JP5119820B2 - Elevator control device - Google Patents

Description

  The present invention relates to an elevator control device that can realize an emergency earthquake control operation of an elevator that is cheaper than the prior art by utilizing a simultaneous broadcast distribution service of an emergency earthquake warning using a mobile phone, particularly a mobile phone terminal that receives an emergency earthquake warning. Is related to the installation location.

As an example of prior art, there has been proposed an elevator seismic control operation system that can detect an earthquake sufficiently early and that can reliably detect an earthquake, and therefore can perform safe and reliable control of the elevator (for example, patents). Reference 1).
As another conventional technology, it is possible to improve the reliability of emergency earthquake warnings and transmit earthquake information and tsunami information in a form that is highly convenient for users based on the improved emergency earthquake warnings. Emergency earthquake warning device that can be used (see, for example, Patent Document 2), an emergency earthquake warning terminal that is useful and highly convenient and reliable in a form closely related to the life of the user, and that is compatible with an appropriate and simple billing system; A method of using the same has been proposed (see, for example, Patent Document 3).

JP 2004-284758 A JP 2006-112922 A JP 2006-145234 A

In the prior art described in Patent Document 1, a real-time earthquake information receiving apparatus that is connected to a real-time earthquake information transmitting apparatus via a network and receives real-time earthquake information transmitted from the real-time earthquake information transmitting apparatus, that is, information relating to P waves. And the output of the seismic detector installed in each elevator, it is a method of controlling operation at the time of elevator earthquake, but since the real-time earthquake information transmission device is via a network, especially in the event of an earthquake, etc. There is a possibility that some kind of communication failure may occur on the way, and the received information is also related to normal P waves, so there is a limit even if it can detect earthquakes at an early stage, and there is a problem that it is still insufficient. It was.
In addition, the conventional ones described in Patent Document 2 include a first seismic observation network formed from a multi-function seismometer mainly controlled by the Japan Meteorological Agency and a high sensitivity mainly controlled by the National Institute for Disaster Prevention Science and Technology. The second earthquake observation network formed from the seismometer is received to improve the reliability of the emergency earthquake warning, while the one described in Patent Document 3 is appropriate and simple for the distribution of the emergency earthquake warning. Is an emergency earthquake warning terminal and its usage that are compatible with the billing system, both of which make use of a simultaneous broadcast delivery service for emergency earthquake warnings using mobile phones to operate seismic control of inexpensive elevators. The elevator control device that can be realized is not considered.

  The present invention has been made to solve the above-described problems. By utilizing a simultaneous broadcast delivery service for emergency earthquake warnings using a mobile phone, the elevator can be controlled and operated more quickly in the event of an earthquake. Elevator control device that can secure safety or prevent equipment damage and install the mobile phone terminal that receives emergency earthquake warnings in the information display device of the elevator hall where mobile phone radio waves can easily pass Is to provide.

In the elevator control apparatus according to the present invention, an emergency earthquake warning is received from a base station in an area where an earthquake is expected to be delivered to a mobile phone in the area. A mobile phone terminal, an elevator control panel having a P-wave signal terminal and a low-sensing seismometer signal terminal , a control terminal having a control interface configured to be connectable to the mobile phone terminal, and an actual building Acceleration sensor for detecting the shaking of the earthquake and a signal output contact point for outputting the signal output of the earthquake early warning received by the mobile phone terminal for the first predetermined time in the local earthquake And an output terminal thereof, an acceleration sensor operation contact provided on the control terminal and outputting when the acceleration sensor detects an actual shake, and its output terminal The provided, when the mobile phone terminal receives the earthquake early warning in the region, enter the earthquake early warning signal output from the mobile phone terminal to P-wave signal terminal of the elevator control panel, after the nearest floor stop elevator, operation If the first predetermined time has elapsed from the estimated earthquake arrival time in the area, the elevator is returned to normal operation, and the acceleration sensor detects the actual shaking of the building and it is above the set value. When there is, input the output of the acceleration sensor to the low-sensing seismometer signal terminal of the elevator control panel, stop the elevator after stopping the nearest floor, and the actual building shake detected by the acceleration sensor is less than the set value when there, if the second predetermined time than the earthquake predicted arrival time of the region passed in to perform seismic control operation for returning the elevator to the normal operation, the mobile phone radio waves passing Together also built installation including the antenna portion of the portable telephone terminal which receives the earthquake early warning to be delivered to the mobile phone in the hall information display device installed in easily top floor or floor landing, the antenna portion Is connected to the control interface of a control terminal installed in another place where radio waves do not reach .

