JP5534973B2 - Elevator remote monitoring system - Google Patents

Description

  Embodiments of the present invention relate to an elevator remote monitoring system for efficiently performing fire fighting / rescue activities during a fire.

  Normally, the flow from the occurrence of a fire in the building to the rescue operation of the fire department headquarters causes a fire through the wiring in the building from the fire alarm to the fire management device installed in the control room when the fire alarm is activated. The signal of the occurrence is transmitted, and the resident or the manager who senses the sound and light emitted by the fire management device becomes a reporter and makes a relief request to the firefighting headquarters by telephone. Upon receiving the request, the firefighting headquarters gathers information from the reporter about the location and scale of the fire, the possibility that some people have escaped, the presence or absence of injuries, etc., examines the rescue policy, and prepares and dispatches the necessary vehicles and equipment. The number of firefighters to be decided.

  On the other hand, among elevator maintenance management companies commissioned by building management companies to perform elevator maintenance management, there are companies that operate an elevator remote monitoring system as one of the maintenance management services. The elevator remote monitoring system connects the remote communication control device connected to the elevator control panel in the building and the remote monitoring base via a public line or dedicated line, and the elevator operates in the event of an earthquake or fire. It is a system that detects information such as the fact that it has been implemented and the occurrence of an elevator failure and automatically issues it to a remote monitoring base. Elevator maintenance management companies are stationed at remote monitoring bases 24 hours a day, and abnormal situations such as elevator users being trapped in buildings where no managers are stationed at night or in buildings. However, it is possible to take an appropriate response such as an elevator user and a supervisor who make a call via a call device in the elevator car and urgently dispatch a service person. Recently, services that store images recorded by sending images taken by cameras installed in elevator cars to remote monitoring bases and data centers, and elevator user rampages and crimes by processing camera images A service for detecting injured persons, sick persons, etc., who have become unable to move, and notifying the monitoring staff at a remote monitoring base has also been put into practical use.

  Patent Document 1 discloses a system that uses an elevator remote monitoring system to notify an authority such as a fire department headquarters when a supervisor of an elevator maintenance management company confirms an abnormality. In this system, first, a supervisor of an elevator maintenance management company needs to confirm an abnormality such as a fire.

  A supervisor at the elevator remote monitoring base can guess that the building has fired by receiving a signal indicating that the elevator has started fire control operation, and also receive images of cameras installed in the elevator car or in the hall It is possible to confirm the occurrence of a fire by doing this, and there is an opportunity to obtain a lot of information about the disaster situation, such as being able to talk with the people in the elevator car with a telephone device, Therefore, there is a problem that it is not possible to give appropriate evacuation instructions to residents.

  On the other hand, firefighters at the firefighting headquarters who can make appropriate judgments and evacuation instructions at the time of a fire can obtain information on the fire situation at the site only by verbal explanation of the whistleblower, as described above. There may be a difference in recognition between the whistleblower and the fire department headquarters.

  In addition, people in the building should act systematically with the guidance of the building manager, but the building manager cannot always properly grasp information such as the fire location, safe evacuation route, dispatch / activities of the fire department headquarters, etc. Often, it can cause panic during evacuation. First, if an elevator maintenance management company's observers need to confirm an abnormality such as a fire, there is a possibility that the judgment on whether or not to report to the authorities may be delayed. The authorities also had a problem that they could not give proper evacuation instructions because they could not talk directly with the building managers or residents.

JP 2006-89256 A

  The present invention has been made in view of the above-described problems, and provides an elevator remote monitoring system that quickly and accurately communicates the occurrence of a fire and the scene situation to a person who conducts fire fighting / rescue. With the goal.

