CN116177331A

CN116177331A - Elevator control method, system, device and computer equipment

Info

Publication number: CN116177331A
Application number: CN202211492453.1A
Authority: CN
Inventors: 谷建军; 陆新明
Original assignee: Ningbo Shenling Electromechanical Technology Co ltd
Current assignee: Ningbo Shenling Electromechanical Technology Co ltd
Priority date: 2022-11-25
Filing date: 2022-11-25
Publication date: 2023-05-30

Abstract

The invention provides an elevator control method, an elevator control system, an elevator control device and computer equipment, wherein the elevator control method comprises the following steps: acquiring the number of people which can bear the weight of an elevator and the number of people needing to get off the elevator on each floor which is not reached by the elevator in real time; determining the number of people which can go to the elevator on each floor which is not reached by the elevator according to the number of people which can be born by the elevator and the number of people which need to go to the elevator on each floor which is not reached by the elevator, and displaying the number of people which can go to the elevator on each floor which is not reached by the elevator; and if the number of people on the floor where the elevator does not arrive can be used for boarding is zero, controlling the elevator to directly run to the floor where the number of people on the elevator can be used for boarding is greater than zero. The invention can avoid that the elevator directly runs to the floor on which the number of people on the elevator is greater than zero when people cannot be borne and the floor on which the elevator does not arrive does not need to be subjected to elevator descending, so that the transportation time of the elevator is saved and the transportation efficiency of the elevator is improved.

Description

Elevator control method, system, device and computer equipment

Technical Field

The invention belongs to the technical field of elevator control, and particularly relates to an elevator control method, an elevator control system, an elevator control device and computer equipment.

Background

An elevator is a transport apparatus for transporting people or goods to floors, and mainly includes an elevator for carrying people or goods, a machine room for controlling the operation of the elevator, and a landing for controlling the opening or closing of the elevator after reaching the floors.

When the existing elevator runs, if someone on a floor where the elevator does not arrive needs to take the elevator, only the key of the corresponding landing is needed to be pressed, and at the moment, even if no person can be born in the elevator and no elevator person is dropped on the floor, the elevator door can be automatically opened after the elevator arrives at the floor.

The control mode of the elevator can lead passengers to take the elevator, but when the elevator cannot bear the passengers and the floor where the elevator does not arrive does not have the passengers, the elevator door is opened after the elevator arrives at the corresponding floor, so that a great deal of transportation time of the elevator can be wasted, and the transportation efficiency of the elevator is reduced.

Disclosure of Invention

The invention aims to solve the technical problem that a great deal of transportation time of an elevator can be wasted and the transportation efficiency of the elevator is reduced by opening an elevator door after the elevator reaches a corresponding floor when the existing elevator cannot bear personnel and no elevator personnel is dropped on the floor.

In order to solve the technical problems, the invention provides an elevator control method, which comprises the following steps:

acquiring the number of people which can bear the weight of an elevator and the number of people needing to get off the elevator on each floor which is not reached by the elevator in real time;

determining the number of people which can go to the elevator on each floor which is not reached by the elevator according to the number of people which can be born by the elevator and the number of people which need to go to the elevator on each floor which is not reached by the elevator, and displaying the number of people which can go to the elevator on each floor which is not reached by the elevator;

and if the number of people on the floor where the elevator does not arrive can be used for boarding is zero, controlling the elevator to directly run to the floor where the number of people on the elevator can be used for boarding is greater than zero.

Further, the specific steps of acquiring the number of the supportable people of the elevator in real time are as follows:

acquiring the load of the elevator;

determining the number of loadable persons of the elevator according to the load of the elevator:

the formula for determining the number of people that can be carried by the elevator is as follows:

n＝(N-N ₁ ) /(60-80 kg), n is an integer;

wherein N is the number of people capable of bearing the elevator, N is the rated load of the elevator, N ₁ Is the load of the elevator.

acquiring the ground vacant area of the elevator;

determining the number of people capable of bearing the elevator according to the ground vacant area of the elevator;

n ₁ ＝(S-S ₁ )/0.16～0.20m ² ，n ₁ taking an integer;

wherein n is ₁ The number of people capable of being born by the elevator is S, the total floor area of the elevator is S ₁ A floor space for the elevator.

