CN113071962A - Control method and control device for early-peak direct-falling elevator and elevator adopting method - Google Patents

Abstract

The invention relates to the technical field of elevator control, in particular to an early-peak direct-falling elevator control method, a control device and an elevator adopting the method.A direct-falling signal is received, the instruction issuing time of the direct-falling signal is obtained, and whether the instruction issuing time is within the direct-falling execution time is judged; the command issuing time is within the vertical descending execution time, and whether the elevator reaches the highest elevator floor number is judged; and when the elevator reaches the highest elevator floor, calculating a signal issuing floor corresponding to the direct falling signal according to the mapping relation, and controlling the elevator to directly fall to the signal issuing floor. And a direct landing function is set, and in the direct landing execution time, when a direct landing signal is received and the elevator reaches the highest elevator floor of the pressed elevator, the elevator is controlled to directly land without stopping in the middle, so that passengers are prevented from maliciously intercepting the elevator.

Description

Control method and control device for early-peak direct-falling elevator and elevator adopting method

Technical Field

The invention relates to the technical field of elevator control, in particular to a control method and a control device for an early-peak direct-falling elevator and an elevator adopting the method.

Background

With the development of cities in China, elevators have become important public transportation vehicles of modern city buildings, and can carry passengers to appointed floors efficiently and quickly. However, the existing elevator operation control method has many unsatisfactory places. For example, when the elevator is used in early peak, people wait for the elevator in a queue on the first floor, other later passengers go to the second floor, the third floor and other floors higher than the first floor from the stairs to intercept the elevator, and the later passengers descend to the first floor along with the elevator and then ascend to the floor to be reached from the first floor along with the elevator, so that the running power of the elevator is increased, and the problem that people who first arrive at an elevator room to wait for the elevator cannot get on the elevator due to overload is also caused.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: the control method and the control device for the elevator which solves the problem that the existing elevator is maliciously intercepted in the peak period of people flow, and the elevator adopting the method are provided.

The technical scheme adopted by the invention for solving the technical problems is as follows: a control method for an early-peak direct landing elevator comprises the following steps: s100: receiving a direct falling signal, acquiring instruction issuing time of the direct falling signal, and judging whether the instruction issuing time is within the direct falling execution time;

s200: the command issuing time is within the vertical descending execution time, and whether the elevator reaches the highest elevator floor number is judged;

s300: and when the elevator reaches the highest elevator floor, calculating a signal issuing floor corresponding to the direct falling signal according to the mapping relation, and controlling the elevator to directly fall to the signal issuing floor.

Further, S100 includes the following steps: s10: presetting the direct descending execution time of the direct descending function;

s20: and establishing a mapping relation between the direct falling signal and the signal issuing floor.

Further, S100 may also include the following steps: s30: and judging whether the elevator receives the direct falling signal or not.

Further, S100 then includes the following steps: s110: and if the command issuing time is not within the direct falling execution time, refusing to control the elevator to directly fall to the signal issuing floor.

Further, the following steps are included between S200 and S300: s210: and when the elevator does not reach the highest elevator floor, continuing to wait for the elevator to reach the highest elevator floor.

A control device for an early-peak vertical descent elevator, comprising: the receiving module is used for receiving the direct falling signal: the acquisition module is in communication connection with the receiving module and is used for receiving the direct falling signal and acquiring the instruction issuing time of the direct falling signal; the first judgment module is in communication connection with the acquisition module and is used for judging whether the instruction issuing time is within the direct-falling execution time or not after the receiving module receives the direct-falling signal and the acquisition module acquires the instruction issuing time of the direct-falling signal; the second judgment module is in communication connection with the first judgment module and is used for judging whether the elevator reaches the highest elevator floor number according to the instruction issuing time within the direct falling execution time; the calculation module is in communication connection with the second judgment module and is used for calculating a signal issuing floor corresponding to the direct falling signal according to the mapping relation when the elevator reaches the highest elevator floor; and the control module is in communication connection with the calculation module and is used for controlling the elevator to directly descend to the signal issuing floor when the elevator reaches the highest elevator floor number.

Further, the method also comprises the following steps: the system comprises a presetting module, a control module and a control module, wherein the presetting module is used for presetting the direct descending execution time of a direct descending function; the building module is used for building a mapping relation between the direct falling signal and the signal issuing floor; the preset module and the establishing module are respectively in communication connection with the receiving module.

Still further, still include: and the third judgment module is in communication connection with the receiving module and is used for judging whether the elevator receives the direct falling signal.

Further, the control module is connected with the first judgment module and used for refusing to control the elevator to directly descend to the signal issuing floor when the instruction issuing time is not within the direct descending execution time.

An early peak direct landing elevator comprising a memory, a processor, and computer program text stored on the memory and executable on the processor, the processor executing the computer program text implementing an early peak direct landing elevator control method.

The invention has the advantages that the defects in the background technology are overcome, and the direct landing function is set (1), the elevator is controlled to directly land without stopping in the middle when the direct landing signal is received and the elevator reaches the highest elevator floor of the pressed elevator in the direct landing execution time, so that passengers are prevented from maliciously intercepting the elevator.

(2) The direct landing execution time can be set and changed according to the flow of people condition of the office building where the elevator is located, the direct landing execution time is set to be an early peak time period, and the direct landing execution time is cancelled at other times, so that the early peak anti-huhu is guaranteed, and the normal use of the elevator by passengers at other time periods is also guaranteed.

