JP2012126560A - Elevator system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an elevator system that enables a user to determine various risks by announcing a disaster situation in a building in a car and the like of an elevator.SOLUTION: The elevator system includes: a disaster situation decision device 5 for storing the installation position of a disaster detection device 2 for detecting a disaster in a building where the elevator is installed, receiving a disaster detection signal from the disaster detection device 2, and determining a disaster situation in the building based on a disaster occurrence position specified from the installation position of the disaster detection device 2 which has issued the disaster detection signal; a disaster prevention equipment recognition device 8 for receiving and storing the position of disaster prevention equipment installed in the building; and a reporting means for reporting information about the position and the name of the disaster equipment and the disaster situation determined by the disaster situation decision device 5 to the inside of the car 1 and the like.

Description

  Embodiments described herein relate generally to an elevator system that responds to the occurrence of a disaster in a building.

  Residents are instructed to evacuate by stairs, not elevators or escalators, when a fire breaks out in an office building or shopping center. In fact, not only in Japan but also overseas, we often see cautions not to use elevators in elevators and elevator halls, but to use stairs in the event of a fire. However, there are not a few cases of evacuation using elevators in the past fires, especially in the early stage of the fire. On the other hand, the proportion of elderly people is rapidly increasing in developed countries, especially in Japan. This makes it possible to predict that the number of people who have difficulty using stairs during an emergency evacuation such as a fire in a building will increase year by year. Although there has been a potential demand for using an elevator for evacuation in the past, with the progress of aging and becoming barrier-free, in recent years, it has begun to be spoken gradually as an obvious demand. In particular, since the collapse of the World Trade Center Building on September 11, 2001 due to a plane collision, even in the United States, even if it is a skyscraper, there is a demand for smooth evacuation of the entire building, not just the conventional partial evacuation near the fire floor. Is growing.

  In Japan, in the “Regulatory Reform Promotion Three-Year Plan” in March 2003, “Standby areas around elevators to ensure safe and prompt evacuation in the event of disasters such as disabled persons such as wheelchair users and the elderly. We will consider the use of elevators as an evacuation means for persons with physical disabilities, elderly people, etc., taking into account the safety of elevators.

  Against this background, in recent years, it has been considered to provide an elevator system that can promptly evacuate the residents to the evacuation floor by actively using the elevator when a disaster such as a fire occurs. ing. Furthermore, it is also considered that ordinary people who are not experts such as firefighters use an elevator for rescue.

  In Patent Document 1, the priority of the rescue floor to which the smoke should arrive and respond should be calculated based on the operation status of the fire detector and the distance from the active fire detector to the hall. An elevator operation system that performs evacuation operation is disclosed.

  However, the method of calculating the priority order from the above parameters cannot completely calculate the situation that changes every moment at the time of actual fire, and may cause dangerous elevator operation.

Japanese Patent No. 4266010

  The present invention has been made in view of the above problems, and accurately notifies the state of a disaster in a building to an elevator car or an elevator hall, and is used by elevators such as evacuees, rescuers, and firefighters. It is an object of the present invention to provide an elevator system that enables a user to determine various dangers by transmitting disaster information to a person.

  An elevator system according to an embodiment of the present invention stores an installation position of a disaster detection device that detects a disaster in a building where the elevator is installed, receives a disaster detection signal from at least one of the disaster detection devices, and receives the received disaster A disaster situation judging means is provided for judging the disaster situation in the building based on the disaster occurrence position specified from the installation position of the disaster detection apparatus that issued the detection signal. This system also receives the location and name of the disaster prevention equipment installed in the building, stores the received location and name of the disaster prevention equipment, information on the location and name of the disaster prevention equipment, Informing means for notifying at least one of the inside of the car and the elevator hall of the disaster situation judged by the situation judging means.

It is a figure showing the outline | summary of the function structure of the whole elevator system for demonstrating the function structure of one Embodiment. It is a flowchart for demonstrating the operation | movement in 1st Embodiment. It is a flowchart for demonstrating the operation | movement in 2nd Embodiment.

  Hereinafter, an exemplary embodiment of the present invention will be described as appropriate with reference to the drawings.