Also, a mobile phone terminal that is installed in an elevator installation site and receives an earthquake early warning distributed from a base station in an area where a large earthquake is expected to be distributed to a mobile phone in the area, and a P-wave signal terminal And an elevator control panel having a low-sensing seismometer signal terminal, a P-wave sensor connected to the P-wave signal terminal of the elevator control panel, and a low-sensing seismometer connected to the low-sensing seismometer signal terminal of the elevator control panel , A control terminal having a control interface configured to be connectable to a mobile phone terminal, and an acceleration sensor provided in the control terminal, which operates when an actual building shake is detected and keeps the operation suspension state during earthquake control operation When provided in the control terminal, while the signal output of the earthquake early warning mobile telephone terminal receives earthquake predicted arrival time + first predetermined time in the region, the output bulletins signal Receiving a force contact and an output terminal, provided on the control terminal, and a acceleration sensor operation contacts and its output terminal is output when the acceleration sensor detects an actual rocking, mobile handsets earthquake early warning in the region When the emergency earthquake warning signal output from the mobile phone terminal and the output of the P wave sensor, whichever is earlier , is input to the P wave signal terminal of the elevator control panel, the elevator is stopped after the nearest floor stop, If the first predetermined time has elapsed from the predicted earthquake arrival time in the area, the elevator is returned to normal operation, and when the acceleration sensor detects actual building shaking and it exceeds the set value. When the output of the acceleration sensor is input to the low-sensing seismometer signal terminal of the elevator control panel, or when the low-sensing seismometer detects shaking, the low-sensing seismometer signal of the elevator control panel When the actual building shake detected by the accelerometer is less than the set value, the second predetermined time from the predicted earthquake arrival time in the area is entered. if passed, the performs seismic control operation for returning the elevator to the normal operation, to the mobile phone the landing information display device installed in easily as the mobile phone radio top floor or floor landing The mobile phone terminal that receives the earthquake early warning that is distributed by the mobile phone terminal, including its antenna part, is built in, and the mobile phone terminal that contains the antenna part is installed in another location where radio waves do not reach Is connected to.

Also, a mobile phone terminal that is installed in an elevator installation site and receives an earthquake early warning distributed from a base station in an area where a large earthquake is expected to be distributed to a mobile phone in the area, and a P-wave signal terminal And an elevator control panel having a low-sensing seismometer signal terminal, a low-sensing seismometer connected to the low-sensing seismometer signal terminal of the elevator control panel, and a control terminal having a control interface configured to be connectable to a mobile phone terminal And an acceleration sensor that is provided in the control terminal and detects actual shaking of the building, and a signal output of an emergency earthquake warning that is provided in the control terminal and received by the mobile phone terminal is calculated as an estimated earthquake arrival time in the area + the first Acceleration sensor that is provided in the control terminal and the breaking signal signal output contact that is output for a predetermined time and that is output when the acceleration sensor detects actual shaking And a operation contacts and the output terminal, when the mobile phone terminal receives the earthquake early warning in the region, enter the earthquake early warning signal output from the mobile phone terminal to P-wave signal terminal of the elevator control panel, the elevator If the first predetermined time has elapsed from the predicted earthquake arrival time in the area after the nearest floor stop, the elevator will return to normal operation, and the acceleration sensor will detect the actual shaking of the building. If it exceeds the set value, input the output of the acceleration sensor to the low-sensing seismometer signal terminal of the elevator control panel, or when the low-sensing seismometer detects shaking, the low-sensing seismometer of the elevator control panel Input to the signal terminal, stop the elevator at the nearest floor, stop operation, and when the actual building shake detected by the acceleration sensor is less than the set value, it is If elapsed constant time, in what performing seismic control operation for returning the elevator to the normal operation, the landing information display device installed in the hall of the cellular phone radio as easily top floor or upper floor of, The mobile phone terminal that receives the earthquake early warning that is distributed to the mobile phone is built in, including its antenna part , and the mobile phone terminal that contains the antenna part is installed in another place where radio waves do not reach It is connected to the control interface of the control terminal .

