIEF DESCRIPTION OF THE DRAWINGS The block diagram which shows the structure of the remote monitoring control system of the elevator by one Embodiment of this invention.

FIG. 2 is a diagram illustrating types of information to be transmitted in the remote monitoring control system of FIG. 1. FIG.

3 is a schematic flowchart for explaining an operation in a remote monitoring center in the remote monitoring control system of FIG.

FIG. 4 is a schematic flowchart for explaining the operation of the elevator in the remote monitoring control system of FIG.

EMBODIMENT OF THE INVENTION Hereinafter, embodiment of this invention is described with reference to drawings.

Embodiment 1

1 is a block diagram showing the configuration of a remote monitoring control system for an elevator according to an embodiment of the present invention. The elevator 1 which consists of an elevator, an escalator, etc. is connected via the general public line 3 and the remote monitoring center 2 which collectively monitors one or several elevators 1 installed in a specific area. The general public line 3 is a low-cost public line network 31 composed of a conventional analog line, an Integrated Services Digital Network (ISDN), or the like. It consists of a plurality of circuit networks, including a high-speed digital circuit network 32 based on a virtual private network (VPN) or an asymmetric digital subscriber line (ADSL) for general home use.

The elevator 1 includes a control device 11 for controlling the elevator, an air line interface means 12a of low communication cost for connecting the elevator to the public line network 31 of low communication cost of the general public line 3, and the elevator Selects an optimal circuit network from among the plurality of circuit networks (including (31, 32)) and the plurality of circuit networks (including 31 and 32) for connecting to the high speed digital circuit network 32 of the general public circuit 3 When the information is transmitted between the circuit network selecting means 14a for transmitting the information between the center 2 and the remote monitoring center 2, the information is encrypted / decrypted for each circuit network (encryption / decryption unit). (15ab)) In particular, in addition to the information regarding the control command of the elevator, a specific code is additionally added to the information to perform combined authentication (encryption / decryption, combined authentication unit 15aa) to have a security function in information transmission. Is a security unit (15a), a storage unit (memory means) 16 which stores unique specific codes assigned to each elevator, a camera 17 for acquiring image information installed in a machine room or elevator in an elevator, and an elevator compartment. An interphone 18 for obtaining the installed voice information and a network 19 for connecting them are provided.

In addition, the remote monitoring center 2 includes a database 22 in which specific codes set in advance for each elevator 1 are stored, monitoring control means 23 for remotely monitoring and controlling each elevator, and the plurality of circuit networks (31, Network network selecting means 14b which selects an optimal circuit network to transfer information between the elevators, and encrypts / decrypts information for each circuit network when transferring the information between the elevators. Information is transmitted to the mobile terminal (encryption / decryption unit 15bb), or in particular, for information on the control command of the elevator, the combination authentication is performed by adding a specific code to the information (encryption / decryption, combination authentication unit 15ba). Low communication cost air for connecting the server 21 comprising the security means 15b and the remote monitoring center 2 having the security function to the public line network 31 of low communication cost of the general public line 3. time High speed digital line interface means 13b for connecting the interface means 12b, the remote monitoring center 2 to the high speed digital line network 32 of the general public line 3, a universal terminal 24 made of a general purpose PC, and A dedicated network 25 for connecting the server 21 and the general purpose terminal 24 is provided.

2 shows types of information transmitted in each line network. As described above, the general public line 3 is physically one wire, but there are a plurality of types of communication networks which communicate using this. Here, an optimal circuit network is allocated among a plurality of circuit networks which exist according to the degree of security of the information to be transmitted. For example, failure information, image information, and audio information from an elevator have a large amount of data transmission, but the security function is not so important. Therefore, it is preferable to transmit using a high speed, large capacity high speed digital circuit network 32 using a VPN or ADSL. On the other hand, the data transmission amount is small for the control command from the remote monitoring center, but when accessed from a third party, it becomes a big problem, so the security function is important. Therefore, a circuit network in which a security function of an encryption means and an authentication means is added to a public circuit network 31 having low communication cost such as an analog line or an ISDN having low communication cost is suitable. The optimal circuit network according to the information to be transmitted is selected by the circuit network selecting means 14a and 14b.