An elevator remote monitoring system according to an embodiment of the present invention is installed in an elevator installed in a building, an elevator control device that controls operation of the elevator, and a fire engine that has jurisdiction over the location of the building. A first emergency operation instruction device for transmitting an elevator operation instruction to a device, and a command vehicle on which a command team in charge of firefighting activities of the building is mounted; a second emergency operation instructing device, the installation position in the building fire alarm or emergency fire button outputs a fire occurrence signal by the detection of the installed fire in said building in advance of sending the operation instruction of the elevator record, the installation position by the reception of the previous SL fire occurrence signal determined to fire position, the fire alarm signal and fire location A fire management system for outputting the lineage information and setting position of the location Chijo report and before disappeared elevators of the building previously recorded, obtain Bei the connected telecommunication control device to the fire management system and the elevator control .

Remote communication control device, when receiving a fire alarm signal to the first from the fire management system, at least, before Symbol first emergency operation instructing device, at least fire alarm detection signal and Bill whereabouts Chijo paper before Symbol transmits the fire information including system integration information, after the mobilization system for determining a command personnel and before Symbol finger揮車designated from the fire engine is equipped with contact of a fire occurs, at least, the second emergency during operation is switched to the instruction device, least transmits the fire status information including the pre-SL system integrates information before Symbol fire occurrence position information, the first emergency operation instruction device or the second emergency operation instruction from the device, when receiving the operation instruction of the elevator relative to the elevator control unit transmits the operation instruction received in the elevator controller.

It is a block diagram for demonstrating the structure of one Embodiment. It is an example of the transmission data at the time of elevator abnormality in one embodiment. It is an example of the data which shows the installation position information of the fire alarm or emergency fire button in one Embodiment. It is an example of elevator operation instruction data. 5 is an example of an elevator operation instruction code included in the elevator operation instruction data shown in FIG. 4.

  Hereinafter, an exemplary embodiment of the present invention will be described as appropriate with reference to the drawings. FIG. 1 is a block diagram for explaining the configuration of an embodiment. This diagram shows the functional elements related to the present embodiment and their relations, and does not show the physical arrangement or physical configuration of the constituent elements. The remote communication control device 1 is installed in a disaster prevention center or elevator machine room in a building. For example, the remote communication control device 1 can be remotely connected via a public line such as a telephone line, ISDN line, or ADSL line, a wireless line, or a dedicated line used by an elevator maintenance management company. A device that controls the transmission and reception of data between the remote monitoring bases of elevator maintenance management companies on the ground, the firefighting headquarters that supervises the location of the building or the command vehicle of the firefighting, and each device and equipment such as elevators in the building is there. The remote communication control device 1 is usually implemented by a so-called embedded system including hardware resources such as a magnetic storage device such as a microcomputer, RAM, ROM, memory card, or hard disk, and software necessary for data transmission / reception control. The The remote communication control device 1 can also be implemented by hardware. In the recording medium such as ROM, memory card, and hard disk provided in the remote communication control device 1, for example, the number of floors of the building in which the elevator is installed, information on fire resistance of the building, system information of the elevator, for example, Floor plan information including the location of emergency staircases on each floor represented by image data such as TIFF, JPEG, or bitmap, types of devices / equipment in the building and information on their locations, remote monitoring bases, etc. Communication destination information such as a telephone number and a communication address is recorded in advance. Here, in the elevator system information, for example, Units 1 to 3 can be landed on the first floor to the 12th floor, and Units 4 to 6 have the first floor, the first floor, and the ground. Information such as being able to land on each floor from the 12th floor to the 24th floor above the ground but not landing on the second floor above the 11th floor is included. In another embodiment, the remote communication control device 1 has a function as a Web server, particularly an application server, and processes data in response to a data request from a remote monitoring base using a hypertext transfer protocol (HTTP). A function to reply is provided.

