CN104169204A - Elevator system - Google Patents

Abstract

An elevator system is provided with the following: an earthquake detector (7), a disaster report device (11), a control device (8), a disaster information analysis means (13), and an evacuation control notification means (14). The earthquake sensor (7) detects the occurrence of an earthquake. The disaster report device (11) receives from the outside disaster information. The control device (8) controls the operation of the elevator. After the occurrence of an earthquake is detected by the earthquake sensor (7), the disaster information analysis means (13) determines the waiting floor for an elevator carriage (3) on the basis of the disaster information received by the disaster report device (11). The evacuation control notification means (14) transmits to the control device (8) a command for causing the carriage (3) to move to the waiting floor determined by the disaster information analysis means (13).

Description

Elevator device

Technical field

The present invention relates to elevator device.

Background technology

In patent documentation 1～3, proposed using elevator the personnel in building to be directed to the system of determined location after the earthquake.

In the system of recording at patent documentation 1, use elevator and escalator that the personnel in building are evacuated.Escalator moves the personnel in building are directed to the mode of the floor of taking refuge of regulation.Elevator is at the reciprocating operation between floor and the floor at outlet place of taking refuge.

Librarian use elevator in the system judgement building that patent documentation 2 is recorded is evacuated and be used emergency staircase to evacuate.If use emergency staircase to evacuate as early as possible, show this information at telltale.

In the system of recording at patent documentation 3, when building soaks, make lift car advance to top floor.

Technical literature formerly

Patent documentation

Patent documentation 1: TOHKEMY 2011-190048 communique

Patent documentation 2: TOHKEMY 2011-126614 communique

Patent documentation 3: Japanese kokai publication hei 9-40315 communique

Summary of the invention

The problem that invention will solve

When earthquake occurs, due in littoral region, can occur tsunami or due at mountain stream because landslide is spread unchecked, cause sometimes a large amount of water to flow into urban district.The personnel that are positioned at building must judge and are dispersed into building outside or are dispersed on the roof of building.But the personnel that are positioned at building can not accurately grasp the situation of building outside, can not carry out appropriate judgement.

Even the system that patent documentation 1～3 is recorded also cannot address this is that.

The present invention proposes in order to address the above problem just, and its object is, a kind of elevator device is provided, and when earthquake occurs, can the personnel in building be evacuated rightly according to the situation of building outside.

For the means of dealing with problems

Elevator device of the present invention has: earthquake detector, and it detects the generation of earthquake; Disaster notifying device, it receives disaster information from outside; Control setup, it controls the operation of elevator; Disaster information analytic unit, it is being detected according to disaster notifying device the disaster information receiving after the generation of earthquake by earthquake detector, determine the standby floor of the car of elevator; And the control issuance unit of taking refuge, it sends the instruction of the standby floor for car being moved to determined by disaster information analytic unit to control setup.

Invention effect

In elevator device of the present invention, after the earthquake, can the personnel in building be evacuated rightly according to the situation of building outside.

Accompanying drawing explanation

Fig. 1 is the figure of structure that the elevator device of embodiments of the present invention 1 is shown.

Fig. 2 is the figure for the function of devices illustrated information recording unit.

Fig. 3 is the figure for the function of devices illustrated information recording unit.

Fig. 4 is the diagram of circuit of action that the elevator device of embodiments of the present invention 1 is shown.

Fig. 5 is the diagram of circuit of action that the elevator device of embodiments of the present invention 2 is shown.

The specific embodiment

The embodiment that present invention will be described in detail with reference to the accompanying.In addition, in each accompanying drawing, identical or suitable part is marked to identical label, and suitably simplify or omit its repeat specification.

Embodiment 1

Fig. 1 is the figure of structure that the elevator device of embodiments of the present invention 1 is shown.

In Fig. 1,1 represents the hoistway of elevator, and 2 represent the stop of elevator, and 3 represent the car of elevator.Hoistway 1 forms each floor that runs through building.Stop 2 is located at each floor of building.In Fig. 1, as one, the stop 2 of top layer and the stop 2 of pinao nobile have been exemplified.Pinao nobile is for example the floor that people can pass in and out building.At stop 2, be provided with landing button 4.Landing button 4 is that the user of being convenient to elevator registers the button that landing call is used.