  According to the present invention, by utilizing a simultaneous broadcast delivery service for emergency earthquake warnings using a mobile phone, the elevator can be controlled earlier when an earthquake occurs, ensuring passenger safety or preventing equipment damage, Since the mobile phone terminal that receives the earthquake early warning is installed in the information display device of the elevator hall where the mobile phone radio wave easily passes, and it is installed with the antenna part, it can be installed without impairing the design. Moreover, the sensitivity of radio wave transmission / reception can be improved.

Before describing the embodiment of the present invention, an elevator control device which is the basis of the present invention will be described first.
FIG. 1 is a system configuration diagram showing the overall configuration of an elevator control device as the basis of the present invention, FIG. 2 is a connection circuit diagram showing the main configuration of the elevator control device as the basis of the present invention, and FIG. 3 is an emergency earthquake. FIG. 4 is an explanatory diagram for explaining the time effect of the breaking news, and FIG. 4 is a flowchart for explaining the operation control operation at the time of earthquake of the elevator control device which is the basis of the present invention.

  As a new earthquake early warning service, simultaneous broadcast distribution of emergency earthquake early warning by mobile phone is about to be realized. This simultaneous broadcast service for earthquake early warnings will be distributed to mobile phones in areas where seismic intensity of 4 or greater is expected, and the provision of services to the general public is scheduled to begin on October 1, 2007. ing. In current elevators, distributors receive earthquake early warnings from the Japan Meteorological Agency via the Internet line, and the predicted seismic intensity and estimated arrival time for each building distributed by the distributor are received via, for example, a VPN (Virtual Private Network) line. By doing so, the elevator will be controlled during an earthquake. However, this method has a big problem that initial installation costs such as dedicated receivers and line costs increase. Therefore, if you use an emergency earthquake warning broadcast service using a mobile phone, you can realize cheaper seismic control operation by using the mobile phone network service to control the elevator. It will be possible to provide users with even more secure and safe services. Currently, about 35% of elevators are said to have undeveloped control equipment during earthquakes, and installation of P-wave detectors is obligatory for newly installed elevators.

