CN103043510B - Elevator control device - Google Patents

Abstract

The invention provides an elevator control device capable of moving by utilizing power capacity of a storage battery effectively in power failure without reducing convenience for passengers. The elevator control device is provided with the storage battery (13) driving the elevator in power failure; a power switch unit (15) switching the elevator driving power source to the storage battery (13) when the power failure is detected, a monitoring device (16) monitoring abnormities of the elevator and reporting the abnormities to a display device (8) arranged in a lift cable or a floor station. The elevator control device is provided with a plurality of dispatching mode storing parts (21A) prohibiting calling in a predetermined time after responding the calling of the elevator when the power switching unit (15) is switched to the power source based on storage batteries (13, 14) and an elevator operation calculating part (24) for elevator stop interval stored in the dispatching mode storing parts (21A) according to time data including power failure occurring time.

Description

Elevator control gear

Technical field

The present invention relates to elevator control gear, be particularly suitable for the elevator control gear that elevator when having a power failure runs.

Background technology

When disclosing generation power failure in the building being provided with elevator, the driving power of elevator is switched to the storage battery arranged in the land used of building, and make the running of elevator with than common slow-footed low cruise, alleviate the electric power consumption of storage battery, the technology (patent documentation 1) of running for a long time can be carried out by storage battery.

In addition, disclose the login forbidding car call or landing calls according to the residual capacity of storage battery, the running limiting elevator thus effectively utilizes the technology of storage battery (patent documentation 2).

But, there is following problem in the technology of patent documentation 1: when the supply of the electric power based on storage battery occurred with having a power failure, owing to switching to low speed to move in elevator, therefore car calling or arrive destination spended time, operating efficiency reduces, and makes troubles therefore to the user of elevator.

In addition, the car of elevator and bob-weight are wound on wire rope pulley via main push-towing rope rope bucket type, when there is no passenger in car, hammer pull-up is balanced when rising, need to make electrical motor to rotate so that pull-up bob-weight when declining, the power consumption hardly when not having the rising of passenger in car, even if switch to low speed by the speed of elevator as described in Patent Document 1, because the driving time of electrical motor increases, the consumption of electric power therefore also significantly cannot be suppressed.

In addition, the technology of patent documentation 2, according to the calling of the residual capacity restriction elevator of storage battery, therefore can suppress the consumption of electric power, but there is the problem of making troubles to user.

Patent documentation 1: Japanese Unexamined Patent Publication 2007-238316 publication

Patent documentation 2: Japanese Patent No. 4062595 publication

Summary of the invention

The object of the present invention is to provide a kind of elevator control gear, it moves for the elevator after having a power failure the power capacity effectively utilizing storage battery, and does not reduce the convenience of passenger terrifically.

In order to reach above-mentioned purpose, the invention provides a kind of control setup of elevator, it possesses: the storage battery driving elevator when occurring to have a power failure, when detecting power failure, elevator drive power supply is switched to the electrical source exchange unit of described storage battery, monitor that the exception comprising the elevator had a power failure occurs, and at least the read out instrument being arranged on car or stop is reported to the monitor unit of this exception generation, in the control setup of described elevator, possess: scheduling method storage part, it stores multiple when described electrical source exchange unit switches to the power supply supply based on described storage battery, forbids the elevator resting interval of calling login after the response logged in the calling for elevator terminates in the given time, and elevator moving calculation portion, the time data in moment is there is in it according to comprising to have a power failure, select this elevator resting interval stored in described scheduling method storage part, described time data has power failure time of origin section, work hours section, lunchtime section, quitting time section, late night hours section, section At All Other Times, and, the control setup of described elevator has the internal clocking counted these time periods, the described elevator resting interval stored in described scheduling method storage part, according to power failure time of origin section, work hours section and lunchtime section and quitting time section, section At All Other Times, the order of late night hours section sets more and more longer.When making elevator be in dormant state owing to occurring to have a power failure, the moment of described calling login can be accepted to described read out instrument display.

According to the present invention, namely elevator moving calculation portion utilizes the time period according to the running frequency that moment and elevator occur that has a power failure, the resting interval stored in scheduling method storage part is selected to move to make elevator, therefore power supply supply can be carried out by storage battery to elevator for a long time, and the operation of the inconvenience for elevator when having a power failure, also can obtain the understanding of user.

Accompanying drawing explanation

Fig. 1 is the block diagram of the structure of the elevator control gear representing an embodiment of the invention.