Further, the specific steps of determining the number of people who can get on the elevator at each floor where the elevator does not arrive according to the number of people who can be born by the elevator and the number of people who need to get off the elevator at each floor where the elevator does not arrive include:

if the number of the loadable elevators is zero and the number of the passengers needing to get off the elevators at the floors not reached by the elevators is zero, determining that the number of the passengers needing to get on the elevators at the floors not reached by the elevators is zero;

if the number of the loadable persons of the elevator is n ₁ And the number of people needing to get off the elevator at the floor where the elevator does not arrive is zero, determining that the number of people needing to get on the elevator at the floor where the elevator does not arrive is the n ₁ ；

If the number of the loadable elevators is zero and the number of the passengers needing to get off the elevator at the floor where the elevator does not arrive is n ₂ Determining the number of people on the floor where the elevator does not arrive as the n ₂ ；

If the number of the supportable people of the ladder is n ₁ And the floor not reached by the elevatorThe number of people needing to get off the elevator is n ₂ Determining the number of people on the floor where the elevator does not arrive as n ₁ +n ₂ 。

Further, the specific steps of acquiring the number of people needing to get off the elevator at each floor where the elevator does not arrive in real time are as follows:

acquiring the pressing times of keys of all floors which are not reached in the elevator;

and determining the number of people needing to get off the elevator at each floor which is not reached by the elevator according to the pressing times of the keys of each floor which is not reached by the elevator.

Further, if the number of people on the floor where the elevator does not arrive is zero, but a key outside the floor where the elevator does not arrive is pressed, full load information of the elevator is displayed outside the floor where the elevator does not arrive, and a prompt signal is sent out.

Still further, the control method of the elevator further comprises the steps of:

and if the number of people on the floor where the elevator does not arrive is greater than zero, setting the pressing times of the keys outside the floor where the elevator does not arrive according to the number of people on the floor where the elevator does not arrive.

The invention also provides an elevator control system, comprising:

the acquisition module is used for acquiring the number of the loadable persons of the elevator in real time and the number of the persons needing to go down the elevator on each floor where the elevator does not arrive;

the judging module is used for determining the number of people on which the elevator can be carried on each floor, which is not reached by the elevator, according to the number of people on which the elevator can be carried on each floor, which is not reached by the elevator, and the number of people on which the elevator can be carried on each floor, which is not reached by the elevator;

the display module is used for displaying the number of people who can go to the elevator on each floor where the elevator does not arrive;

and the execution module is used for controlling the elevator to directly run to the floor where the number of people on which the elevator can be on is greater than zero if the number of people on which the elevator can be on the floor where the elevator does not arrive is zero.

The invention also provides an elevator control device, which comprises a weight sensor, a plurality of displays and a processor; the weight sensor is installed in the elevator, the displays are respectively installed at elevator entrances of all floors, and the weight sensor and the displays are respectively in communication connection with the processor.

The invention also provides a computer device comprising a memory, a processor and a computer program stored in the memory and executable on the processor, which processor, when executing the computer program, implements the steps of the elevator control method as described above.

Compared with the prior art, the elevator control method has the advantages that the number of the bearable elevator and the number of the people needing to be taken off at each floor where the elevator does not arrive are obtained in real time, the number of the people needing to be taken off at each floor where the elevator does not arrive is determined according to the number of the bearable elevator and the number of the people needing to be taken off at each floor where the elevator does not arrive, and the number of the people needing to be taken on the elevator at each floor where the elevator does not arrive is displayed; and finally, when the number of people on the floor where the elevator does not arrive is zero, controlling the elevator to directly run to the floor where the number of people on the elevator is greater than zero, so that the situation that the elevator cannot bear people and the floor where the elevator does not arrive does not need to be subjected to elevator descending can be avoided, the elevator directly runs to the floor where the number of people on the elevator is greater than zero, the transportation time of the elevator is saved, and the transportation efficiency of the elevator is improved.

Drawings

For the sake of clarity of the present disclosure, the drawings used in the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present disclosure, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art, where:

fig. 1 is a schematic flow chart of steps of an elevator control method according to an embodiment of the present invention;

fig. 2 is a schematic frame structure of an elevator control system according to an embodiment of the present invention.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1

The embodiment of the invention provides an elevator control method, which is shown in combination with fig. 1, and comprises the following steps:

s101, acquiring the number of the loadable elevator in real time and the number of people needing to get off the elevator at each floor where the elevator does not arrive.

Specifically, in the step S101, the specific steps of acquiring the number of people that can bear the elevator in real time are as follows:

acquiring the load of the elevator;

n＝(N-N ₁ ) (60-80 kg) (1), n is an integer;

wherein N is the number of people capable of bearing the elevator, N is the rated load of the elevator, N is the number of people capable of bearing the elevator ₁ Is the load of the elevator.

The load of the elevator is obtained by means of a weight sensor in the elevator.