First, the overall configuration of an elevator control device using a simultaneous broadcast distribution service for emergency earthquake warnings using a mobile phone will be described with reference to FIG. In FIG. 1, reference numeral 1 denotes a meteorological agency emergency earthquake notification network in which the Japan Meteorological Agency 3 transmits emergency earthquake early warnings from a large number of seismometers 2 provided throughout the country. 4 is a mobile phone company. Mobile phone company 4 receives earthquake early warnings from the Japan Meteorological Agency Emergency Earthquake Notification Network 1 and distributes earthquake early warnings simultaneously to mobile phones in areas where seismic intensity greater than 4 is expected. The earthquake early warning service 6 is distributed from the base station 5 in the corresponding area to the mobile phone in the area. On the other hand, an elevator control panel 8 and an S-wave seismometer 9 are installed at an elevator installation site 7 made up of each building, etc., but in addition, an emergency earthquake occurs from a base station 5 in a region corresponding to a seismic intensity 4 or higher of the mobile phone company 4 A control terminal 12 having a control interface 11 configured to be connectable with a mobile phone terminal 10 that receives the breaking news service 6 is installed. The control interface 11 of the control terminal 12 has a full-spec configuration, for example, as shown in FIG. FIG. 2 shows an example in which a control terminal 12 for emergency earthquake warning by a mobile phone terminal 10 is installed at a site where both a low-sensing seismometer and a P-wave sensor are installed. However, in the machine room- less elevator, as will be described later, there are often no places where radio waves can be stably transmitted and received, and there is a problem that radio waves cannot be received reliably. For this reason, when there is a concern that the earthquake early warning cannot be received, the mobile phone terminal 10 including the antenna unit may be installed in another place where radio waves reach and connected to the control interface 11 of the control terminal 12 wirelessly or by wire. It ’s fine. The control interface 11 includes an acceleration sensor 13 configured to detect an actual building shake at low cost, a breaking signal output contact 14 that outputs emergency earthquake breaking service information received by the mobile phone terminal 10, and an acceleration sensor 13. Acceleration sensor operation contact 15 that is turned on when the actual building shake is detected, and if the acceleration sensor 13 does not detect the actual building shake, the control operation is reset to return to the normal operation after the earthquake. And a contact 16. The circuit of the reset contact 16 is used only when the elevator control panel 8 has no P wave signal input circuit. Reference numeral 17 denotes an output terminal of the breaking signal output contact 14 provided in the control terminal 12, 18 denotes an output terminal of the acceleration sensor operation contact 15 provided in the control terminal 12, and 19 denotes an output of the reset contact 16 provided in the control terminal 12. Terminal. The output terminal 19 of the reset contact 16 is also used only when the elevator control panel 8 has no P wave signal input circuit. Note that the breaking signal output from the cellular phone terminal 10 is such that the breaking signal output contact 14 is closed for the estimated arrival time +60 seconds. Therefore, when 1 minute has elapsed from the estimated arrival time, the elevator recovers. If there is a P-wave sensor 20, it stops at the nearest floor with the earlier signal. The acceleration sensor 13 is used as a false alarm prevention function. That is, even if there is an early warning signal output from the mobile phone terminal 10, if the acceleration sensor 13 does not detect actual shaking of the building thereafter, a signal for resetting the control operation during earthquake is output as a false alarm. Reference numeral 20 denotes a P-wave sensor, 21 denotes an operating contact of the P-wave sensor 20, 22 denotes a low-sensing seismometer of the S-wave seismometer 9, and 23 denotes an operating contact of the low-sensing seismometer 22. Reference numeral 24 denotes a P-wave signal terminal provided on the elevator control panel 8. The P wave signal terminal 24 is connected to the operation contact 21 of the P wave sensor 20 and is also connected to the output terminal 17 of the breaking signal output contact 14 via a signal line 25. A low-sensing seismometer signal terminal 26 is provided on the elevator control panel 8. The low-sensing seismometer signal terminal 26 is connected to the operating contact 23 of the low-sensing seismometer 22 and is also connected to the output terminal 18 of the acceleration sensor operating contact 15 via a signal line 27. 28 is an earthquake control reset terminal provided on the elevator control panel 8. The earthquake control reset terminal 28 is connected to the output terminal 19 of the reset contact 16 via the signal line 29 only when the elevator control panel 8 is not equipped with the P-wave signal terminal 24. The signal line 29 is represented by a dotted line which is a virtual line for convenience.

  In FIG. 2, when the earthquake detector is installed but the P-wave sensor is not installed, the output terminal of the breaking signal output contact 14 for outputting the emergency earthquake breaking service information from the mobile phone terminal 10 17 and the P wave signal terminal 24 normally provided in the elevator control panel 8 are connected via the signal line 25, the earthquake early warning received by the mobile phone terminal 10 even if the P wave sensor is not installed. By inputting a service information signal to the P-wave signal terminal 24 of the elevator control panel 8, the elevator can be stopped at the nearest floor at an early point. In this case, since the elevator control panel 8 has an input circuit for the P-wave signal terminal 24, a reset contact circuit is unnecessary. The elevator control panel 8 is usually provided with a P-wave signal terminal 24 regardless of whether it is used.