Fig. 2 is the diagram of circuit of the action of the elevator control gear that an embodiment of the invention are described.

Fig. 3 is the diagram of circuit of the action of the elevator control gear that an embodiment of the invention are described.

Fig. 4 is the sequential chart of the resting interval of the elevator control gear representing an embodiment of the invention.

Fig. 5 is the sequential chart of the operation example based on the moment of the elevator control gear representing an embodiment of the invention.

Nomenclature

1 switch board

2 control board for elevator

3 electrical motors

4 cars

6 three-phase alternating current industrial powers

7A ~ 7D landing button

8 read out instruments

Automatic landing device during 9 power failure

12 chargers

13 storage batterys

14 inverters

15 electrical source exchange dishes

16 monitor units

17 input/output units

18 control setups

19 power failure test sections

20 internal clockings

21 memory storages

21A scheduling method storage part

21B read out instrument picture storage part

22 elevators run confirmation unit

23 stop log-on message obtaining sections

24 elevator moving calculation portions

25 storage battery surplus meters

26 storage battery surplus confirmation units

Detailed description of the invention

Below, an embodiment of elevator control gear of the present invention is described based on accompanying drawing.

Fig. 1 is the block diagram of the structure of the elevator control gear representing an embodiment of the invention, Fig. 2, Fig. 3 are the diagram of circuits of the action of the elevator control gear that an embodiment of the invention are described, Fig. 4 is the sequential chart at the operation interval of the elevator control gear representing an embodiment of the invention, and Fig. 5 is the sequential chart of the operation example of the reality of the elevator control gear representing an embodiment of the invention.

In FIG, usually, elevator is formed by accepting the switch board 1 of power supply, the car 4 at least arranging configuration in the control board for elevator 2 carrying out the not shown elevator control gear of the elevator controlling of the control comprising electrical motor 3, the lifting hoistway 30 arranged in not shown building and bob-weight 5 from the three-phase alternating current industrial power 6 as industrial power.At this, car 4 and bob-weight 5 by bucket type be installed on the two ends of many wireropes 10 that reel on the not shown wire rope pulley of electrical motor 3 synchronous rotary.

In addition, control board for elevator 2 is supplied to three-phase alternating current industrial power 6 via switch board 1 with as the electrical source exchange dish 15 of electrical source exchange unit, to the control that electrical motor 3 rotates forward and reverses, via wirerope 10, car 4 and bob-weight 5 are elevated, the not shown passenger of car 4 is taken in conveying.

In addition, the stop of the superiors of not shown building be provided with decline landing button 7A, be provided with the landing button 7B of rising and the landing button 7C of decline at the stop of interlayer, the landing button 7D of rising is provided with at undermost stop, not shown passenger is some by pressing landing button 7A ~ 7D's, can call out car 4 and make it near taking.

In addition, be provided with such as with the read out instrument 8 that Liquid Crystal Display is formed near the landing button 7A ~ 7D of each stop, the operation information etc. of the floor that display car 4 is positioned at etc. is shown.

In addition, during power failure, automatic landing device 9 is connected with control board for elevator 2, automatic landing device 9 during this power failure, when occurring have a power failure and interrupt from three-phase alternating current industrial power 6 to switch board 1 supply power, make the car 4 of the mobile rear elevator stopped stop at nearest floor and open not shown door, rescue the not shown passenger be closed in car 4.At this, during power failure, automatic landing device 9 has not shown storage battery, the power failure of three-phase alternating current industrial power 6 detects, detected by the power failure test section 19 of the monitor unit described later 16 be connected with switch board 1, by the signal from monitor unit 16, control board for elevator 2 instruction starts automatic landing device 9 when having a power failure.

Secondly, in order to the elevator, water tube apparatus, corridor or stair illumination and the equipment machine of discrepancy room management devices, delinquency prevention device etc. that arranges at common sparing or private part that make to arrange at the common sparing of not shown building still operate when having a power failure, and be provided with storage battery 13 in the ground of not shown building.

Storage battery 13 is connected to the charger 12 charged from three-phase alternating current industrial power 6, the inverter 14 direct supply exported from storage battery 13 being transformed to three-phase alternating-current supply, detects the residual capacity of storage battery 13 and the storage battery surplus meter 25 of output signal.At this, storage battery surplus meter 25 is connected with the input/output unit 17 of monitor unit 16.