(First embodiment)
The first embodiment will be described with reference to FIGS. 1 and 2. FIG. 1 shows an outline of the functional configuration of an elevator system for explaining the functional 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. FIG. 2 is a flowchart showing the operation of this embodiment. In FIG. 1, one elevator car 1 is shown for the sake of brevity, but there may be a plurality of cars. Similarly, in FIG. 1, the number of the disaster detection devices 2a to 2c is three and the number of the disaster prevention equipment detection devices 3a to 3d is four, respectively, but these numerical values are merely shown as examples. There is no limit. In actual implementation, the number of disaster detection devices and the number of disaster prevention equipment detection devices are the numbers necessary to achieve the functions of the embodiment.

  When a disaster such as a fire occurs in the building, the disaster detection device, for example, the disaster detection device 2a detects the disaster, and transmits the disaster detection signal to the disaster situation determination device 5 via the disaster signal transmission means 4a (step S201). ). As the disaster detection devices 2a to 2c, for example, there are a temperature sensor, a smoke sensor, and the like, and when a set value is exceeded, the disaster detection signal is transmitted to the corresponding disaster signal transmission means 4a to 4c. Yes. The disaster situation determination device 5 stores the installation positions of the disaster detection devices 2a to 2c in the building. In one embodiment, the disaster situation determination device 5 further stores the location of dangerous facilities such as gas facilities or objects in a building.

  The disaster situation determination device 5 is located at a disaster occurrence position identified from the installation position of the disaster detection device 2a that has issued the disaster detection signal received from the disaster detection device, for example, the disaster detection device 2a via the disaster signal transmission means 4a. Based on this, determine the disaster situation in the building. For example, when the number of disaster detection devices that have issued disaster detection signals is large, or when the location of the disaster is close to a dangerous facility or object such as a gas facility, the disaster situation determination device 5 determines that the disaster situation is bad. .

  In addition, the disaster situation determination device 5 determines the location of the disaster based on the disaster occurrence position identified from the disaster detection device 2 that issued the disaster detection signal received from at least one disaster detection device 2 and the time when the disaster detection signal was received. Determine the expansion range. Thus, the rescue operation of the elevator can be performed by judging the expansion status of the disaster based on the temporal change in the disaster occurrence position and the time at which the disaster detection signal is issued, so that safer rescue operations can be performed. .

  The disaster situation determination apparatus further stores the location of the disaster occurrence and the time when the disaster detection signal is received. At this time, if the disaster detection signal includes information indicating the degree of the disaster situation, the information is also stored in association with the disaster occurrence position and the reception time of the disaster detection signal. As information indicating the degree of the disaster situation, if it is a temperature sensor, for example, information indicating a situation exceeding 200 ° C., 500 ° C., 1000 ° C. Information indicating medium or large can be used.

  Next, the disaster situation determination device 5 transmits the disaster situation information of the disaster occurrence position and the reception time of the disaster detection signal to the elevator operation control device 7 via the disaster situation transmission means 6. In one embodiment, the disaster situation determination device 5 further transmits the disaster situation information of the disaster occurrence position and the reception time of the disaster detection signal to the remote monitoring center 12 or the building management system 13.

  When the judgment result of the disaster that has occurred is received from the disaster situation judgment device 5, the elevator operation control device 7 performs a disaster evacuation operation based on the received judgment result of the disaster (step S202). For example, when the disaster is a fire, when a fire occurs, the fire control switch is turned ON, and the fire evacuation operation toward the evacuation floor is started.

  In addition, the elevator operation control device 7 transmits the disaster determination result transmitted via the disaster situation transmission means 6 to a notification device such as the announcement device 10 and the display device 11. According to the transmitted information, at least one of the inside of the car 1 and the elevator hall, for example, a notification indicating a disaster situation such as “A fire has occurred in a restaurant street on the third floor. Evacuation is in progress”. Is sent from the announcement device 10, and further, notification by character information indicating the disaster situation and map information in the building are displayed on the display device 11 (step S203). At this time, a moving image showing how the fire is burned by animation or a moving animation of an arrow may be displayed on the map of the fire occurrence floor. When the car call is registered and there is a passenger in the car 1, the elevator operation control device 7 causes the car 1 to go straight to the evacuation floor, and opens the door when the car 1 reaches the evacuation floor, Remove the passenger.