The number of the loadable persons of the elevator obtained at this time is determined according to the rated load of the elevator, and the floor free area of the elevator is not considered, for example, when the elevator has light weight goods with overlarge occupied area, the elevator can also load persons according to the load, but the passengers have no area capable of standing, so the obtained number of the loadable persons of the elevator is not accurate.

In addition, when the number n of the loadable persons in the elevator is preliminarily determined, the face recognition module can be arranged in or outside the elevator so as to recognize the number n of the loadable persons entering the elevator and the loadable persons exiting the elevator through the face recognition module, and thus the number n of the loadable persons in the elevator is preliminarily calculated.

Specifically, in the step S101, another specific step of acquiring the number of supportable people in the elevator in real time is as follows:

acquiring the ground vacant area of the elevator;

n ₁ ＝(S-S ₁ )/0.16～0.20m ² (2)，n ₁ taking an integer;

wherein the S is ₁ The floor space of the elevator is the floor total area of the elevator, and S is ₁ A floor space for the elevator.

The ground free area of the elevator can be obtained by analysis and calculation after integrating a plurality of ground pictures shot by the monitor.

The number of the supportable persons of the elevator obtained at this time is determined according to the floor space of the elevator, and the floor space of the elevator is not considered, and when the elevator is loaded with a small weight and a small floor space, the elevator can also take persons according to the floor space, but the elevator cannot bear the weight, so that the number of the supportable persons of the elevator is not accurate.

In order to obtain the number of people capable of being carried in the elevator more accurately, the n and the n are calculated ₁ Comparison is performed: if one of the values is zero, indicating that the number of the loadable elevators is zero; if the two values are the same, indicating that the number of people capable of bearing the elevator is the value; if the two values are one and one, the smallest value is used as the supportable number of the elevator.

Specifically, in the step S101, the specific steps of acquiring the number of people who need to get off the elevator at each floor where the elevator does not arrive in real time are as follows:

For example, three persons in the elevator need to go down the elevator in the seventh floor, and after entering the elevator, the three persons need to press the keys of the seventh floor in the elevator respectively once, which is equivalent to the total three times of pressing the keys of the seventh floor in the elevator, so that the number of persons in the seventh floor needing to go down the elevator can be determined to be three.

S102, determining the number of people capable of being lifted on each floor, which is not reached by the elevator, according to the number of people capable of being borne by the elevator and the number of people capable of being lifted on each floor, which is not reached by the elevator, of the people capable of being lifted on each floor, which is not reached by the elevator, and displaying the number of people capable of being lifted on each floor, which is not reached by the elevator.

Specifically, in the step S102, the step of determining the number of people that can get on the elevator at each floor where the elevator does not arrive according to the number of people that can be borne by the elevator and the number of people that need to get off the elevator at each floor where the elevator does not arrive includes:

and if the number of the loadable elevators is zero and the number of the passengers needing to get off the elevators at the floors not reached by the elevators is zero, determining that the number of the passengers needing to get on the elevators at the floors not reached by the elevators is zero.

If the number of the loadable persons of the elevator is n ₁ And the number of people needing to get off the elevator at the floor where the elevator does not arrive is zero, determining that the number of people needing to get on the elevator at the floor where the elevator does not arrive is the n ₁ 。

If the number of the loadable elevators is zero and the number of the passengers needing to get off the elevator at the floor where the elevator does not arrive is n ₂ Determining the number of people on the floor where the elevator does not arrive as the n ₂ 。

If the number of the supportable people of the ladder is n ₁ And the number of people needing to get off the elevator at the floor where the elevator does not arrive is n ₂ Determining the number of people on the floor where the elevator does not arrive as n ₁ +n ₂ 。

Described hereinN is as described ₁ May be n or n in the above formula ₁ May also be n and n ₁ And comparing the obtained number of the loadable persons of the elevator.

And S103, if the number of people on which the elevator can be on the floor where the elevator does not arrive is zero, controlling the elevator to directly run to the floor where the number of people on which the elevator can be on is greater than zero.

If the number of people on the floor where the elevator does not arrive is zero, but a key outside the floor where the elevator does not arrive is pressed, full load information of the elevator is displayed outside the floor where the elevator does not arrive, and a prompt signal is sent.

In order to better embody the specific scheme of the elevator control method in this embodiment, the following description will be given by way of example:

for example, the rated load of the elevator is 1000kg, and the total floor area of the elevator is 2.4m ² The method comprises the steps of carrying out a first treatment on the surface of the At the moment, 13 persons in one floor take the elevator to ten floors, 3 persons need to go down the elevator in seven floors, 1 person in five floors need to take the elevator to ten floors, 2 persons in seven floors need to take the elevator to ten floors, the weight of each person is defaulted to 70kg, and the floor area of the elevator occupied by each person is defaulted to be 0.18m ² And neither carries cargo.