  The fire management device 2 is installed in a disaster prevention center in a building, for example, and receives and controls fire alarms transmitted from a plurality of fire alarms 10 and emergency fire buttons 11 installed in the building. Identification numbers and installation locations of the fire alarm 10 and the emergency fire button 11 are recorded in advance on a recording medium such as a memory card incorporated in the fire management device 2. Each fire alarm 10 and emergency fire button 11 have a unique identification number, and when a fire is detected, a fire alarm and an individual identification number are combined and sent to the fire management device 2. When the fire management device 2 receives the fire alarm and the individual identification number, the remote communication control device 1 notifies the fire occurrence position and the fire alarm via the in-building wiring made of a power line, a coaxial cable, a twisted pair wire, an optical fiber or the like. To call.

  The first remote monitoring base 3 is an elevator remote monitoring system service center that is operated by an elevator maintenance management company as one of maintenance management tasks. The elevator remote monitoring system automatically transmits information such as the operation status of control operation performed in the event of an emergency such as an elevator failure or abnormality, an earthquake or a fire (hereinafter referred to as elevator alert information) to a remote service center. , Enabling quick response by maintenance technicians. The first remote monitoring base 3 displays elevator notification information and camera image information in the elevator car transmitted from the remote communication control device 1 installed in each building via a public network or a dedicated line. A computer and a monitor (both not shown) in which software for installing the software is installed are installed. If QoS such as a short delay time is guaranteed, the Internet can be used as a communication line. Also, a call system (not shown) for making a call with the elevator car interphone 8 which is an elevator car call device or the emergency telephone 9 installed in the hall via a public network, a dedicated line or the Internet. ) Is installed.

  The second remote monitoring base 4 is a base of the fire department headquarters having jurisdiction over the location of the building. This usually applies to municipal fire stations. The second remote monitoring base 4 is also provided with the same remote equipment as the first remote monitoring base 3.

  The elevator control panel 5 controls the operation of the elevator by performing motor control and door control of the elevator. When the detection signal is input from the earthquake detector (not shown) or the fire management device 2, the elevator control panel 5 executes control operation control such as earthquake and fire, and remotely starts and ends control operation control. It transmits to the communication control apparatus 1. Further, the operating state of various safety switches (not shown) in the elevator system is monitored, and when an abnormality or failure is detected, the information is transmitted to the remote communication control device 1.

  The elevator car monitoring camera 6 and the hall monitoring camera 7 are imaging devices using a CCD or CMOS sensor or the like, have a recording medium such as a ROM or a memory card, and have unique identification numbers for identifying each monitoring camera. It is recorded. The elevator car monitoring camera 6 is installed, for example, on a side plate or a ceiling in the elevator car, and the hall monitoring camera 7 is installed, for example, on the wall or ceiling of the elevator hall. In these cameras, captured images are converted into Motion JPEG, MPEG4, or H.264. It is converted into a moving image data format such as H.264 and still image data format such as JPEG, and is transmitted to the remote communication control device 1 together with a unique identification number via the in-building wiring.

  The intercom 8 in the elevator car is a call device that is attached to an operation panel in the elevator car, includes a microphone and a speaker, and performs a voice call between the outside of the elevator car and the elevator car. Usually, the base unit of the elevator intercom system is often installed in a place that is easy for the building manager to use, such as a disaster prevention center or a manager room in the building.

  In recent years, however, there are an increasing number of buildings in which building managers are not stationed. Therefore, the elevator intercom system is connected to the service center of the elevator maintenance management company (ie, as shown in FIG. There are an increasing number of systems that can directly communicate with the first remote monitoring base 3). In this embodiment, the normal connection destination of the intercom 8 in the elevator car is the first remote monitoring base 3, and when a fire occurs, the second remote monitoring base 4 and a command vehicle 13 described later are included in the connection destination.

  The emergency telephone 9 is a call device for making a voice call to the outside of the building, including a microphone and a speaker, like the elevator intercom 8 described above. The emergency telephone 9 is installed in the elevator hall and, like the intercom 8 in the elevator car, from the remote communication control device 1 via the public line, wireless line or dedicated line, the first remote monitoring base 3 and the second remote It can be connected to the monitoring base 4 or the command vehicle 13 and can talk directly.