In addition, inverter 14 via the electrical source exchange dish 15 when having a power failure power supply supply source being switched to storage battery 13 from three-phase alternating current industrial power 6, to control board for elevator 2 supply power of the such as elevator as equipment machine.

And, the unusual condition of monitor unit 16 check implement machine, and circulate a notice of this exception via communication line to the not shown central monitoring position of long-range connection, be made up of following portion: carry out the input/output unit 17 with the signal input and output of equipment machine; Detect the change of the incoming signal of input/output unit 17, pass through the control setup 18 that installed preset program carries out the control of monitor unit 16; When control setup 18 via input/output unit 17 obtain switch board 1 outage information or restore electricity information time, electrical source exchange dish 15 is exported power supply is supplied the power failure test section 19 that destination optionally switches to the electrical source exchange command signal of three-phase alternating current industrial power 6 or storage battery 13; Be connected with control setup 18, to the internal clocking 20 constantly carrying out timing; Be arranged in the memory storage 21 be connected with control setup 18, prestored the scheduling method storage part 21A of the resting interval (having multiple) of the such as elevator as equipment machine by week or time etc.; Be arranged in memory storage 21, store the read out instrument picture storage part 21B of the multiple display frames shown to read out instrument 8; The multiple signals judging obtaining the state representing elevator via input/output unit 17 from control board for elevator 2 stop, standby in, mobile in, the elevator of the medium elevator situation of fault runs confirmation unit 22; Obtain the stop log-on message obtaining section 23 of the calling log-on message of landing button 7A ~ 7D via input/output unit 17 from control board for elevator 2; Based on each information of power failure test section 19, internal clocking 20, elevator operation confirmation unit 22, stop log-on message obtaining section 23 etc., select the resting interval of multiple elevators stored in scheduling method storage part 21A, via control setup 18 and the input/output unit 17 elevator moving calculation portion 24 to control board for elevator 2 output instruction signal; Obtain the surplus information of storage battery 13 via input/output unit 17 from battery of electric power surplus meter 25, from read out instrument picture storage part 21B, select the display frame of mating with surplus, indicate the storage battery surplus confirmation unit 26 of the display to read out instrument 8.

Then, use Fig. 2 ~ Fig. 4 that the action of an embodiment of the invention is described.

In Fig. 2 ~ Fig. 4, when interrupting to the supply of the power supply of switch board 1 from three-phase alternating current industrial power 6 when occurring to have a power failure, outage information is sent to power failure test section 19 from switch board 1 via the input/output unit 17 of monitor unit 16, control setup 18, when detecting power failure (step S1), elevator runs confirmation unit 22 and receives stop position information in the lifting hoistway 30 of the car 4 of elevator via control board for elevator 2, input/output unit 17, control setup 18, judges whether car 4 stops at (step S2) in floor level.

When not stopping in floor level, control setup 18 runs the determination information of confirmation unit 22 according to elevator, instruction is sent via input/output unit 17 pairs of control board for elevator 2, to start automatic landing device 9 when having a power failure, during power failure after startup, automatic landing device 9 pairs of control board for elevator 2 send instruction, the car 4 of elevator is stopped in the floor level of nearest floor, attempt stop (the step S3) to floor level, when stopping in floor level, by automatic landing device 9 repeated execution of steps S3 when control board for elevator 2 and power failure, carry out to stopping in floor level.

When car 4 is stopped in floor level by step S2 and step S3, according to the information from switch board 1, power failure test section 19 judges whether the three-phase alternating current industrial power 6 now interrupted restores electricity (step S4).

When recovering from three-phase alternating current industrial power 6 to the supply of the power supply of switch board 1, by power failure test section 19 have received restore electricity signal time, owing to being the electrical source exchange that therefore instantaneous power-off does not carry out to storage battery, control setup 18 selects the notice that stores in the read out instrument picture storage part 21B of memory storage 21 from the picture of service restoration, be presented at (step S5) in read out instrument 8 via input/output unit 17 and control board for elevator 2, terminate the control of the elevator undertaken by monitor unit 16.

On the other hand, in step s 4 which, maintain from three-phase alternating current industrial power 6 to the supply of the power supply of switch board 1 and interrupt, when cannot confirm to restore electricity by power failure test section 19, control setup 18 exports via input/output unit 17 pairs of electrical source exchange dishes 15 and power supply is supplied destination to be switched to storage battery 13 instruction (step S6) from three-phase alternating current industrial power 6.

