CN108046070B - A kind of method of Intelligent controlled elevator operation - Google Patents

Abstract

The present invention relates to a kind of methods of Intelligent controlled elevator operation, comprising: the multiple buttons of each elevator are divided into high-storey button group and low floor button group；The operating status of high-storey button group and low floor button group is set；When central controller detects that current time is transient time, and when carrying at least one passenger in carriage, calculate several first differences of floor and each passenger's destination that carriage is currently located, and the second difference of the carriage floor being currently located and lowermost layer, when any first difference is less than the second difference, the size for controlling the floor that current carriage has been selected according to passenger and the first difference is passed to destination, until all first differences are transported to destination less than the passenger of the second difference, another operational mode is then switched to.Method of the invention can flexibly switch the operating status of elevator according to the actual situation, save the time of each passenger to the full extent, improve carrying efficiency.

Description

A kind of method of Intelligent controlled elevator operation

Technical field

The present invention relates to a kind of method of Intelligent controlled elevator operation, in particular to one kind can be adjusted flexibly according to the actual situation The method of the Intelligent controlled elevator operation of whole operating mode.

Background technique

In some high-rise buildings, especially office building, since the rush hour of people's trip compares concentration, for example, Morning peak work hours, peak meal time at noon and evening peak quitting time carry demand, object to meet the concentration of big flow Industry generally distinguishes the elevator of mansion according to lowrise floor and high-storey, to save to the full extent the time of people, improves Carrying efficiency.But the switching moment of peak period and off-peak period are thus appeared in, multiply even if having in lift car Visitor, it also can first be run to lowermost layer according to scheduled program and be switched to specified operating status operation by elevator, although in this way Save the waiting time of most people, but due to the dramatic decrease of elevator can but be brought to the passenger in carriage it is unnecessary Fear, and the passenger needs to take elevator again and gets to destination, causes temporal waste, if directly by carriage Interior passenger all sequentially send to destination drops to lowermost layer again, and the time distributes less rationally.

Summary of the invention

It is an object of the invention to solve at least the above problems, and provide the advantages of at least will be described later.

It is a still further object of the present invention to provide a kind of methods of Intelligent controlled elevator operation, can be clever according to the actual situation The operating status of switching elevator living, saves the time of each passenger, in the premise for guaranteeing passenger safety in carriage to the full extent Under, improve carrying efficiency.

In order to realize these purposes and other advantages according to the present invention, a kind of side of Intelligent controlled elevator operation is provided Method includes the following steps:

1) multiple buttons of each elevator are divided into high-storey button group and lowrise layer according to the actual conditions of the volume of the flow of passengers Button group；

2) the low floor button group of the first predetermined eleva-tor bank is arranged described in the peak period occurred according to the volume of the flow of passengers Peak period is in non-operating state, and the high-storey button group of the first predetermined eleva-tor bank is then in operating status, the The low floor button group of two predetermined eleva-tor banks is in operating status in the peak period, the second predetermined eleva-tor bank The high-storey button group is in non-operating state, and in off-peak period, the first predetermined eleva-tor bank and described second is in advance The low floor button group and the high-storey button group for determining eleva-tor bank are in normal operating condition；

3) central controller detects the operating status of the described first predetermined eleva-tor bank and the second predetermined eleva-tor bank simultaneously And carrying situation, when the central controller detects that current time is the first mistake switched from off-peak period to peak period Cross moment or the second transient time to switch from rush hour to the non-peak moment, and the first predetermined eleva-tor bank or institute It states when carrying at least one passenger in the carriage of the second predetermined eleva-tor bank, the central controller calculates the current institute of carriage Floor and each passenger's destination several first differences and the floor that is currently located of the carriage and lowermost layer The second difference, when any first difference is less than second difference, current described of the central controller controls The size of floor and first difference that carriage has been selected according to passenger is passed to destination, until by all described Until the passenger that first difference is less than second difference is transported to destination, first is pre- described in the central controller controls Determine eleva-tor bank or the second predetermined eleva-tor bank runs down to lowermost layer, when then switching to the peak period or the non-peak The operational mode of section；

Wherein, each button includes lock state and non-locking state, and the central controller passes through an operation Device controls the button and is in the lock state or non-locking state, when being empty, the central controller controls institute in the carriage It states the first predetermined eleva-tor bank or when the second predetermined eleva-tor bank is run down, the button lower than current floor is in non-locking state, It further include the infrared sensor for detecting state in carriage, the infrared sensor and the central controller communication connection.