Car 3 is in the interior lifting of hoistway 1.Car 3 for example has cage, car door, door drive and cage operating panel 5.Cage operating panel 5 is devices that the user of confession elevator operates in car 3.Cage operating panel 5 for example has the destination button (not shown) of each floor of car 3 stops.

In hoistway 1, except car 3, be also provided with guide rail, main rope, speed controller rope, counterweight, energy disperser and immersion sensor 6.

Immersion sensor 6 is for example located at the bottom of hoistway 1.Immersion sensor 6 detects the situation that water immerses (immersion of hoistway 1) in hoistway 1.Also can a plurality of immersion sensors 6 be set hoistway 1 is interior.For example,, at a plurality of height and positions place configuration immersion sensor 6.In this case, according to detect immersion immersion sensor 6 height is set, can detect the immersion degree of hoistway 1.

7 represent earthquake detector.Earthquake detector 7 is for example arranged on the top of building.Earthquake detector 7 also can be configured in the top of hoistway 1.When in the situation that hoistway 1 above be provided with the machine room of elevator, also earthquake detector 7 can be configured in machine room.Earthquake detector 7 detects the generation of earthquake according to a plurality of grades.Earthquake detector 7, when the generation that detects earthquake, is exported the earthquake information corresponding with detected grade of rocking.

For example, earthquake detector 7 detects the initial stage fine motion (P ripple) of earthquake.Earthquake detector 7 is when detecting the P ripple of earthquake, and output P ripple detects information.And earthquake detector 7 detects the principal earthquake (S ripple) of earthquake.Earthquake detector 7 is when detecting the S ripple of earthquake, and output S ripple detects information.Earthquake detector 7 also can detect according to a plurality of grades the S ripple of earthquake.

8 represent the control setup of elevator.Control setup 8 is for example located at the inside of hoistway 1.When in the situation that hoistway 1 above be provided with the machine room of elevator, also control setup 8 can be configured in machine room.Control setup 8 is controlled the operation of elevator.Control setup 8 is controlled common running and the controlled operation of elevator according to various input messages.

Control setup 8 is connected with landing button 4 and the earthquake detector 7 of each floor by order wire.When earthquake detector 7 detects the P ripple of earthquake, control setup 8 receives P ripple from earthquake detector 7 and detects information.When earthquake detector 7 detects the S ripple of earthquake, control setup 8 receives S ripple from earthquake detector 7 and detects information.Control setup 8 when receiving S ripple from earthquake detector 7 and detect information, controlled operation during Earthquake occurrence control.When starting earthquake, during controlled operation, car 3 is stopped in nearest floor, and the action of opening the door.

Control setup 8 is connected with car 3 (door drive, cage operating panel 5 etc.) by controlling cable 9.

Refuge assistant apparatus 10 is the devices of supporting being positioned at the personnel's of building evacuation for when disaster occurs.Refuge assistant apparatus 10 is connected with earthquake detector 7, control setup 8 and immersion sensor 6.And refuge assistant apparatus 10 is connected with central monitoring position 12 with outside disaster notifying device 11.

Disaster notifying device 11 receives disaster information from outside.Disaster information is when disaster occurs or the information sending while likely there is disaster.Disaster notifying device 11 is when receiving disaster information, and the disaster information that this is received (or corresponding information) sends to refuge assistant apparatus 10.Disaster notifying device 11 is such as obtaining disaster information from vision receiver or radio receiver, relevant departments etc.Disaster information comprises the type of occurred disaster, the disaster-stricken scale of expectation (disaster grade).The type of disaster for example has earthquake, tsunami, typhoon, thunderstorm, flood, landslide.Disaster grade for example has alarm, early warning.

Central monitoring position 12 is for the equipment at telemonitoring elevator.

Refuge assistant apparatus 10 for example has disaster information analytic unit 13, take refuge control issuance unit 14, facility information record cell 15 and facility information are accumulated unit 16.

Disaster information analytic unit 13 has the function of analyzing various information.Disaster information analytic unit 13, according to analysis result, makes other unit or installs the action that elevator is stipulated or the notice of stipulating to outside.

Disaster information analytic unit 13 is connected with disaster notifying device 11 with earthquake detector 7, control setup 8, immersion sensor 6 by order wire.Disaster information analytic unit 13 is connected with facility information record cell 15 with the control issuance unit 14 of taking refuge in the inside of refuge assistant apparatus 10.