Then, power supply is supplied destination and be switched to storage battery 13, from inverter 14 supply power, if elevator can run, then the display frame that the expression elevator stored in the read out instrument picture storage part 21B of memory storage 21 can run is presented at (step S7) in read out instrument 8 via input/output unit 17, control board for elevator 2 by control setup 18.

Then, according to the information from switch board 1, power failure test section 19 judges whether the three-phase alternating current industrial power 6 now interrupted restores electricity (step S8) again, recovering from three-phase alternating current industrial power 6 to the supply of the power supply of switch board 1, by power failure test section 19 receive restore electricity signal time, control setup 18 exports via input/output unit 17 pairs of control board for elevator 2 instruction (step S9) that elevator is stopped temporarily.

When elevator run confirmation unit 22 confirm stopping of elevator via control board for elevator 2, input/output unit 17, control setup 18 time, control setup 18 exports via input/output unit 17 pairs of electrical source exchange dishes 15 and power supply is supplied destination to be switched to three-phase alternating current industrial power 6 instruction (step S10) from storage battery 13.

Then, if power supply supply destination has been switched to three-phase alternating current industrial power 6, then control setup 18 exports the instruction (step S11) being used for recovering from dormant state via input/output unit 17 pairs of control board for elevator 2, proceed to step S5, control setup 18, by being presented at read out instrument 8 via input/output unit 17 and control board for elevator 2 from the picture of service restoration of storing in the read out instrument picture storage part 21B of memory storage 21, terminates the control of the elevator undertaken by monitor unit 16.

On the other hand, in step s 8, maintain from three-phase alternating current industrial power 6 to the supply of the power supply of switch board 1 and interrupt, when cannot confirm to restore electricity by power failure test section 19, the power supply continued from storage battery 13 to elevator supplies, pressing certain of landing button 7A ~ 7D, before stop log-on message obtaining section 23 confirms the login of landing calls via control board for elevator 2, input/output unit 17, control setup 18, control setup 18 exports standby instruction (step S12) via control board for elevator 2 to elevator.

Return step S8 when landing button 7A ~ 7D is not pressed, confirm to restore electricity, after, before certain of landing button 7A ~ 7D is pressed or confirms to restore electricity, repeat step S8 and step S12.

On the other hand, in step S 12, if certain of landing button 7A ~ 7D is pressed, stop log-on message obtaining section 23 confirms the login of landing calls via control board for elevator 2, input/output unit 17, control setup 18, then control setup 18 pairs of control board for elevator 2 output commands are moved to make car 4 log in layer to the landing calls obtained by stop log-on message obtaining section 23, make not shown passenger take the login layer conveying people (step S13) of car 4 to the not shown object stratum button of the car 4 pressed by passenger.

Then, when the end of run of elevator, any one running that confirmation unit 22 confirms landing button 7A ~ 7D via control board for elevator 2, input/output unit 17, control setup 18 by stop log-on message obtaining section 23 and elevator is not all pressed, elevator stops and after becoming readiness for action, based on the information of described stop log-on message obtaining section 23, elevator operation confirmation unit 22, control setup 18 is via stop (the step S14) of input/output unit 17 pairs of control board for elevator 2 indicating elevators.At this, in step S13 and step S14, when pressing not shown object stratum button and landing button 7A ~ 7D continually, the mobile of elevator increases, the consumption of storage battery 13 increases, therefore, the login of not shown object stratum button and landing button 7A ~ 7D can be made to become possibility in the such as 3 minutes periods as the schedule time.

Then, when having been stopped elevator by step S14, elevator moving calculation portion 24 uses the outage information of the temporal information of internal clocking 20, power failure test section 19, elevator to run the elevator of confirmation unit 22 via control setup 18 to stop information, judge whether the time of stopping is (step S15) within detecting such as 15 minutes after power failure by power failure test section 19.At this, be set in step S15 and detect that power failure is within latter 15 minutes, but also at random can be set as the best time limit.

In addition, when being detected by power failure test section 19 that in step S15 power failure is within latter 15 minutes, pattern W described later, i.e. such as 2 minutes stop (step S16), according to the sequential chart information of the resting interval for elevator stored in the scheduling method storage part 21A of memory storage 21, select in elevator moving calculation portion 24.

In addition, when detect power failure by power failure test section 19 in step S 15 after more than 15 minutes time, elevator moving calculation portion 24, according to the sequential chart information (aftermentioned) of the resting interval for elevator stored in scheduling method storage part 21A, judges that whether elevator stops in step S14 time be the rush hours section (step S17) that the usage frequency of elevator is high.