  In FIG. 2, when neither the earthquake detector nor the P-wave sensor is installed, the output terminal 17 of the early warning signal output contact 14 for outputting the emergency earthquake early warning service information from the mobile phone terminal 10, and the elevator control A P-wave signal terminal 24 normally provided on the panel 8 is connected via a signal line 25, an output terminal 18 of the acceleration sensor operation contact 15, and a low-sensing seismometer signal normally provided on the elevator control panel 8. If the terminal 26 is connected via the signal line 27, the earthquake early warning service information signal received by the mobile phone terminal 10 can be transmitted to the elevator control panel 8 even if neither the earthquake detector nor the P-wave sensor is installed. When the acceleration sensor 13 detects an actual building vibration, the signal is input to the low-sensing seismometer signal terminal 26 of the elevator control panel 8. Since the force, it is possible to be able to stop at the nearest floor elevator at an early point in time. In this case, since the elevator control panel 8 has an input circuit for the P-wave signal terminal 24, a reset contact circuit is unnecessary. The elevator control panel 8 is usually provided with a P-wave signal terminal 24 and a low-sensing seismometer signal terminal 26 regardless of whether they are used.

  Further, in FIG. 2, when it is not necessary to install both the earthquake detector and the P wave sensor, and there is no P wave signal input circuit in the elevator control panel, the emergency earthquake warning service from the mobile phone terminal 10 is provided. The output terminal 17 of the breaking signal output contact 14 for outputting information and the low-sensing seismometer signal terminal 26 normally provided in the elevator control panel 8 are connected via a signal line 25 and the reset contact 16 of the acceleration sensor 13. Output terminal 19 and the earthquake control reset terminal 28 provided on the elevator control panel 8 are connected via a signal line 29, even if neither an earthquake detector nor a P-wave sensor is installed. 10 receives the earthquake early warning service information signal received by the elevator control panel 8 at the low-sensing seismometer signal terminal 26, and the acceleration sensor 13 If it is not detected, the signal of the reset contact 16 for resetting the control operation at the time of earthquake and returning to the normal operation is inputted to the control terminal 28 at the time of the earthquake control of the elevator control panel 8, so that the elevator is the closest If the actual stop of the building is not sensed after being stopped at the floor, the elevator that has been stopped by sending it to the elevator control panel can be reset and recovered. The elevator control panel 8 is normally provided with a low-sensing seismometer signal terminal 26 regardless of whether it is used or not, but the earthquake control reset terminal 28 is not normally provided, so it is installed separately. There is a need.

As shown in FIG. 3, it can be understood that the emergency earthquake bulletin can be received earlier than the operation of the conventional P-wave sensor when it is about 80 km away from the epicenter. It can also be seen that if there is no P wave sensor installed and it is about 40 km away from the epicenter, it can be received faster than the S wave seismic sensor operates. In FIG. 3, the propagation speed of the P wave is 7 km / second, and the propagation speed of the S wave (main shock) is 3.5 km / second.
Therefore, if the earthquake early warning is used, the elevator can be stopped more safely and at an early timing, which is extremely effective for a high-rise elevator. Therefore, as shown in FIG. 2, the P-wave sensor 20 or the emergency earthquake bulletin service information received by the mobile phone terminal 10, whichever signal is earlier, can be received by the P-wave signal terminal 24 of the elevator control panel 8. Therefore, it is effective to be able to stop the elevator at the nearest floor at an early point.