When earthquake detector 7 detects the P ripple of earthquake, disaster information analytic unit 13 receives P ripple from earthquake detector 7 and detects information.Disaster information analytic unit 13, when receiving P ripple detection information from earthquake detector 7, is regularly obtained the information (facility information) relevant to the state of elevator (forming each equipment of elevator) from control setup 8.Disaster information analytic unit 13, when having obtained the facility information of elevator from control setup 8, is exported to facility information record cell 15 using obtained facility information as the information of initial fine motion state.

When earthquake detector 7 detects the S ripple of earthquake, disaster information analytic unit 13 receives S ripple from earthquake detector 7 and detects information.And disaster information analytic unit 13 receives disaster information from disaster notifying device 11.When disaster information analytic unit 13 receives again the disaster information of regulation after receiving S ripple detection information, from control setup 8, obtain the facility information of elevator.Disaster information analytic unit 13, when having obtained the facility information of elevator from control setup 8, is exported to facility information record cell 15 using obtained facility information as the information of principal earthquake generation state.And, when disaster information analytic unit 13 receives the disaster information of regulation after receiving S ripple detection information, according to the disaster information receiving, to taking refuge, control the operating order of issuance unit 14 output needles to control setup 8.

The control issuance unit 14 of taking refuge has makes control setup 8 take refuge by the function of action (action of taking refuge) under defined terms.The control issuance unit 14 of taking refuge is connected with immersion sensor 6 with control setup 8.The control issuance unit 14 of taking refuge is connected with disaster information analytic unit 13 in the inside of refuge assistant apparatus 10.

Take refuge and control issuance unit 14 when receiving operating order from disaster information analytic unit 13, according to the operating order receiving to control setup 8 sending controling instructions.Control setup 8, when receiving control command from the control issuance unit 14 of taking refuge, is controlled necessary operation (action of taking refuge) according to the control command receiving, to make the evacuating personnel in building.

Take refuge and control issuance unit 14 when having moved based on taking refuge of control setup 8, by disaster information analytic unit 13, to facility information record cell 15, send and represent to take refuge action completed information (completing information).

Facility information record cell 15 has the function of the facility information of management elevator.Facility information record cell 15 is connected with central monitoring position 12.Facility information record cell 15 is accumulated unit 16 in the inside of refuge assistant apparatus 10 with disaster information analytic unit 13 and facility information and is connected.

During the facility information of facility information record cell 15 when receiving earthquake detector 7 from disaster information analytic unit 13 and detect the P ripple of earthquake, the information that this is received is recorded in facility information as the facility information of initial fine motion state and accumulates in unit 16.During the facility information of facility information record cell 15 when receiving earthquake detector 7 from disaster information analytic unit 13 and detect the S ripple of earthquake, the information that this is received is recorded in facility information as the facility information of principal earthquake generation state and accumulates in unit 16.

Facility information record cell 15 sends to central monitoring position 12 by being accumulated in the facility information that facility information accumulates in unit 16 under defined terms.Thus, can be accumulated in facility information and accumulate the information in unit 16 long-range the reading of central monitoring position 12.

About being stored in facility information explicitly with time information, the information of the state of each equipment of elevator accumulates in unit 16.Facility information is accumulated unit 16 and for example the memory device in refuge assistant apparatus 10, is consisted of.

In having the elevator device of said structure, earthquake detector 7, according to the inquiry that carrys out self-control device 8, sends to control setup 8 by current testing result (state that building rocks).And earthquake detector 7, according to the inquiry from disaster information analytic unit 13, sends to disaster information analytic unit 13 by current testing result.

The action of each equipment that control setup 8 management elevators possess.Control setup 8 regularly calculates the current operative condition of (determining) elevator, to carry out operation management.Control setup 8 is inquired current vibrating state in order to calculate operative condition to earthquake detector 7.Control setup 8, when receiving current vibrating state from earthquake detector 7, calculates current operative condition according to the information receiving.

About operative condition, there are common state, initial fine motion state and principal earthquake generation state.For example, if earthquake detector 7 detects the P ripple of earthquake but do not detect S ripple, to be calculated as current operative condition be initial fine motion state to control setup 8.If earthquake detector 7 detects the S ripple of earthquake, to be calculated as current operative condition be principal earthquake generation state to control setup 8.If earthquake detector 7 does not detect P ripple and the S ripple both sides of earthquake, to be calculated as current operative condition be common state to control setup 8.Control setup 8 is when calculating current operative condition, and the information that this is calculated sends to disaster information analytic unit 13.