Then, when the time that elevator in step S17 stops is the rush hours section of elevator, pattern X described later, i.e. such as 5 minutes stop (step S18), according to the sequential chart information (aftermentioned) of the resting interval for elevator stored in the scheduling method storage part 21A of memory storage 21, select in elevator moving calculation portion 24.

In addition, when the time that elevator in step S17 stops is not the rush hours section of elevator, elevator moving calculation portion 24 is with reference to the sequential chart information (aftermentioned) of the resting interval for elevator stored in scheduling method storage part 21A, and whether the time that in determining step S14, elevator stops is time period (step S19) of appropriate utilization elevator.

Then, when the time that elevator in step S19 stops is the time period moderately utilizing elevator, pattern Y described later, i.e. such as 10 minutes stop (step S20), according to the sequential chart information (aftermentioned) of the resting interval of the elevator stored in the scheduling method storage part 21A of memory storage 21, select in elevator moving calculation portion 24.

In addition, when the time that elevator stops is not the time period of appropriate utilization elevator, elevator moving calculation portion 24 is judged as the slack time section that the utilization of elevator is few, according to the sequential chart information (aftermentioned) of the resting interval for elevator stored in scheduling method storage part 21A, selection mode Z, i.e. such as 15 minutes stop (step S21).

At this, pattern W, pattern X, pattern Y, pattern Z are the information stored in scheduling method storage part 21A, represent after terminating the elevator response of car call, the resting interval of the elevator before replying calling next time.

Pattern W, be in order to tackle have a power failure occur after elevator sharply soon utilize, and elevator is operated by storage battery and is set as the shortest pattern the stop time to allow passenger know while suppression runs frequency, by having a power failure, the stop time occurring latter 15 minutes is set as 2 minutes.

Pattern X, be when being on duty, lunch time, time of coming off duty etc. in the past elevator utilize the crowded time period, the extreme reduction of the convenience caused to prevent the stopping of elevator and set long by the stop time than pattern W pattern, the stop time is set as 5 minutes.

Pattern Y is the daytime utilized beyond the crowded time period at elevator, the pattern arrange the time period of appropriate utilization elevator, will extend than pattern X the stop time and be set as 10 minutes.

Pattern Z, is the pattern of the few slack time section setting of utilization to the elevator such as night, the late into the night, even if also little on the impact of passenger owing to extending stop time of elevator, is therefore set as 15 minutes that grow most the stop time.

At this, the time period of pattern W, pattern X, pattern Y, pattern Z freely can change in conjunction with the usage frequency of each elevator, also can consider that changing the time period week etc. sets.

Then, according to the extraction result of pattern W, the pattern X in stop time of the elevator of step S14 and step S16, step S18, step S20, step S21, pattern Y, pattern Z, elevator moving calculation portion 24 from internal clocking 21 obtain the current moment calculate the operation of elevator can start time (step S22).

Then, the operation calculated in step S22 can be pasted onto in the not shown display frame that stores in read out instrument picture storage part 21B start time by control setup 18, and on read out instrument 8, showing operation via input/output unit 17 and control board for elevator 2 can start time (step S23).

Then, according to the information from switch board 1, power failure test section 19 judges whether three-phase alternating current industrial power 6 restores electricity (step S24) again, when recovering from three-phase alternating current industrial power 6 to the supply of the power supply of switch board 1, by power failure test section 19 receive restore electricity signal time, transfer to step S10.

In addition, in step s 24 which, interruption is being maintained from three-phase alternating current industrial power 6 to the supply of the power supply of switch board 1, when cannot confirm to restore electricity by power failure test section 19, according to the temporal information of internal clocking 20, elevator moving calculation portion 24 judges whether that the operation that have passed through the elevator calculated in step S22 can start time (step S25).

In step s 25, when the operation not arriving elevator can return step S24 during start time, confirm to restore electricity.At this, can start time or repeat step S24 and step S25 before restoring electricity in the operation confirming to arrive elevator.

In addition, in step s 25, when arrive elevator operation can start time time, control setup 18 is according to the information in elevator moving calculation portion 24, export via input/output unit 17 pairs of control board for elevator 2 instruction (step S26) that the elevator making to have stopped in step S14 recovers operation usually, after elevator recovers usually to run and becomes readiness for action, return step S7.After, before can confirming to restore electricity by power failure test section 19, continue diagram of circuit.