  Next, the disaster prevention equipment detection devices 3 a to 3 d transfer the information on the detected location and name of the disaster prevention equipment or the number of disaster prevention equipments to the disaster prevention equipment recognition device 8.

  The disaster prevention equipment recognizing device 8 determines whether or not the information on the position, name or number of the disaster prevention equipment transmitted from the disaster prevention equipment detecting devices 3a to 3d has been recognized (step S204). When the disaster prevention equipment recognition device 8 recognizes information on the disaster prevention equipment (YES in step S204), the disaster prevention equipment recognition device 8 stores information on the disaster prevention equipment and transmits information on the disaster prevention equipment to the elevator operation control device 7.

  The disaster prevention equipment detection devices 3a to 3d can read the IC tag of the disaster prevention equipment to which the IC tag is attached, and acquire the position, name, and number information of the disaster prevention equipment. The disaster prevention equipment detection devices 3a to 3d may be installed in the car 1, may be installed in the elevator hall of each floor, or installed in the elevator car of each floor and each floor. May be. Disaster prevention equipment includes fire extinguishers, fire protection clothing, oxygen masks, AEDs, ladders, etc., used for disaster prevention and rescue.

  The elevator operation control device 7 causes the position, name, and number of the disaster prevention equipment to be displayed on at least one of the display devices 11 in the car 1 and the elevator hall based on the received information on the disaster prevention equipment (step S205).

  When the disaster prevention equipment recognition device 8 cannot recognize the signals from the disaster prevention equipment detection devices 3a to 3d or when the information on the disaster prevention equipment is updated (NO in step S204), the disaster prevention equipment is returned to step S203. The latest information is always recognized so that you know when it is no longer used.

  Next, when a hall call is made on the rescue floor, the elevator operation control device 7 accepts the hall call (step S206). Here, the floor where the hall call is registered is called the rescue floor.

  In response to the hall call made by the evacuees, the elevator operation control device 7 moves the car 1 to the rescue floor (step S207) and starts the rescue operation.

  The elevator operation control device 7 moves the car 1 carrying the rescuer to the rescue floor, and then waits at the rescue floor until the car call is accepted with the door open on the rescue floor. (Step S208). Next, a car call to the evacuation floor is accepted (step S209). As a method of accepting a car call to the evacuation floor, in addition to the usual method, an evacuee has entered the car such as a weight sensor of the car 1 or any button operation in the car. It may be automatically registered by a signal that understands.

  Next, the car 1 moves to the evacuation floor (step S210), gets the passengers off the evacuation floor, completes the rescue operation (step S211), and waits for the next hall call.

  The elevator operation control device 7, the disaster situation determination device 5, the disaster prevention equipment recognition device 8 and the like include hardware resources such as a microcomputer, ROM, RAM, or a magnetic storage device and software necessary for elevator control. Can be implemented by an embedded system. These devices can also be implemented by hardware.

  As described above, according to the embodiment described above, the disaster situation determined based on the disaster detection signal issued by any of the plurality of disaster detection devices 2a to 2c and the information on the disaster prevention equipment installed in the building Is provided to at least one of the passenger car and the elevator hall, thereby providing an elevator system that enables an elevator user to determine various dangers.

(Second Embodiment)
Next, a second embodiment to which the first embodiment is applied will be described with reference to FIGS. 3 and 1. The functional configuration of the elevator system according to the second embodiment is the same as the functional configuration of the elevator system according to the first embodiment described with reference to FIG. FIG. 3 is a flowchart showing the operation of this embodiment. In the present embodiment, in parallel with the execution of the operation in the first embodiment, an operation for supporting the rescue operation safely while responding to the temporal change of the disaster situation is added.

  In parallel with the operation in the first embodiment, the disaster situation determination device 5 continuously determines the disaster situation based on the disaster detection signals from the disaster detection apparatuses 2a to 2c. In other words, the disaster situation determination device 5 continuously monitors temporal changes in the disaster situation, and determines whether or not the disaster situation has deteriorated (step S302). For example, the disaster situation determination device 5 determines the time of the disaster situation based on a change in the number of disaster detection devices 2a to 2c that issue a disaster detection signal, a disaster occurrence position, a temperature transmitted from a temperature sensor, and the like. Judge changes. The disaster situation determination device 5 transmits, for example, when the number of disaster detection devices 2a to 2c that issue disaster detection signals is increasing, when a disaster occurrence position approaches an elevator hall, or from a temperature sensor When the temperature is increased, the disaster situation is judged to have deteriorated.