Disaster information analytic unit 13, according to the operative condition being calculated by control setup 8, determines whether and accumulates facility information (for example, various control data).Disaster information analytic unit 13 carries out necessary control according to this result of determination.

For example, if current operative condition is common state, disaster information analytic unit 13 is judged to be and does not carry out accumulating of facility information.If current operative condition is initial fine motion state, disaster information analytic unit 13 is judged to be and facility information is accumulated in to facility information accumulates in unit 16.In this case, disaster information analytic unit 13 sends the facility information of obtaining from control setup 8 and represents that this facility information is the information of the information of initial fine motion state to facility information record cell 15.If current operative condition is principal earthquake generation state, disaster information analytic unit 13 is judged to be and facility information is accumulated in to facility information accumulates in unit 16.In this case, disaster information analytic unit 13 sends the facility information of obtaining from control setup 8 and represents that this facility information is the information of the information of principal earthquake generation state to facility information record cell 15.

For example, in the situation that current operative condition is common state and is initial fine motion state from principal earthquake generation state-transition from principal earthquake generation state-transition, disaster information analytic unit 13 is controlled the operating order of issuance unit 14 output needles to control setup 8 to taking refuge.

Below, also together with reference to Fig. 2 and Fig. 3, describe the function of facility information record cell 15 in detail.

Fig. 2 and Fig. 3 are the figure for the function of devices illustrated information recording unit.Disaster information analytic unit 13 sends to facility information record cell 15 by the facility information of obtaining from control setup 8 together with representing the information of operative condition.Facility information record cell 15 is converted to event information by the information obtaining from disaster information analytic unit 13 (information of indication equipment information/operative condition).Event information is the information that the form stipulated represents event within a certain period of time.

Speed when Fig. 2 illustrates car 3 and moves from from certain floor to other floor and the relation between the time.In the situation that rest against the car 3 of certain floor, to other floor, move, the speed of car 3 according to 0 (stopping), rising, constant, decline, the order of 0 (stopping) changes.The situation that consideration was divided this motion of car 3 with the unit time.Control setup 8 is exported for controlling the various signals of car 3 in each time period.

For example, time period t 01 represents that car 3 rests against stop 2 state in waiting Passengen of certain floor.In time period t 01, control setup 8 outputs are opened the door, car stops, elevator hall's indicator lamp is lighted these signals for controlling.Time period t 02 represents to finish the state of waiting Passengen.In time period t 02, control setup 8 outputs are opened the door, car stops, elevator hall's indicator lamp extinguishes these signals for controlling.

Time period t 03 represents to carry out the state of advancing and preparing of car 3.In time period t 03, control setup 8 outputs are closed the door, car stops these signals for controlling.Time period t 04 represents the state that car 3 is advanced to other floor.In time period t 04, control setup 8 output is closed the door, these signals for controlling of car running, speed rising.

Following table 1 represents the main signal that control setup 8 sends and receives.

[table 1]

Control instruction	Value (position)
		The instruction of opening the door	1
The instruction of closing the door	2
		Car running instruction	3
Car halt instruction	4
		Speed rising instruction	5
Speed decline instruction	6
		Lamp is lighted instruction	7
Lamp extinguishes instruction	8
		Landing button is lighted instruction	9
Landing button extinguishes instruction	10
		Elevator hall's indicator lamp is lighted instruction	11
Elevator hall's indicator lamp extinguishes instruction	12
		Obtain car weight	13
Obtain car position	14
		Obtain a state	15

Disaster information analytic unit 13 is obtained from the control of control setup 8 outputs and is used signal as controlling data.Each is controlled to data and give the numbering corresponding with bit string.For example, open the door instruction be endowed numbering 1.This expression instruction of opening the door is assigned to the 1st (bit).The instruction of extinguishing of landing button 4 is endowed numbering 10.Therefore, the instruction of extinguishing of landing button 4 is assigned to the 10th.