  The fire alarm 10 is attached to, for example, a plurality of ceilings in a building and detects a fire. When equipped with at least one of a smoke sensor and a heat sensor inside, when the sensor is activated, a unique identification number recorded in advance in a recording medium such as a built-in ROM or memory card is fired through a wiring in the building together with a fire alarm. Send to management device 2.

  The emergency fire button 11 is provided with a push button, and is attached to, for example, a plurality of wall surfaces in a building. When the person in the building finds a fire, the fire management device 2 is notified of the fire by pressing the push button. . As with the fire alarm 10, the emergency fire button 11 also has a unique identification number recorded in advance on the built-in recording medium. When the resident presses the push button, a fire alarm is displayed together with the identification number. It sends to the fire management device 2 through the internal wiring.

  The emergency operation instruction device 12 is installed at the second remote monitoring base 4 and the command vehicle 13 and receives information on fire from the remote communication control device 1, and a fire in a remote area occurs due to an input operation of a fireman. The operation instruction signal for the elevator installed in the building is transmitted. The emergency operation instruction device 12 can be implemented by a computer and a display in which software for performing such an operation is installed. The emergency operation instruction device 12 transmits a fire information request signal or an operation instruction signal to the remote communication control device 1 installed in the disaster prevention center in the remote building via a public line, a wireless line or a dedicated line. Upon receipt of these signals, the remote communication control device 1 receives the designated elevator control panel 5, elevator car monitoring camera 6, hall monitoring camera 7, elevator car interphone 8, emergency telephone 9 and the like via the building wiring. An information request signal or an operation instruction signal is transmitted. The device that has received the information request signal returns the requested information to the remote communication control device 1, and the device that has received the operation instruction signal performs the instructed operation. Upon receiving the information corresponding to the information request signal, the remote communication control device 1 transmits the received information to the emergency operation instruction device 12. The elevator control panel 5 that has received the operation instruction signal operates the instructed elevator. Here, the operation instruction signal includes the start and end of control operation in the event of a fire / earthquake, the start and end of evacuation operation to quickly evacuate passengers in the event of an emergency, and firefighters use elevators for fire fighting activities For the start and end of emergency operation, traveling to and landing on designated floors depending on the situation for the rescue of residents, etc., and instructions for traveling to and landing on specific floors specified in advance for buildings There is a signal indicating an instruction to open or close the elevator door. An example of the specific floor is an evacuation floor.

  The command vehicle 13 is a vehicle on which a command team that conducts on-site command of fire fighting activities of a building where a fire has occurred is boarded. The person in charge of the second remote monitoring base 4, that is, the fire department having jurisdiction over the location of the building, promptly designates the commander and the command vehicle 13 when notified of the occurrence of the fire. The command vehicle 13 is equipped with a fire fighting radio communication device that communicates with the second remote monitoring base 4 and an emergency operation instruction device 12 ′ having the same function as the emergency operation instruction device 12 described above.

  Next, an operation example of the embodiment having the configuration shown in FIG. 1 will be described. First, an operation when no fire has occurred, that is, when the fire alarm 10 or the emergency fire button 11 has not issued a fire alarm will be described.