  If it is determined that the disaster situation has not deteriorated, the process remains in step S302 and the monitoring of the disaster situation is continued. During this time, the car 1 is moving toward the rescue floor and the rescue operation is being executed. If the deterioration of the disaster situation is not detected until the car 1 arrives at the rescue floor, as described above, the car 1 waits at the rescue floor when it arrives at the rescue floor (step S208). The operation described in the embodiment is performed.

  When the disaster situation determination device 5 determines that the disaster situation tends to deteriorate, the disaster situation determination device 5 gives an alarm indicating that the disaster situation has deteriorated via the disaster situation transmission means 6. This is transmitted to the elevator operation control device 7. When the elevator operation control device 7 receives an alarm from the disaster situation determination device 5, the announcement device 10 or the display device 11 notifies the passenger car 1 and the elevator hall that the disaster situation tends to deteriorate. In parallel with such an operation, it is determined whether or not the car 1 has arrived at the rescue floor (step S304).

  If it is determined that the car 1 has arrived at the rescue floor, the car 1 continues to stand by at the rescue floor (step S208), and thereafter the operation described in the first embodiment is executed. The

  If it is determined that the car 1 has not arrived at the rescue floor, the elevator operation control device 7 stops the rescue operation and executes a disaster control operation (step S306). That is, the elevator operation control device 7 is used, for example, when the number of disaster detection devices 2a to 2c that issue a disaster detection signal is increasing, when a disaster occurrence position approaches an elevator hall, or a temperature sensor When the temperature transmitted from the vehicle rises, the rescue operation is stopped and the disaster control operation is executed.

  With the operations described above, it is possible to safely support rescue activities while responding to changes in the disaster situation over time.

  Although several embodiments of the present invention have been described, these embodiments are presented by way of example and are not intended to limit the scope of the invention. These novel embodiments can be implemented in various other forms, and various omissions, replacements, and changes can be made without departing from the scope of the invention. These embodiments and modifications thereof are included in the scope and gist of the invention, and are included in the invention described in the claims and the equivalents thereof.

DESCRIPTION OF SYMBOLS 1 ... Elevator 2, 2, 2a-2c ... Disaster detection apparatus,
3, 3a-3d ... Disaster prevention equipment detection device,
4a-4c ... disaster signal transmission means, 5 ... disaster situation judgment device,
6 ... Disaster situation transmission means, 7 ... Elevator operation control device,
8 ... Disaster prevention equipment recognition device, 10 ... Announcement device,
11 ... Display device, 12 ... Remote monitoring center,
13 ... Building management system

Claims (5)

The disaster detection that memorizes the installation position of a disaster detection device for detecting a disaster in a building where an elevator is installed, receives a disaster detection signal from at least one of the disaster detection devices, and issues the received disaster detection signal A disaster situation judging means for judging the disaster situation in the building based on the disaster occurrence position specified from the installation position of the device;
Receiving the position and name of the disaster prevention equipment installed in the building, and storing the received position and name of the disaster prevention equipment; and
Elevator comprising notifying means for notifying at least one of the inside of the car and the elevator hall of the information on the position and name of the disaster prevention equipment and the disaster situation determined by the disaster situation judging means. system.   The disaster situation determination means determines a disaster expansion range based on the disaster occurrence position specified from the disaster detection signal received from at least one disaster detection device and the time when the disaster detection signal is received. The elevator system according to claim 1, wherein   The elevator system according to claim 1 or 2, wherein the disaster detection signal received from the disaster detection device includes a signal that detects smoke or temperature during a fire. The system
Disaster information transmission means for transmitting the disaster status information from the disaster status determination means;
The elevator system according to any one of claims 1 to 3, further comprising an elevator operation control device that transmits information transmitted from the disaster information transmission unit to the notification unit.   The elevator system according to claim 4, wherein the elevator operation control device stops the rescue operation when it is determined by the disaster situation determination means that a fire has approached the elevator hall.

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