Facility information record cell 15 generates the event information of each time period marking off according to the control data that receive.Fig. 3 shows the conversion example to event information.For example, facility information record cell 15 is according to producing whole control data of (receiving), the event information of rise time section t02 in time period t 02.Event information for example can be expressed as 16 or 32 s' numerical value.In the example shown in Fig. 3, operative condition is assigned as to the 0th.If the 0th is " 0 ", the operative condition that represents this time period is initial fine motion state.If the 0th is " 1 ", the operative condition that represents this time period is principal earthquake generation state.

Below, also with reference to Fig. 4, illustrate the action of the elevator device with said structure.Fig. 4 is the diagram of circuit of action that the elevator device of embodiments of the present invention 1 is shown.

In refuge assistant apparatus 10, first carry out initial setting (S001).Facility information record cell 15 is accumulated unit 16 initialization by facility information.Thus, at facility information, accumulate the old event information (information of indication equipment information (control data)/operative condition) of accumulating in unit 16 deleted.

Control setup 8 is according to calculating current operative condition from the information of earthquake detector 7.Control setup 8 sends to disaster information analytic unit 13 by the operative condition calculating.In the situation that earthquake detector 7 does not detect earthquake (S002: no), refuge assistant apparatus 10 is not implemented special processing.That is,, if current operative condition is common state, by control setup 8, control running conventionally.

When earthquake detector 7 detects earthquake (S002: be), disaster information analytic unit 13 is obtained and is represented that current operative condition is the information of initial fine motion state or the information that represents to occur principal earthquake from control setup 8.While detecting the P ripple of earthquake by earthquake detector 7 before S ripple in earthquake arrives (S003: no), disaster information analytic unit 13 is obtained and is represented that current operative condition is the information of initial fine motion state from control setup 8.In this case, disaster information analytic unit 13 is obtained current control data from control setup 8.The information that disaster information analytic unit 13 is initial fine motion state by obtained control data and the current operative condition of expression sends to facility information record cell 15.

Facility information record cell 15, according to the information obtaining from disaster information analytic unit 13, generates the information (event information) that the event of time per unit is shown by bit string.Now, facility information record cell 15 adopts " 0 " that represents initial fine motion state as the value of the 0th.Facility information record cell 15 sends to facility information to accumulate unit 16 generated event information.Facility information is accumulated unit 16 and when facility information record cell 15 receives event information, is being stored received event information (S004).

Facility information record cell 15, when receiving whole control data from disaster information analytic unit 13, sends to central monitoring position 12 (S005) by the data that are recorded in facility information and accumulate unit 16.When finishing, the processing of S005 returns to the processing of S002.

When the S of earthquake ripple arrives, by earthquake detector 7, detected the S ripple (S003: be) of earthquake.When detecting the S ripple of earthquake by earthquake detector 7, controlled operation during control setup 8 Earthquake occurrence control (S006).

In addition, when detecting the S ripple of earthquake by earthquake detector 7, disaster information analytic unit 13 receives and represents that current operative condition is the information of principal earthquake generation state from control setup 8.By earthquake detector 7, detected after the S ripple of earthquake, disaster information analytic unit 13 determines whether from disaster notifying device 11 and has received disaster information.Disaster information analytic unit 13 especially determines whether from disaster notifying device 11 and has received tsunami information (S007).

In the situation that having received disaster information from disaster notifying device 11, if the type of disaster is that tsunami, disaster grade are alarms, disaster information analytic unit 13 is judged to be generation seismic sea wave warning.Disaster information analytic unit 13, when receiving seismic sea wave warning from disaster notifying device 11 (S007: be), is obtained current control data from control setup 8.The information that disaster information analytic unit 13 is principal earthquake generation state by obtained control data and the current operative condition of expression sends to facility information record cell 15.

Facility information record cell 15, according to the information obtaining from disaster information analytic unit 13, generates the information (event information) that the event of time per unit is shown by bit string.Now, facility information record cell 15 adopts " 1 " that represents principal earthquake generation states as the value of the 0th.Facility information record cell 15 sends to facility information to accumulate unit 16 generated event information.Facility information is accumulated unit 16 and when facility information record cell 15 receives event information, is being stored received event information (S008).

In addition, in the judgement of S007, can be also in the situation that receiving tsunami early warning information, to enter the processing of S008.In addition, as described above, can be also in the situation that receiving tsunami early warning information, do not enter the processing of S008.