  When the elevator control panel 5 starts a seismic control operation without a fire, or when an elevator failure / abnormality is detected, an elevator abnormality signal is sent from the elevator control panel 5 to the remote communication control device 1. Is output. Receiving the elevator abnormality signal, the remote communication control device 1 collects abnormality information from the memory in the elevator control panel 5 and generates, as an example, elevator abnormality transmission data as shown in FIG. 2 as an application layer data format. Further, the remote communication control device 1 creates a packet by adding packet header information in which the communication address of the transmission destination is set to the first remote monitoring base 3 to the transmission data when the elevator is abnormal, and transmits the packet to the network. In actual operation, it is desirable to encrypt data or use a virtual private line such as VPN in consideration of security. For example, the abnormal transmission data shown in FIG. 2 includes the following information. The unique building number (8 bytes) and elevator number (2 bytes) recorded in advance in the storage medium of the remote communication control device 1 or the elevator control panel 5, the RTC mounted on the elevator control panel 5 or the remote communication control device 1 The date and time information (12 bytes) of the occurrence of the abnormality read from the (real-time clock) is an abnormality code (2 bytes) stored in the memory of the elevator control panel 5 and predetermined according to the type of abnormality. In addition, a plurality of subcodes (2 bytes × n) may be added to the abnormality code depending on the cause of the abnormality. The unique building number is an example of information that uniquely represents the location of the building, and a coded address may be added to the unique building number.

  Motion JPEG, MPEG4, H.264, etc., which are periodically compressed from the surveillance camera 6 in the elevator car every hour, every day, etc. Image data such as moving image data such as H.264 or still image data such as JPEG is transmitted to the remote communication control device 1 together with identification information of the surveillance camera 6 in the elevator car. The remote communication control device 1 that has received the image data transmits the image data and the installation position data of the monitoring camera 6 in HTTP, for example, in the form of a document described in a markup language such as HTML or XML, when the elevator is abnormal Similar to the data, a packet is generated by adding packet header information in which the communication address of the transmission destination is set in the first remote monitoring base 3 to the image data, and the packet is transmitted to the network. When an abnormal state of the elevator passenger is detected by processing the image data of the elevator car monitoring camera 6, a packet is generated by adding the detected abnormal state type and occurrence date / time information to the application layer data. To do.

  When the call button of the intercom 8 installed in the elevator car is pushed by the elevator passenger, a communication link between the intercom 8 in the elevator car and the first remote monitoring base 3 is established. When the call button is pressed, the intercom 8 in the elevator car uses the G. It is digitized by a streaming compression codec such as 711, and is created as, for example, a document described in HTML. Further, application layer data is generated by adding preset identification information, and a packet is generated by adding packet header information in which the communication address of the transmission destination is set to the first remote monitoring base 3, for example, by HTTP And send it to the network. In addition, for the call from the supervisor at the first remote monitoring base 3, the voice collected by the microphone installed at the first remote monitoring base 3 is similarly digitized, and the communication address of the transmission destination is set to the remote communication of the building. The packet header information set in the control device 1 is added to generate a packet and send it to the network.

  Next, the operation when a fire occurs, that is, when the fire alarm 10 or the emergency fire button 11 issues a fire alarm will be described. When the fire alarm 10 detects a fire, or when the emergency fire button 11 is pressed by a person in the building, the fire alarm 10 or the emergency fire button 11 transmits a fire alarm to the fire management device 2 together with each identification information. The fire management device 2 that has received the fire alarm and the identification number regards the fire alarm installation position as the fire occurrence position based on the fire alarm installation position information for each identification number recorded in advance, and the fire occurrence position together with the fire alarm. Information is transmitted to the remote communication control device 1.

  FIG. 3 shows an example of data indicating the installation position information of the fire alarm 10 or the emergency fire button. For each identification number of the fire alarm 10 or emergency fire button 11, the installation position is recorded in (x, y, z) coordinates. These coordinates are determined with one point of the building as the origin. Here, as an example, the position of the disaster prevention center on the first basement floor is the origin. The x coordinate represents the position in the east-west direction, the y coordinate represents the position in the north-south direction, and the z coordinate represents the position in the height direction. As for the xy coordinates, 1m is defined as 1 unit, with north and east being positive numbers and south and west being negative numbers. Regarding the z coordinate, the first floor is defined as one unit with the upper floor from the origin as a positive number and the lower floor as a negative number. For example, in FIG. 3, the fire alarm 10 or the emergency fire button 11 with the identification number 0001 is installed on the first floor 10 m east and 35 m south from the disaster prevention center. ing. The fire management device 2 determines the fire occurrence position based on the fire alarm installation position information and the fire alarm from the activated fire alarm 10 or the emergency fire button 11. Note that the data representing the installation position information of other devices stored in advance in the remote communication control device 1 is also stored in the same format, and thus the description thereof is omitted.