Preferably, the method for Intelligent controlled elevator operation, the central controller include described for calculating The building that several first differences and the carriage of floor and each passenger's destination that carriage is currently located are currently located The calculator of layer and the second difference of lowermost layer, and for first difference compared with second size of the difference Device.

Preferably, the method for Intelligent controlled elevator operation, the central controller include current for detecting The time detector of time and weight sensor for detecting weight in carriage, the priority level of the weight sensor are higher than The priority level of the time detector.

Preferably, the carriage is arranged in the method for Intelligent controlled elevator operation, the weight sensor Bottom, and with the central controller communication connection, it is First Transition moment or the second transient time when current time, and described When weight sensor detects that the weight in the carriage is greater than preset value, the weight sensor sends a signal to the center Controller, so that the elevator continues to run, until the weight sensor detects the weight in the carriage equal to described Preset value, the elevator switch to another operating status.

Preferably, the method for Intelligent controlled elevator operation, the weight when preset value is the elevator no-load Magnitude.

Preferably, the method for Intelligent controlled elevator operation, the peak period include morning peak period, noon height Peak period and evening peak period.

Preferably, the method for the described Intelligent controlled elevator operation, the non-operating state be current elevator button not The state that can be pressed, the operating status are the state that current elevator button can be pressed.

The present invention is include at least the following beneficial effects:

The method of a kind of Intelligent controlled elevator operation provided by the invention, when the first predetermined eleva-tor bank and the second predetermined elevator When group is in operating status, central controller detects the fortune of the described first predetermined eleva-tor bank and the second predetermined eleva-tor bank simultaneously Row state and carrying situation, when the central controller detects that current time is to be switched from off-peak period to peak period First Transition moment or the second transient time to switch from from rush hour to the non-peak moment, and the first predetermined elevator When carrying at least one passenger in the carriage of group or the second predetermined eleva-tor bank, the central controller calculates the carriage The floor that several first differences and the carriage of the floor that is currently located and each passenger's destination are currently located with Second difference of lowermost layer, when any first difference is less than second difference, the central controller controls are current The carriage floor selected according to passenger and the size of first difference be passed to destination, until by institute The passenger for having first difference to be less than second difference is transported to destination and is, the described in the central controller controls One predetermined eleva-tor bank or the second predetermined eleva-tor bank run down to lowermost layer, then switch to the peak period or the non-height The operational mode of peak period.Accordingly even when in First Transition moment or the second transient time, when having passenger in lift car, elevator Carriage will not directly drop to lowermost layer, but according to the size of the difference with lowermost layer, rational allocation operating status, first in First difference in portion is transported to destination, then running mode switching less than the passenger of the second difference, is guaranteeing passenger safety Under the premise of, operational efficiency is improved, the time of elevator no-load operation is reduced, operating mode is more flexible.The center control Device includes the time detector for detecting current time and the weight sensor for detecting weight in carriage, and the weight passes The priority level of sensor is higher than the priority level of the time detector.This ensure that central controller can be according to priority It does not execute instruction, is not in the mutual collision between instruction, controls more accurate.

Further advantage, target and feature of the invention will be partially reflected by the following instructions, and part will also be by this The research and practice of invention and be understood by the person skilled in the art.

Specific embodiment

The present invention is described in further detail below, to enable those skilled in the art's refer to the instruction text being capable of evidence To implement.

It should be appreciated that such as " having ", "comprising" and " comprising " term used herein do not allot one or more The presence or addition of a other elements or combinations thereof.

The present invention provides a kind of methods of Intelligent controlled elevator operation, include the following steps:

1) multiple buttons of each elevator are divided into high-storey button group and lowrise layer according to the actual conditions of the volume of the flow of passengers Button group.Statistical work in a few days in each mansion every elevator delivery situation, according to statistical result by each elevator Button is divided into high-storey button group and low floor button group, so that passenger independently selects as desired, it is unnecessary to save Waiting time.