Disaster information analytic unit 13, when receiving seismic sea wave warning from disaster notifying device 11, determines to make the floor (standby floor) of car 3 standby in building.For example, disaster information analytic unit 13 determines the standby floor of car 3 according to the testing result of immersion sensor 6.In this case, disaster information analytic unit 13, when receiving seismic sea wave warning from disaster notifying device 11, is obtained current testing result from immersion sensor 6.Disaster information analytic unit 13, according to the testing result of obtained immersion sensor 6, judges whether water is immersed in hoistway 1 (S009).Disaster information analytic unit 13 determines best standby floor according to the result of determination in S009.

The in the situation that of in water does not immerse hoistway 1 (S009: no), disaster information analytic unit 13 determines to be the standby floor of car 3 by the pinao nobile of building.The standby floor that the control issuance unit 14 of taking refuge determines according to disaster information analytic unit 13 is to control setup 8 sending controling instructions.For example, if water does not immerse in hoistway 1, take refuge and control issuance unit 14 and send for making car 3 move to the instruction of pinao nobile (standby floor) and then making car 3 carry out the instruction of the through running between the generation floor of pinao nobile and landing call to control setup 8.

Control setup 8, when receiving above-mentioned control command from the control issuance unit 14 of taking refuge, first makes car 3 to pinao nobile running (S010).Then, when stop 2 landing buttons 4 at certain floor are pressed, produce landing call (S011: be).Control setup 8 makes car 3 move to the floor that has produced landing call.When car 3 moves to the generation floor of landing call, control setup 8 makes to open the door/close the door, to passenger is taken advantage of in car 3.Then, control setup 8 carries out the through running from this floor to pinao nobile.Now, making can not be from cage operating panel 5 registration car call.

Afterwards, when having registered landing call, again implement for passenger being transported to the through running of pinao nobile.

On the other hand, the in the situation that of in water immerses hoistway 1 (S009: be), disaster information analytic unit 13 determines to be the standby floor of car 3 by the top layer of building.In this case, take refuge and control issuance unit 14 and send for making car 3 move to the instruction of top layer (standby floor) and then making car 3 carry out the instruction of the through running between the generation floor of top layer and landing call to control setup 8.

Control setup 8, when receiving above-mentioned control command from the control issuance unit 14 of taking refuge, first makes car 3 to top layer running (S012).Then, when stop 2 landing buttons 4 at certain floor are pressed, produce landing call (S013: be).Control setup 8 makes car 3 move to the floor that has produced landing call.When car 3 moves to the generation floor of landing call, control setup 8 makes to open the door/close the door, to passenger is taken advantage of in car 3.Then, control setup 8 carries out the through running from this floor to top layer.Now, making can not be from cage operating panel 5 registration car call.

Afterwards, when having registered landing call, again implement for passenger being transported to the through running of top layer.

If at which floor landing button 4 be not all pressed, do not produce landing call (S011: not no, or S013: no).In this case, facility information record cell 15 sends to central monitoring position 12 (S014) by the data that are recorded in facility information and accumulate unit 16.When finishing, the processing of S014 returns to the processing of S002.

In addition, the processing of above-mentioned S009 also can be controlled by taking refuge issuance unit 14 execution.

In addition, the information that also can consider to soak beyond the testing result of sensor 6 is carried out the decision of standby floor.When be provided with a plurality of immersion sensor 6 in hoistway 1 in the situation that, also can carry out according to the immersion degree of hoistway 1 decision of standby floor.

If there is the elevator device of said structure,, when earthquake occurs, can the personnel in building suitably be evacuated according to the situation of building outside.For example,, if above-mentioned elevator device, before the floods that cause due to earthquake are about to occur or after just having occurred, can suitably be directed to the personnel in building the outside of building.If after floods occur, can suitably the personnel in building be directed to top layer and/or the roof of building.That is, can implement the suitable refuge guide corresponding with the situation of disaster.

Embodiment 2

In the present embodiment, the supvr who elevator is described is stored in from collected outside the situation that facility information is accumulated the information unit 16.The structure of the elevator device of present embodiment is identical with the structure shown in Fig. 1.

Below, also with reference to Fig. 5, illustrate the action of elevator device.Fig. 5 is the diagram of circuit of action that the elevator device of embodiments of the present invention 2 is shown.

Central monitoring position 12 to refuge assistant apparatus 10 send for obtain relevant elevator information request (obtaining request) (S101).The request of obtaining comprises the information of the time period that for example expectation obtains and the information of operative condition.