  First, the remote communication control device 1 that has received the fire alarm and the fire occurrence position information represented by the (x, y, z) coordinates from the fire management device 2 first detects the fire alarm detection signal and the building number such as the building number. The second remote monitoring base 4 (in this case, the fire station that has jurisdiction over the location of the building) For the sake of illustration, it is hereinafter referred to as the fire department (4)) and sent to the network. In the event of a fire, the fire occurrence information may be transmitted to the fire station which is the second remote monitoring base 4 and also to the remote monitoring base of the elevator maintenance management company which is the first remote monitoring base 3. By such an operation, it is possible to quickly and accurately transmit the occurrence of the building fire and the place where the fire has occurred to the fire department.

  In another embodiment, the remote communication control device 1 may include information on the number of floors and fire resistance of a building where a fire has occurred in the fire occurrence information and transmit the information to the second remote monitoring base 4. This is because the type and number of vehicles to be dispatched and the number of members depend on the number of floors and fire resistance of the building. However, this shall not apply if the fire department immediately knows the number of floors and fire resistance of the building where the fire occurred from only the location information of the building included in the received fire occurrence information.

  When the emergency operation instruction device 12 installed in the fire department and constantly connected to the network receives the fire occurrence information transmitted from the remote communication control device 1, the person in charge of the fire department 4 examines and determines the dispatch system. At this time, the commander in charge of fire fighting / protection activities at the site and the command vehicle 13 on which the commander is boarded are also designated. When the command vehicle is designated and the dispatching system is in place, the emergency operation instruction device 12 installed in the fire department has at least the emergency operation instruction device 12 mounted on the command vehicle 13 as the transmission destination from the remote communication control device 1. An instruction to include 'is transmitted to the remote communication control device 1. Further, the emergency operation instruction device 12 ′ mounted on the command vehicle 13 or the emergency operation instruction device 12 installed in the fire department transmits the fire status information including the fire occurrence position information in the building and the system information of the elevator. The requested signal is transmitted to the remote communication control device 1 by, for example, HTTP. The transmission of the elevator system information is requested because the emergency operation instruction device 12 ′ mounted on the command vehicle 13 requires the elevator system information.

  The remote communication control device 1 that has received the signal requesting transmission of the fire occurrence position information in the building is a plan view of the fire occurrence floor based on the z coordinate value of the fire occurrence position information from the floor plan recorded in advance. And, based on the xy coordinate values, a mark indicating the fire occurrence position is added to the plan view of the fire occurrence floor to generate a fire occurrence floor drawing. The fire occurrence floor plan including the fire occurrence position information in the building and the system information of the elevator are transmitted, for example, as an HTML document to the emergency operation instruction device 12 ′ mounted at least on the command vehicle 13 by HTTP. As a result, the fire brigade members who lead the site can know the exact location of the fire in the building and appropriate fire fighting activities are possible.

  In another embodiment, as described above, based on the position information of the hall monitoring camera 7 stored in the remote communication control device 1 in the same manner as the position information of the fire alarm 10, the fire occurrence position is set. The nearest hall monitoring camera 7 is specified, and a mark indicating the installation position of the camera is added to the above-mentioned fire occurrence floor plan, for example, an HTML document is created, and the emergency operation instruction device 12 and the emergency operation instruction device 12 '. Further, the moving image or the still image captured by the hall monitoring camera 7 is converted to, for example, an HTML document and transmitted to the emergency operation instruction device 12 and the emergency operation instruction device 12 '. By such operations, firefighters who lead the scene can see the images taken by the surveillance camera that is normally sent to the elevator monitoring base in real time, so that the situation can be quickly understood and appropriate. Firefighting activities are possible.