When the elevator is at a first floor, 13 persons enter the elevator in sequence, and 3 persons who need to go down the elevator at a seventh floor respectively press keys of the seventh floor in the elevator once, and the other 10 persons respectively press keys of the tenth floor in the elevator once.

When the elevator is closed, the weight sensor in the elevator can acquire the load of the elevator, and the number of the loadable persons of the elevator can be obtained by calculation according to the formula (1) at the moment to be (1000 kg-13 x 70 kg)/70 kg=1, namely the number of the loadable persons of the elevator is 1 according to the load; then the number of people which can bear the weight of the elevator can be obtained through the calculation of the formula (2)Is [2.4m ² -(13*0.18m ² )]/0.18m ² And (0), namely the number of the loadable persons of the elevator determined according to the ground area is zero, and finally, the number of the loadable persons of the elevator is zero through comparison.

After the elevator runs to the second floor to the sixth floor, the number of people which can be born is zero, and no people need to go down the elevator, so that the number of people which can go up the elevator from the second floor to the sixth floor is zero, and the number of people which can go up the elevator from the seventh floor is 3; as 2 people in the seventh building need to take the elevator, the number of people who can go on the elevator from the eighth building to the ninth building is 1 according to the method; meanwhile, the elevators display the number of elevators capable of being on the second floor to the sixth floor as zero, the number of elevators capable of being on the seventh floor as 3 and the number of elevators capable of being on the eighth floor to the ninth floor as 1 on the corresponding floors so as to prompt passengers on each floor to take the number of elevators.

When the elevator runs from one floor, the pressing times of the keys from the second floor to the sixth floor are set to be zero, and the elevator is controlled to directly run to the seventh floor and then stop and open the elevator door, so that passengers in the fifth floor can be prevented from pressing the keys in the fifth floor, the elevator is stopped in the fifth floor and the elevator door is opened, passengers in the fifth floor cannot take the elevator again, the transportation time of the elevator is further wasted, and finally the problem of lower transportation efficiency of the elevator is caused.

As the elevator runs to the seventh floor and 3 people get off the elevator, after the elevator runs from the first floor, the pressing times of the keys of the seventh floor are set to be 3 times, namely, the number of passengers on the seventh floor is 3; when the keys of the seventh building are pressed for 2 times, the number of times of pressing the keys of the eighth building and the ninth building is set to be 1, namely, the number of the elevators capable of being on the eighth building or the ninth building is 1.

If the passengers in the fifth floor press the keys in the fifth floor once before the elevator is in the first floor and is not started; when the elevator runs from the first floor, full-load information of the elevator can be displayed outside the second floor and prompt signals such as dripping sound or flashing prompt can be sent out, so that passengers in the second floor can be prompted that the elevator cannot take the elevator after the elevator arrives at the second floor, and meanwhile the elevator is controlled to directly run to the seventh floor.

Compared with the prior art, the elevator control method of the embodiment obtains the number of the bearable elevator and the number of the people needing to be taken off at each floor where the elevator does not arrive in real time, determines the number of the people needing to be taken off at each floor where the elevator does not arrive according to the number of the bearable elevator and the number of the people needing to be taken off at each floor where the elevator does not arrive, and displays the number of the people needing to be taken off at each floor where the elevator does not arrive; and finally, when the number of people on the floor where the elevator does not arrive is zero, controlling the elevator to directly run to the floor where the number of people on the elevator is greater than zero, so that the situation that the elevator cannot bear people and the floor where the elevator does not arrive does not need to be subjected to elevator descending can be avoided, the elevator directly runs to the floor where the number of people on the elevator is greater than zero, the transportation time of the elevator is saved, and the transportation efficiency of the elevator is improved.

Example two

An embodiment of the present invention provides an elevator control system 200, as shown in connection with fig. 2, comprising:

the acquiring module 201 is configured to acquire, in real time, the number of loadable persons in the elevator and the number of persons needing to get off the elevator at each floor where the elevator does not arrive.

The judging module 202 is configured to determine the number of people that can get on the elevator at each floor where the elevator does not arrive according to the number of people that can be borne by the elevator and the number of people that need to get off the elevator at each floor where the elevator does not arrive.

And the display module 203 is used for displaying the number of people who can go to the elevator on each floor where the elevator does not arrive.

And the execution module 204 is used for controlling the elevator to directly run to the floor where the number of people on which the elevator can be on is greater than zero if the number of people on which the elevator can be on the floor where the elevator does not arrive is zero.