2) the low floor button group of the first predetermined eleva-tor bank is arranged described in the peak period occurred according to the volume of the flow of passengers Peak period is in non-operating state, and the high-storey button group of the first predetermined eleva-tor bank is then in operating status, the The low floor button group of two predetermined eleva-tor banks is in operating status in the peak period, the second predetermined eleva-tor bank The high-storey button group is in non-operating state, in this way in peak period, the passenger of high-storey is gone to may be selected by taking First predetermined eleva-tor bank goes to the passenger of lowrise layer to may be selected by taking the second predetermined eleva-tor bank, to save eleva-tor bank The cycle of operation, improve operational efficiency；And in off-peak period, the first predetermined eleva-tor bank and the second predetermined elevator The low floor button group and the high-storey button group of group are in normal operating condition, and passenger can arbitrarily select one Elevator ride, reachable destination.

3) each mansion can configure a central controller, one time detector of each elevator arrangement and a weight Quantity sensor.Central controller simultaneously detect the described first predetermined eleva-tor bank and the second predetermined eleva-tor bank operating status and Carrying situation, when the central controller detects that current time is the First Transition switched from off-peak period to peak period Moment or the second transient time to switch from from rush hour to the non-peak moment, and the first predetermined eleva-tor bank or described When carrying at least one passenger in the carriage of the second predetermined eleva-tor bank, the central controller calculates the carriage and is currently located Floor and each passenger's destination several first differences and the floor that is currently located of the carriage and lowermost layer Second difference, when any first difference is less than second difference, i.e., elevator is run up than running down distance When shorter, floor that the current carriage of the central controller controls has been selected according to passenger and first difference Size is successively passed to destination, until the passenger that all first differences are less than second difference is transported to mesh Until marking floor, and the passenger that the first difference is greater than the second difference is greater than due to first giving it to destination the time it takes Lift car is directly run to the time of lowermost layer, therefore is first passed to lowermost layer, when waiting to reduce most of passenger Between, the first predetermined eleva-tor bank or the second predetermined eleva-tor bank described in the central controller controls run down to lowermost layer, then It is switched to the operational mode of the peak period or the off-peak period.

Wherein, each button includes lock state and non-locking state, and the central controller passes through an operation The device control button is in the lock state or non-locking state.When button is in the lock state, corresponding floor cannot be reached. When being sky in the carriage, the first predetermined eleva-tor bank described in the central controller controls or the second predetermined eleva-tor bank are run down When, the button lower than current floor is in non-locking state.If unloaded downwards in the first eleva-tor bank or the second predetermined eleva-tor bank When operation, if someone will take elevator downlink, elevator can open car door in the floor selected at this time, will wait at the floor Passenger send to destination, further reduce the waiting time of passenger.It further include for detecting the infrared of state in carriage It is hidden to exclude safety for sensor, the infrared sensor and the central controller communication connection, the state in real-time detection carriage Suffer from.

The method of the Intelligent controlled elevator operation, the central controller includes for calculating the current institute of the carriage Floor and each passenger's destination several first differences and the floor that is currently located of the carriage and lowermost layer The second difference calculator, and the comparator for first difference and second size of the difference.By that will work as Preceding moment ascending for elevator rationally determines if uplink, reduces electricity to the full extent compared with the time required for downlink The time of terraced idle running improves the efficiency of delivery.

The method of the Intelligent controlled elevator operation, the central controller includes the time for detecting current time The priority level of detector and weight sensor for detecting weight in carriage, the weight sensor is examined higher than the time The priority level of device is surveyed, even if that is, time detector detects that current time, will for First Transition moment or the second transient time The information is sent to central controller, if it is not empty information that central controller, which is received simultaneously in the carriage of weight sensor transmission, When, central controller still controls elevator and send passenger to destination according to current operating status.

The bottom of the carriage is arranged in the method for the described Intelligent controlled elevator operation, the weight sensor, can be with For one or more, and with the central controller communication connection, the weight information in carriage is sent to central control in real time Device.It is First Transition moment or the second transient time when current time, and the weight sensor detects in the carriage When weight is greater than preset value, the weight value when preset value is the elevator no-load, the weight sensor sent a signal to The central controller, central controller makes the elevator that current state be kept to continue to run according to priority level, until institute It states weight sensor and detects that the weight in the carriage is equal to the preset value, i.e., when not having passenger in carriage, the elevator Switch to another operating status.