  In yet another embodiment, when the elevator car intercom 8 or emergency telephone 9 is operated by a user and a call link is established with the emergency driving instruction device 12 or the emergency driving instruction device 12 ', the remote communication is performed. The control device 1 acquires the installation position information of the operated elevator intercom 8 or emergency telephone 9 in the same manner as the fire position information, digitizes the sound acquired by the microphone as described above, for example, HTML A document in the form is transmitted to the emergency operation instruction device 12 or the emergency operation instruction device 12 ′ by HTTP. The x and y coordinate values of the installation position of the intercom 8 in the elevator car are equal to the x and y coordinate values of the elevator installation position, and the z coordinate value is equal to the elevator car position information acquired from the elevator control panel 5. Use these coordinates. As a result, the residents who are left behind in the building where the fire is occurring can talk directly with the fire brigade members and receive appropriate evacuation instructions. In addition, for fire fighters, it is possible to quickly understand the situation of the people in the building and acquire information effective for the relief of those who have been left behind.

  The emergency operation instruction device 12 or the emergency operation instruction device 12 ′ transmits an elevator operation instruction to the remote communication control device 1. When a fire department member who operates the emergency operation instruction device 12 or 12 'inputs an operation instruction, the emergency operation instruction device 12 or 12' generates elevator operation instruction data as shown in FIG. 4 as an application layer data format. To do. Further, the emergency operation instruction device 12 sets the packet header information set in the remote communication control device 1 (stored using a cookie or the like) of the building where the communication address of the transmission destination is a fire and the fire detection signal is transmitted. Is added to the elevator operation instruction data to create a packet and send it to the network. Since the operation instruction at the time of emergency is inputted by the fire department staff, the elevator operation suitable for the situation of the fire site is possible.

  The elevator operation instruction data shown in FIG. 4 includes the following information. Elevator number (for example, 2 bytes) for the fire department member who has seen the fire occurrence floor plan transmitted from the remote communication control device 1 to designate the elevator to be remotely operated, and the types of operation items remotely operated by the fire department member Is an elevator operation instruction code (for example, 2 bytes) that is determined in advance. In addition, a plurality of sub codes (for example, 2 bytes × n) may be added to the elevator operation instruction code.

  FIG. 5 shows an example of the elevator operation instruction code. For example, when a fire department member starts the fire control operation for the elevator No. 2 in the fire building, the elevator number is 0002 and the instruction code is 0001. In the case of fire control operation, no instruction subcode is added. For example, when it is desired to run the elevator No. 3 to the fourth floor, the elevator number is 0003, the instruction code is 000A, and the instruction subcode is 0004 representing the floor index of the designated floor.

  When the remote communication control device 1 receives the elevator operation instruction data from the emergency operation instruction device 12 or 12 ', the remote communication control device 1 instructs the elevator control panel 5 of the designated elevator number to execute the designated operation. To communicate.

  Note that the present invention is not limited to the above-described embodiments as they are, and can be embodied by modifying the disclosed components without departing from the scope of the invention in the implementation stage. For example, in the above-described embodiment, the second remote monitoring base (that is, the fire department) is provided with an emergency operation instruction device, and transmission / reception with the remote communication control device is performed using the emergency operation instruction device. However, if the emergency operation instruction application software is operated on the Web application server of the remote communication control device, the operation can be performed with a commercially available Web browser operating on a commercially available PC. Moreover, various inventions can be formed by appropriately combining a plurality of constituent elements disclosed in the above embodiments. For example, some components may be deleted from all the components shown in the embodiment. Furthermore, constituent elements over different embodiments may be appropriately combined.