The determining module 202 is communicatively connected to the acquiring module 201, the display module 203 is communicatively connected to the determining module 202, and the executing module 204 is communicatively connected to the determining module 202.

The execution module 204 may be further configured to display full load information of the elevator and send a prompt signal outside the floor where the elevator is not arrived if the number of people on the floor where the elevator is not arrived is zero but a key outside the floor where the elevator is not arrived is pressed.

The execution module 204 is further configured to set the number of presses of the key outside the floor where the elevator does not arrive according to the number of people that can be lifted on the floor where the elevator does not arrive if the number of people that can be lifted on the floor where the elevator does not arrive is greater than zero.

Since each module in the elevator control system 200 of the present embodiment is used to implement each step of the elevator control method in the first embodiment, it can also achieve the technical effects achieved by the elevator control method in the first embodiment, and will not be described in detail herein.

Example III

The embodiment of the invention provides an elevator control device, which comprises a plurality of displays of a weight sensor and a processor; the weight sensor is installed in the elevator, the displays are respectively installed at elevator entrances of all floors, and the weight sensor and the displays are respectively in communication connection with the processor.

Wherein the weight sensor is used for acquiring the load of the elevator in the first embodiment; the plurality of displays are used for displaying the number of people who can go to the elevator on each floor where the elevator does not go in the first embodiment; the processor is configured to determine, according to the number of loadable elevators and the number of people to be dropped on each floor not reached by the elevators in the first embodiment, the number of people to be dropped on each floor not reached by the elevators, and when the number of people to be dropped on each floor not reached by the elevators is zero, control the elevators to directly run to floors where the number of people to be dropped on each elevator is greater than zero.

Since each device in the elevator control apparatus of the present embodiment is used to implement the corresponding step of the elevator control method in the first embodiment, it can also achieve the technical effect achieved by the elevator control method in the first embodiment, and details are not repeated here.

In addition, the elevator control device also comprises a monitor arranged in the elevator, and the monitor is used for acquiring monitoring videos and ground pictures in the elevator.

Example IV

An embodiment of the present invention provides a computer device including a memory, a processor, and a computer program stored in the memory and executable on the processor, the processor implementing the steps in the elevator control method in the first embodiment when executing the computer program.

Since the processor in the computer device of the present embodiment is configured to implement the steps in the elevator control method in the first embodiment when executing the computer program, the technical effects achieved by the elevator control method in the first embodiment can also be achieved, and the description thereof is omitted herein.

The above examples are only illustrative of the invention and are not intended to be limiting of the embodiments; the scope of the present invention is not limited to the above-described embodiments, and all equivalent modifications in shape and structure according to the present invention are included in the scope of the present invention.

Claims

1. An elevator control method characterized by comprising the steps of:

2. Elevator control method according to claim 1, characterized in that the specific step of acquiring in real time the number of loadable persons of the elevator is as follows:

acquiring the load of the elevator;

n＝(N-N ₁ ) /(60-80 kg), n is an integer;

3. Elevator control method according to claim 1, characterized in that the specific step of acquiring in real time the number of loadable persons of the elevator is as follows:

acquiring the ground vacant area of the elevator;

n ₁ ＝(S-S ₁ )/0.16～0.20m ² ，n ₁ taking an integer;

4. The elevator control method according to claim 3, wherein the specific step of determining the number of people on which each floor not reached by the elevator can be lifted based on the number of people on which the elevator can be carried and the number of people on which each floor not reached by the elevator is to be lifted comprises:

if the number of the loadable persons of the elevator is n ₁ And the number of people needing to get off the elevator at the floor where the elevator does not arrive is zero, determining that the floor where the elevator does not arrive can be electrifiedThe number of people in the ladder is n ₁ ；

5. The elevator control method according to claim 1, characterized in that the specific step of acquiring in real time the number of people who need to get off the elevator for each floor where the elevator does not arrive is:

6. The elevator control method according to claim 1, wherein if the number of people on which the elevator can go to a floor where the elevator does not arrive is zero, but a key outside the floor where the elevator does not arrive is pressed, full load information of the elevator is displayed outside the floor where the elevator does not arrive and a prompt signal is sent.

7. The elevator control method according to claim 1, characterized in that the elevator control method further comprises the steps of:

8. An elevator control system, comprising:

9. An elevator control device is characterized by comprising a weight sensor, a plurality of displays and a processor; the weight sensor is installed in the elevator, the displays are respectively installed at elevator entrances of all floors, and the weight sensor and the displays are respectively in communication connection with the processor.

10. A computer device comprising a memory, a processor and a computer program stored in the memory and executable on the processor, the processor implementing the steps in the elevator control method according to any one of claims 1 to 7 when the computer program is executed.