The method of the described Intelligent controlled elevator operation, the peak period include the morning peak period, peak period at noon and Evening peak period, specific time interval can be preset according to the actual situation.

The method of the Intelligent controlled elevator operation, the current elevator button of non-operating state cannot be pressed State, the operating status are the state that current elevator button can be pressed.When elevator button cannot be pressed, the floor It will not stop, directly skip.

Although the embodiments of the present invention have been disclosed as above, but its is not only in the description and the implementation listed With it can be fully applied to various fields suitable for the present invention, for those skilled in the art, can be easily Realize other modification, therefore without departing from the general concept defined in the claims and the equivalent scope, the present invention is simultaneously unlimited In specific details.

Claims (7)

1. a kind of method of Intelligent controlled elevator operation, which comprises the steps of:

1) multiple buttons of each elevator are divided into high-storey button group and low floor button according to the actual conditions of the volume of the flow of passengers Group；

2) the low floor button group of the first predetermined eleva-tor bank is arranged on the peak in the peak period occurred according to the volume of the flow of passengers Period is in non-operating state, and the high-storey button group of the first predetermined eleva-tor bank is then in operating status, and second is pre- The low floor button group for determining eleva-tor bank is in operating status in the peak period, the second predetermined eleva-tor bank it is described High-storey button group is in non-operating state, and in off-peak period, the first predetermined eleva-tor bank and the second predetermined electricity The low floor button group and the high-storey button group of ladder group are in normal operating condition；

3) central controller detects the operating status and load of the described first predetermined eleva-tor bank and the second predetermined eleva-tor bank simultaneously Objective situation, when the central controller detects that current time is the First Transition switched from off-peak period to peak period It carves or the second transient time to switch from rush hour to the non-peak moment, and the first predetermined eleva-tor bank or described the When carrying at least one passenger in the carriage of two predetermined eleva-tor banks, the central controller calculates what the carriage was currently located The of floor that several first differences and the carriage of floor and each passenger's destination are currently located and lowermost layer Two differences, when any first difference is less than second difference, the current carriage of the central controller controls The size of the floor and first difference selected according to passenger is passed to destination, until by all described first Until the passenger that difference is less than second difference is transported to destination, the first predetermined electricity described in the central controller controls Terraced group or the second predetermined eleva-tor bank run down to lowermost layer, then switch to the peak period or the off-peak period Operational mode；

Wherein, each button includes lock state and non-locking state, and the central controller passes through an operator control The button is made to be in the lock state or non-locking state, when be in the carriage it is empty, the described in the central controller controls When one predetermined eleva-tor bank or the second predetermined eleva-tor bank are run down, the button lower than current floor is in non-locking state, also wraps Include the infrared sensor for detecting state in carriage, the infrared sensor and the central controller communication connection.

2. the method for Intelligent controlled elevator according to claim 1 operation, which is characterized in that the central controller includes For calculating several first differences and the carriage of floor and each passenger's destination that the carriage is currently located The calculator of second difference of the floor being currently located and lowermost layer, and for first difference and second difference The comparator of size.

3. the method for Intelligent controlled elevator according to claim 1 operation, which is characterized in that the central controller includes Weight sensor for detecting the time detector of current time and for detecting weight in carriage, the weight sensor Priority level is higher than the priority level of the time detector.

4. the method for Intelligent controlled elevator operation according to claim 3, which is characterized in that the weight sensor setting In the bottom of the carriage, and with the central controller communication connection, when current time be First Transition moment or the second mistake It crosses the moment, and when the weight sensor detects that the weight in the carriage is greater than preset value, the weight sensor is sent Signal is to the central controller, so that the elevator continues to run, until the weight sensor detects in the carriage Weight be equal to the preset value, the elevator switches to another operating status.

5. the method for Intelligent controlled elevator operation according to claim 4, which is characterized in that the preset value is the electricity Weight value when terraced unloaded.

6. the method for Intelligent controlled elevator operation according to claim 1, which is characterized in that the peak period includes early Peak period, peak period at noon and evening peak period.

7. the method for Intelligent controlled elevator operation according to claim 1, which is characterized in that the non-operating state is to work as The state that preceding elevator button cannot be pressed, the operating status are the state that current elevator button can be pressed.