In refuge assistant apparatus 10, the request that obtains (S102) that disaster information analytic unit 13 is waited for from central monitoring position 12.Disaster information analytic unit 13 is obtained when request receiving from central monitoring position 12, this is obtained to request and export to facility information record cell 15.

Facility information record cell 15 is obtained when request receiving from disaster information analytic unit 13, judges at facility information to accumulate in unit 16, whether there is requested information (S103).When accumulate (S103: be) there is requested information in unit 16 in the situation that at facility information, facility information record cell 15 is accumulated unit 16 from facility information and is obtained corresponding information.Facility information record cell 15 sends to central monitoring position 12 (S104) by the information obtaining.

On the other hand, when accumulate (S103: no) there is no requested information in unit 16 in the situation that at facility information, facility information record cell 15 sends mis-informations (S105) to central monitoring position 12.

If have the elevator device of said structure, the supvr of elevator can obtain from outside and be stored in facility information and accumulate the information unit 16.Therefore, supvr can grasp replacing period etc. of equipment according to obtained information.

Utilizability in industry

Elevator device of the present invention can be applied to have the elevator device of earthquake detector.

Label declaration

1 hoistway; 2 stops; 3 cars; 4 landing buttons; 5 cage operating panels; 6 immersion sensors; 7 earthquake detectors; 8 control setups; 9 control cable; 10 refuge assistant apparatus; 11 disaster notifying devices; 12 central monitoring positions; 13 disaster information analytic units; The 14 control issuance unit of taking refuge; 15 facility information record cells; 16 facility informations are accumulated unit.

Claims (8)

1. an elevator device, this elevator device has:

Earthquake detector, it detects the generation of earthquake;

Disaster notifying device, it receives disaster information from outside;

Control setup, it controls the operation of elevator;

Disaster information analytic unit, it is being detected according to described disaster notifying device the disaster information receiving after the generation of earthquake by described earthquake detector, determine the standby floor of the car of elevator; And

The control issuance unit of taking refuge, it sends for making described car move to the instruction of the standby floor being determined by described disaster information analytic unit to described control setup.

2. elevator device according to claim 1, wherein,

Described taking refuge controlled issuance unit and sent for carrying out the instruction of following running to described control setup: at described car, move to after standby floor, make described car carry out the through running between the generation floor of standby floor and landing call.

3. elevator device according to claim 1 and 2, wherein,

Described earthquake detector detects the S ripple of earthquake,

When described disaster notifying device receives seismic sea wave warning after the S ripple that is detected earthquake by described earthquake detector, described disaster information analytic unit determines the standby floor of described car.

4. elevator device according to claim 3, wherein,

Described elevator device has the immersion sensor detecting in water immersion elevator hoistways,

When described disaster notifying device, in the situation that receive seismic sea wave warning detected the S ripple of earthquake by described earthquake detector after, described disaster information analytic unit, according to the testing result of described immersion sensor, determines the standby floor of described car.

5. elevator device according to claim 4, wherein,

When described disaster notifying device in the situation that receive seismic sea wave warning detected the S ripple of earthquake by described earthquake detector after, if detecting water, described immersion sensor do not immerse in hoistway, described disaster information analytic unit determines to be the floor of taking refuge of described car by the pinao nobile of regulation, if described immersion sensor detects water, immerse in hoistway, described disaster information analytic unit determines to be the floor of taking refuge of described car by top layer.

6. according to the elevator device described in any one in claim 1～5, wherein,

Described elevator device has the facility information record cell in unit of accumulating that the facility information of elevator is recorded in to regulation,

Described earthquake detector detects the P ripple of earthquake,

When described earthquake detector detects the P ripple of earthquake, described disaster information analytic unit is obtained the facility information of elevator from described control setup,

Described facility information record cell is accumulated in unit described in the facility information of being obtained by described disaster information analytic unit is recorded in.

7. elevator device according to claim 6, wherein,

Described facility information record cell sends to outside central monitoring position by the facility information of accumulating in unit described in being recorded in.

8. according to the elevator device described in claim 6 or 7, wherein,

Described facility information record cell receives when request obtained of regulation at the central monitoring position from outside, and described accumulating sent to described central monitoring position with described information corresponding to request that obtains in the information of accumulating unit.