1 ... Remote communication control device, 2 ... Fire management device,
3 ... 1st remote monitoring base, 4 ... 2nd remote monitoring base (fire department),
5 ... Elevator control panel, 6 ... Elevator car security camera,
7 ... Hall security camera, 8 ... Intercom in the elevator car,
9 ... emergency telephone, 10 ... fire alarm,
11 ... emergency fire button, 12, 12 '... emergency operation instruction device,
13 ... command vehicle

Claims (7)

An elevator installed in the building,
An elevator control device for controlling the operation of the elevator;
A first emergency operation instruction device installed in a fire engine having jurisdiction over the location of the building, and transmitting an operation instruction of the elevator to the elevator control device;
A second emergency operation instruction device that is mounted on a command vehicle on which a command team in charge of fire fighting activities of the building is boarded and that transmits an operation instruction of the elevator to the elevator control device;
Fire the installation position by the installation position previously recorded for the reception of the previous SL fire occurrence signal within said building fire alarm or emergency fire button outputs a fire occurrence signal by the detection of the installed fire within said building A fire management device that determines the occurrence location and outputs a fire alarm signal and fire occurrence location information;
The system information and setting position of the location information and before disappeared elevators of the building previously recorded and a remote communication control device connected to said fire management apparatus and before disappeared elevators controller,
The remote communication control device includes:
When receiving a fire alarm signal to the first from the fire management system, fire comprising at least, before Symbol first emergency operation instructing device, the location information before and SL system integration information of at least fire alarm detection signal and the building Send outbreak information,
After mobilization system for determining a command personnel and before Symbol finger揮車designated from the fire engine is equipped with contact fire is at least, switch to the second emergency operation instructing device, at least before SL system send a fire situation information, including integrated information and before Symbol fire occurrence position information,
When an elevator operation instruction for the elevator control device is received from the first emergency operation instruction device or the second emergency operation instruction device, the received operation instruction is transmitted to the elevator control device. Elevator remote monitoring system. The remote communication control device is connected to the remote communication control device, and the installation position information in the building of the imaging device having a function of transmitting the state of the elevator hall and the passenger in the elevator car as image information. In addition, pre-record,
The fire occurrence information transmitted to the first emergency operation instruction device and the fire status information transmitted to the second emergency operation instruction device by the remote communication control device are further the image information and the image information. The elevator remote monitoring system according to claim 1, further comprising: installation position information of the imaging apparatus that has transmitted. The system
Placed on at least one of the car of holes or the elevator of the elevator, it said via a remote communication control device, a communication device for making a call with the conductor members of the staff and the commander vehicle of the fire department, further , Prepared,
The remote communication control device further records in advance installation position information of the call device in the building, and when a call link between the call device and the fire engine or the command vehicle is established, the call device of the call device The elevator remote monitoring system according to claim 1 or 2, wherein installation position information in a building is transmitted to the fire engine or the command vehicle.   3. The elevator remote monitoring system according to claim 1, wherein the fire occurrence information further includes information on the number of floors and fire resistance of the building. 4.   The remote communication control device sends the fire occurrence information or the fire situation information to the first emergency operation instruction device or the second emergency operation instruction device in the form of a document described in a markup language. 5. The elevator remote monitoring system according to claim 1, wherein the transmission is transmitted.   The elevator operation instructions received from the first emergency operation instruction device or the second emergency operation instruction device by the remote communication control device are the start and end of the elevator fire control operation, and the start of evacuation operation. And end, start and end of emergency operation by a firefighter, travel and landing to a specific floor predetermined for the building, travel and landing to a designated floor specified according to the situation, and door of the elevator The elevator remote monitoring system according to claim 1, comprising at least one of opening / closing instructions.   The remote communication control device further receives a fire information request from the first emergency operation instruction device or the second emergency operation instruction device, and sends information corresponding to the request to the emergency operation instruction of the request source. The elevator remote monitoring system according to any one of claims 1 to 3, wherein the system is transmitted to a device.

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