Next, the operation will be described. FIG. 3 shows a schematic flowchart showing the operation at the time of transmitting information in the remote monitoring center 2. In the case of transmitting information from the monitoring control means 23 of the remote monitoring center 2 to the elevator 1, the circuit network selecting means 14b is used in the general public line 3 in accordance with the type of information to be transmitted. When the selection is made (step S301), in particular, when the information to be transmitted is a control command to the elevator 1 (step S303), the low-communication line network 31 of low communication cost added with the encryption function and the combined authentication function is selected. If the other type of information is selected, a predetermined line network is selected. In particular, for high-capacity information such as video and audio, the high-speed digital line network 32 is selected. If it is a control command, the specific code assigned to the elevator of the transmission destination stored in the database 22 by the encryption / decryption of the security means 15b and the combined authentication unit 15ba is added to the control command (step S305), Further encryption is performed for the selected network (step S307). If the information is any other type of information, only encryption for the network selected by the encryption / decryption, combined authentication unit 15ba, or encryption / decryption unit 15bb is performed (step S309). The encryption / decryption unit 15bb does not determine whether or not it is a control command. Then, the low-cost communication line interface means 12b or the high-speed digital line interface means 13b transmits the information to the elevator 1 by the low-cost communication line network 31 or the high-speed digital line network 32, respectively. Transmit (step S311).

4, the schematic flowchart which shows the operation | movement at the time of information transmission in the elevator 1 is shown. Information from the supervisory control means 23 of the information remote monitoring center 2 transmitted by the public line network 31 and the high-speed digital circuit network 32 of low communication cost; Received by the elevator 1 via the high speed digital line interface means 13a, respectively. The encryption / decryption and combination authentication unit 15aa of the security means 15a determines whether the received information is a control command to the elevator 1 (step S401). If it is not a control command, only decoding for each network is performed (step S403), and information is transmitted to the control device 11 for repair (step S405). The encryption / decryption unit 15ab does not judge whether or not it is a control command that performs only this decryption. On the other hand, in step S401, if it is a control command, after the decoding (step S407) is performed for the public line network 31 of low communication cost, the specific code added to the control command and the specific part stored in the storage unit 16 are stored. When the combination authentication with the code is performed (step S409), and the combination authentication is established with both specific codes coinciding (0K), the control command is allowed as normal (step S411), and the control device 11 gives a control command. Control of the elevator is performed based on (step S413). On the other hand, in step S409, if the combination authentication is not established because both specific codes are inconsistent (NG), control based on this control command is prohibited (step S415).

In addition, the control results in each elevator 1 are transmitted to the remote monitoring center 2 via the general public line 3 (step S417). At this time, the control results include failure information, image information, audio information, etc. of the elevator. In the case of a large amount of information, the line network selecting means 14a of the elevator 1 selects the high speed digital line network 32 to transfer the information. Also, in the line network selecting means 14b of the remote monitoring center 2, when the information to be transmitted is a large amount of information such as image information and audio information, the high speed digital line network 32 is selected.

In addition, in the case of transmitting important information from each elevator 1 to the remote monitoring center 2, a low-communication line network 31 having a low communication cost with the encryption function and the combined authentication function in the same manner as the control command is provided. The information may be transmitted via the above information. In that case, the information may be transmitted between the remote monitoring center 2 and the elevator 1 in such a manner that the transmission order and the reception order are changed.

In addition, the specific code may be set at the time of shipment of the elevator 1, or may be set after the maintenance contract is concluded. In addition, the content of the specific code is preferably made of a MAC (Media Access Control) address, an IP (Internet Protocol) address, a unique access number, and the like for each elevator 1 that is not known to third parties.

According to the present invention, since the optimum communication line network is selected and communicated according to the degree of security of the information to be transmitted, it is possible to reduce the communication cost and to build a system with high security function. It is expected to be applied to the field.

Claims (3)

A remote supervisory control system for an elevator that monitors and controls at least one elevator at a remote monitoring center via a public air line, A high-speed digital circuit network for transmitting a large amount of information from each elevator to a remote monitoring center, and a public communication network of low communication cost for transmitting control commands for controlling each elevator from the remote monitoring center. With plural kinds of line networks to include, In each of the elevators and the remote monitoring centers, each of the elevators and the remote monitoring center selects and transmits a required circuit network according to information transmitted from a plurality of types of circuit networks, and if the information to be transmitted is large-capacity information, the high-speed digital circuit network; A circuit network selecting means for selecting and transmitting a public network of cost; Storage means for storing a specific code unique to the own elevator set in advance in each of the elevators; Database means for storing said specific code of each elevator in said remote monitoring center; The elevator and the remote monitoring center encrypt or decode the information transmitted for each of the plurality of types of circuit networks, and add the specific code to the control command to each elevator in the remote monitoring center, And security means for performing combination authentication of a specific code added to a control command from the remote monitoring center and a specific code stored on the elevator side in each of the elevators. The method of claim 1, And the large-capacity information from each elevator to the remote monitoring center includes at least one of status information, image information, and audio information. The method according to claim 1 or 2, And said high-speed digital circuitry network is comprised of VPN or ADSL, and said public communications network of low communication cost is comprised of ISDN or analog line.

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