Next, the earthquake control operation of the elevator control device will be described with reference to FIG.
Mobile phone company 4 receives earthquake early warning from the Japan Meteorological Agency Emergency Earthquake Notification Network 1 and corresponds to seismic intensity 4 or higher in order to simultaneously deliver earthquake early warnings to mobile phones in areas where seismic intensity 4 or higher is expected. It is assumed that the earthquake early warning service 6 is distributed from the base station 5 in the area to the mobile phone in the area. First, in step S1, when the mobile phone terminal 10 provided in the control terminal 12 of the elevator installation site 7 receives the earthquake early warning 6 for the area from the base station 5, the earthquake control control signal for the elevator is output, and the early warning signal The signal is input from the output terminal 17 of the output contact 14 to the P wave signal terminal 24 of the elevator control panel 8 via the signal line 25, and the P wave sensor input is turned ON (step S2). When the P-wave sensor 20 is operated, an elevator seismic control signal is output and input to the P-wave signal terminal 24 of the elevator control panel 8 to turn on the P-wave sensor input (step S3). When the earlier signal of the emergency earthquake warning by the P-wave sensor 20 or the mobile phone terminal 10 is received, the elevator stops operation after stopping the nearest floor (step S4). Next, it progresses to step S5 and it is judged whether 1 minute passed from the earthquake estimated arrival time of the said area. If one minute has elapsed in step S5, the output of the elevator seismic control signal is stopped, and the P-wave sensor input to the P-wave signal terminal 24 of the elevator control panel 8 is turned OFF (step S6). ), The elevator is returned to normal operation (step S7).
On the other hand, when the mobile phone terminal 10 provided in the control terminal 12 of the elevator installation site 7 receives the earthquake early warning 6 of the area from the base station 5 in step S1, the control terminal 12 simultaneously activates the acceleration sensor 13. (Step S8). In step S9, when the acceleration sensor 13 detects an actual building shake and detects that the actual building shake is equal to or greater than the set value, the operation contact 15 of the acceleration sensor 13 is turned on to control the elevator during an earthquake. A control signal is output and input from the output terminal 18 of the operating contact 15 of the acceleration sensor 13 to the low-sensing seismometer signal terminal 26 of the elevator control panel 8 via the signal line 27, and the low-sensing is turned ON (step S10). ) After stopping the nearest floor, the elevator is stopped (step S11).
Further, when it is detected in step S9 that the actual shaking of the building is less than the set value, the process proceeds to step S12, and it is determined whether or not 3 minutes have passed since the predicted earthquake arrival time in the area. In addition, when the low-sensing seismometer 22 operates and the operation contact 23 is turned on, it is a matter of course that the elevator is stopped after the nearest floor stop as in step S11. If the elevator control panel 8 does not have an input circuit for the P-wave signal terminal 24, if 3 minutes have passed in step S12, reset the earthquake-controlled operation of the acceleration sensor 13 to return to normal operation. The contact 16 is turned on (step S13), and the elevator is returned to normal operation (step S7).

Embodiment 1 FIG.
FIG. 5 is a perspective view of the installation location of the mobile phone terminal that receives the earthquake early warning used in the elevator control apparatus according to Embodiment 1 of the present invention, as viewed from the front of the landing.

  In FIG. 5, reference numeral 30 denotes an elevator landing door. Here, a landing door on the top floor or upper floor is assumed because it is a place where radio waves from a mobile phone can easily pass. Reference numeral 31 denotes a hall information display device installed in the vicinity of the hall door 30 on the uppermost floor or the upper floor, and displays hall information including image information such as earthquake information and security cameras on the display surface 31a. Reference numeral 10 denotes a mobile phone terminal which is an emergency earthquake warning receiving terminal installed in the hall information display device 31 and includes a built-in antenna portion. And what is necessary is just to connect the mobile telephone terminal 10 containing an antenna part to the control interface 11 of the control terminal 12, etc. which are installed in another place where radio waves do not reach, etc. by radio or wire.

  In machine room-less elevators, there are often no places where radio waves can be transmitted and received stably, and there is a problem that radio waves cannot be reliably received. For this reason, there is a concern that the earthquake early warning cannot be received. However, as described above, the mobile phone terminal 10 that is an emergency earthquake bulletin receiving terminal is placed in the hall information display device 31 that is installed in the vicinity of the hall door 30 on the top floor or the upper floor where the radio waves of the mobile phone can easily pass. Since the antenna unit and the antenna unit are installed, it can be installed without impairing the design, and the sensitivity of radio wave transmission / reception can be improved.