Then, elevator when using Fig. 5 that power failure based on the moment is described runs example.

First, when 10:00 occurs to have a power failure, by electrical source exchange to storage battery 13, elevator is standby until certain of landing button 7A ~ 7D is pressed.

Certain of landing button 7A ~ 7D is pressed at 10:10, when there is landing calls login, owing to being have a power failure to occur within latter 15 minutes, therefore, according to the sequential chart information of the resting interval for elevator, become the operation interval of pattern W, elevator is operated and after stopping, elevator becomes 2 minutes and stops being logged in by landing calls.

Then, certain of landing button 7A ~ 7D is pressed at 11:07, when there is landing calls login, according to the sequential chart information of the resting interval for elevator, become the operation interval of pattern Y, elevator is operated and after stopping, elevator becomes 10 minutes and stops being logged in by landing calls.

Then, when landing calls login occurs 12:13, according to the sequential chart information of the resting interval for elevator, it is the crowded time period, therefore become the operation interval of pattern X, elevator is operated and after stopping, elevator becomes 5 minutes and stops being logged in by landing calls.

Then, 5 minutes periods that the 12:13 ~ 12:18 stopped at elevator divides, log in also call not accepted log in even if there is landing calls, after the 12:18 that the stop time terminates, elevator can operate.At this, according to the sequential chart information of the resting interval for elevator, 12:18 or crowded time period, therefore, become the operation interval of pattern X, elevator is operated and after stopping, elevator becomes 5 minutes and stops being logged in by landing calls.

Then, when landing calls login occurs 16:20, according to the sequential chart of the resting interval for elevator, it is the time period of appropriate utilization, therefore become the operation interval of pattern Y, elevator is operated and after stopping, elevator becomes 10 minutes and stops being logged in by landing calls.

Then, when landing calls login occurs 22:07, according to the sequential chart information of the resting interval for elevator, for slack time section, therefore become the operation interval of pattern Z, elevator is operated and after stopping, elevator becomes 15 minutes and stops being logged in by landing calls.

Then, when 24:00 restores electricity, power supply is switched to three-phase alternating current industrial power 6 from storage battery 13, elevator recovers usually to run.

According to the present embodiment, when having a power failure generation, the elevator undertaken being run, the stop time is set after call answering, effectively can utilizes the power capacity of storage battery thus by storage battery 13.

In addition, due to the stop time can be changed according to the usage frequency of elevator, therefore compare and can not make troubles to passenger.

In the present embodiment, whether be power failure judgement latter 15 minute within, but also can judge that elevator is by the accumulated time of storage battery 13 movement after power failure if being described by step S15.

In addition, the judgement of step S15, also can utilize the information of storage battery surplus meter 25 or storage battery surplus confirmation unit 26, is set to the ratio of the remaining amount of power of storage battery 13.

Claims (4)

1. a control setup for elevator, it possesses: the storage battery driving elevator when occurring to have a power failure; When detecting power failure, elevator drive power supply is switched to the electrical source exchange unit of described storage battery; Monitor that the exception comprising the elevator had a power failure occurs, and at least the read out instrument being arranged on car or stop is reported to the monitor unit of this exception generation, the feature of the control setup of described elevator is,

Possess:

Scheduling method storage part, it stores multiple when described electrical source exchange unit switches to the power supply supply based on described storage battery, forbids the elevator resting interval of calling login after the response logged in the calling for elevator terminates in the given time; And

Elevator moving calculation portion, there is the time data in moment according to comprising to have a power failure in it, selects this elevator resting interval stored in described scheduling method storage part.

2. the control setup of elevator according to claim 1, is characterized in that,

Described time data has power failure time of origin section, work hours section, lunchtime section, quitting time section, late night hours section, At All Other Times section,

Further, the control setup of described elevator has the internal clocking counted these time periods.

3. the control setup of elevator according to claim 1, is characterized in that,

The described elevator resting interval stored in described scheduling method storage part, according to:

Power failure time of origin section;

Elevator utilizes crowded, work hours section and lunchtime section and these three time periods of quitting time section;

Section At All Other Times; And

The order of late night hours section sets more and more longer.

4. the control setup of elevator as claimed in any of claims 1 to 3, is characterized in that,

When making elevator be in dormant state owing to occurring to have a power failure, the moment of described calling login can be accepted to described read out instrument display.