1 is a system configuration diagram showing the overall configuration of an elevator control device that is the basis of the present invention. 1 is a connection circuit diagram showing a configuration of a main part of an elevator control device as a premise of the present invention. It is explanatory drawing for demonstrating the time effect of an earthquake early warning. It is a flowchart for demonstrating the control operation operation at the time of an earthquake of the control apparatus of the elevator used as the foundation of this invention. It is the perspective view which looked at the installation place of the mobile telephone terminal which receives the earthquake early warning used for the control apparatus of the elevator in Embodiment 1 of this invention from the landing side front.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Meteorological Agency emergency earthquake report network 2 Seismometer 3 Japan Meteorological Agency 4 Mobile phone company 5 Base station 6 Emergency earthquake warning by mobile phone company 7 Elevator installation site 8 Elevator control panel 9 Seismometer 10 Mobile phone terminal 11 Control interface 12 Control terminal 13 Acceleration sensor 14 Speed signal output contact 15 Acceleration sensor operation contact 16 Reset contact 17-19 Output terminal 20 P-wave sensor 21 Operation contact 22 Low-sensing seismometer 23 Operation contact 24 P-wave signal terminal 25, 27, 29 Signal line 26 Low-sensing seismometer Signal terminal 28 Seismic control reset terminal 30 Top floor or upper floor landing door 31 Platform information display device

Claims (4)

A mobile phone terminal that is installed in a building where an elevator is installed and receives an earthquake early warning distributed from a base station in a region where a large earthquake is expected to be distributed to a mobile phone in the region, a P-wave signal terminal, An elevator control panel having a sensing seismometer signal terminal; a control terminal having a control interface configured to be connectable to the mobile phone terminal; an acceleration sensor provided in the control terminal for detecting actual shaking of the building ; Provided in the control terminal, the signal output of the emergency earthquake warning signal received by the mobile phone terminal for outputting the predicted earthquake signal arrival time + first predetermined time in the area, and the output terminal for the warning signal output, provided in the control terminal, and a acceleration sensor operating contacts and the output terminal for outputting when the acceleration sensor detects an actual shaking, the mobile phone When end receives the earthquake early warning in the region, the earthquake early warning signal output from the mobile telephone terminal inputs to the P-wave signal terminal of the elevator control panel, after the nearest floor stop elevator and shutdown If the first predetermined time has elapsed from the predicted arrival time of the earthquake in the area, the elevator is returned to normal operation, and the acceleration sensor detects the actual shaking of the building and it is above the set value. The output of the acceleration sensor is input to the low-sensing seismometer signal terminal of the elevator control panel, the elevator stops operation after the nearest floor stop, and the actual building shake detected by the acceleration sensor is a set value. when a which was less than, if the second predetermined time than the earthquake predicted arrival time of the local has elapsed, the control device for an elevator that performs a seismic control operation for returning the elevator to the normal operation Stomach,
Built-in mobile phone terminal, including its antenna part, that receives earthquake early warnings distributed to mobile phones in the hall information display device installed on the top floor or upper floor where mobile phone radio waves are easy to pass An elevator control device, wherein the elevator control device is installed and connected to a control interface of the control terminal installed in another place where radio waves do not reach . A mobile phone terminal that is installed in a building where an elevator is installed and receives an earthquake early warning distributed from a base station in a region where a large earthquake is expected to be distributed to a mobile phone in the region, a P-wave signal terminal, An elevator control panel having a sensing seismometer signal terminal; a P-wave sensor connected to a P-wave signal terminal of the elevator control panel; and a low-sensing seismometer connected to a low-sensing seismometer signal terminal of the elevator control panel ; , A control terminal having a control interface configured to be connectable to the mobile phone terminal, and provided in the control terminal, operates when detecting actual shaking of the building, and continues the operation suspension state of the control operation during the earthquake an acceleration sensor, provided on the control terminal, between the portable telephone terminal earthquake predicted arrival time of the local signal output of the earthquake early warning received + first predetermined time And Breaking signal output contacts and the output terminal for outputting, provided in the control terminal, and a acceleration sensor operating contacts and the output terminal for outputting when the acceleration sensor detects an actual shaking, the portable telephone terminal is the When the earthquake early warning in the area is received, the emergency earthquake warning signal output from the mobile phone terminal or the output of the P wave sensor , whichever is earlier , is input to the P wave signal terminal of the elevator control panel, and the elevator If the first predetermined time has elapsed from the estimated earthquake arrival time in the area, the elevator is returned to normal operation, and the acceleration sensor causes the actual building to shake. When it is detected and it is equal to or higher than a set value, the output of the acceleration sensor is input to the low-sensing seismometer signal terminal of the elevator control panel, or the low-sensing When the seismometer detects shaking, it inputs to the low-sensing seismometer signal terminal of the elevator control panel and stops the elevator after stopping the nearest floor, and the actual building shaking detected by the acceleration sensor is the set value If the second predetermined time has elapsed from the estimated earthquake arrival time in the area, the control device for the elevator that performs the earthquake control operation to return the elevator to the normal operation ,
Built-in mobile phone terminal, including its antenna part, that receives earthquake early warnings distributed to mobile phones in the hall information display device installed on the top floor or upper floor where mobile phone radio waves are easy to pass An elevator control device, wherein the elevator control device is installed and connected to a control interface of the control terminal installed in another place where radio waves do not reach . A mobile phone terminal that is installed in a building where an elevator is installed and receives an earthquake early warning distributed from a base station in a region where a large earthquake is expected to be distributed to a mobile phone in the region , a P-wave signal terminal, An elevator control panel having a sensing seismometer signal terminal, a low sensing seismometer connected to a low sensing seismometer signal terminal of the elevator control panel, and a control terminal having a control interface configured to be connectable to the mobile phone terminal And an acceleration sensor that is provided in the control terminal and detects actual shaking of the building, and an emergency earthquake warning signal output that is provided in the control terminal and received by the mobile phone terminal When the acceleration sensor detects an actual shake provided in the control terminal and the preliminary signal output contact and its output terminal that output during the first predetermined time A acceleration sensor operating contacts and the output terminal for outputting the mobile when the telephone terminal receives the earthquake early warning in the region, the mobile phone P-wave earthquake early warning signal output of the elevator control panel from the terminal Input to the signal terminal, stop the elevator after stopping the nearest floor, stop the operation, and if the first predetermined time has elapsed from the predicted arrival time of the earthquake in the area, return the elevator to the normal operation, and the acceleration sensor When an actual building shake is detected and it exceeds the set value, the output of the acceleration sensor is input to the low-sensing seismometer signal terminal of the elevator control panel, or the low-sensing seismometer is shaken. When it is detected, it is input to the low-sensing seismometer signal terminal of the elevator control panel, the elevator is stopped at the nearest floor, the operation is stopped, and the actual building shake detected by the acceleration sensor is detected. When There was less than a set value, if the second predetermined time from the seismic predicted arrival time of the local has elapsed, the control device for an elevator that performs a seismic control operation for returning the elevator to the normal operation,
In the hall information display device installed in the hall on the top floor or upper floor where the radio wave of the mobile phone is easy to pass, the mobile phone terminal that receives the earthquake early warning distributed to the mobile phone, including its antenna part A control apparatus for an elevator characterized in that the mobile phone terminal including the antenna unit is connected to a control interface of the control terminal installed in another place where radio waves do not reach . The elevator control device according to any one of claims 1 to 3 , wherein the elevator control device is applied to a machine room-less elevator where there are few places where radio waves can be stably transmitted and received.

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