(3) The mapping relation between the direct falling signal and the signal issuing floor is established, namely, a direct falling signal trigger button is arranged on each floor or a certain floor, each floor corresponds to an only direct falling signal, when a passenger presses the direct falling signal trigger button outside the elevator on the certain floor, the elevator directly falls to the only floor corresponding to the direct falling signal, and the problem that the passenger presses the direct falling signal trigger button on the second floor, and the elevator does not directly fall to the floor and directly falls to other floors is solved.

(4) When the instruction is issued the time and is not in the time of directly descending the execution time, refuse to control the elevator and directly descend to the signal and issue the floor, avoid when the flow of people is less, the passenger presses the elevator from the floor of place and descends the key, and the elevator is incessantly nevertheless, influences the problem that the passenger took advantage of the ladder.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic flow chart of a control method according to embodiment 1 of the present invention;

FIG. 2 is a schematic flow chart of a control method according to embodiment 2 of the present invention;

FIG. 3 is a flowchart schematically illustrating a control method according to embodiment 3 of the present invention;

FIG. 4 is a flowchart schematically illustrating a control method according to embodiment 4 of the present invention;

FIG. 5 is a flowchart showing a control method according to embodiment 5 of the present invention;

fig. 6 is a schematic structural diagram of the control device of the present invention.

In the figure: 1. the device comprises a receiving module, 2 an obtaining module, 3 a first judging module, 4 a second judging module, 5 a calculating module, 6 a control module, 7 a presetting module, 8 an establishing module and 9 a third judging module.

Detailed Description

The invention will now be described in further detail with reference to the drawings and preferred embodiments. These drawings are simplified schematic views illustrating only the basic structure of the present invention in a schematic manner, and thus show only the constitution related to the present invention.

Example 1:

as shown in fig. 1, the control method for an early-peak direct-falling elevator comprises the following steps:

s100: receiving a direct falling signal, acquiring instruction issuing time of the direct falling signal, and judging whether the instruction issuing time is within the direct falling execution time;

s200: the command issuing time is within the vertical descending execution time, and whether the elevator reaches the highest elevator floor number is judged;

s300: and when the elevator reaches the highest elevator floor, calculating a signal issuing floor corresponding to the direct falling signal according to the mapping relation, and controlling the elevator to directly fall to the signal issuing floor.

Specifically, the direct falling signal is sent by a person waiting for the elevator pressing a direct falling signal key, the direct falling signal key is arranged outside the elevator, the direct falling execution time is set and adjusted according to the specific time of the early peak and the passenger flow rate of the area where the elevator is located, the direct falling execution time can be a plurality of time points or time periods, and preferably, the direct falling execution time is the time period. For example, when the elevator is in an office building, the traffic of people is the largest between 8 am and 9 am on monday to friday, the time for performing the descent immediately is set to 8 am to 9 am on monday to friday;

when the command issuing time is within the vertical drop execution time, judging whether the elevator reaches the highest elevator floor number pressed, for example, when the obtained command issuing time is 8 am of tuesday 30 min, the time is within the preset vertical drop execution time, further judging whether the elevator reaches the highest elevator floor number of the floor pressed by the personnel in the elevator, for example, the highest floor pressed by the passengers in the elevator is 26 floors, when the command issuing time is obtained, the elevator does not reach 26 floors, the elevator is not controlled to descend, until the elevator reaches 26 floors, calculating a signal issuing floor corresponding to the vertical drop signal according to the mapping relation, controlling the elevator to vertically drop to the signal issuing floor, and it is worth explaining that the mapping relation refers to the mapping relation between the vertical drop signal and the signal issuing floor, namely, a vertical drop signal trigger button is arranged on each floor or a certain floor, each floor corresponds to a unique direct falling signal, for example, a first floor corresponds to a first direct falling signal, a second floor corresponds to a second direct falling signal, a third floor corresponds to a third direct falling signal and the like, and the mapping relation between the direct falling signals and the signal issuing floors is established, so that when a passenger presses a direct falling signal trigger button outside an elevator of a certain floor, the elevator is ensured to fall to the unique floor corresponding to the direct falling signal, and the problem that the passenger presses the direct falling signal trigger button on the second floor, and the elevator does not fall to the floor but falls to other floors is avoided. Preferably, the number of enabled vertical descent signals and the set floors are set according to the passenger flow, the floor structure and the like, for example, when the office building where the elevator is located has an underground third floor, the vertical descent signals set up in an underground second floor can be enabled, so that passengers in the underground third floor can go upwards to the elevator at the elevator room of the underground second floor through the fire fighting access, and passengers in the underground first floor and the passengers in the ground first floor go downwards to the elevator at the elevator room of the underground second floor.

It is worth to be noted that when the elevator reaches the floor where the direct falling signal instruction is issued, the direct falling instruction is automatically reset, or a person presses a reset button to reset.

Example 2:

as shown in fig. 2, the control method for an early-peak direct-falling elevator comprises the following steps:

s10: presetting the direct descending execution time of the direct descending function;

s20: establishing a mapping relation between the direct falling signal and the signal issuing floor;

s100: receiving a direct falling signal, acquiring instruction issuing time of the direct falling signal, and judging whether the instruction issuing time is within the direct falling execution time;

s200: the command issuing time is within the vertical descending execution time, and whether the elevator reaches the highest elevator floor number is judged;

s300: and when the elevator reaches the highest elevator floor, calculating a signal issuing floor corresponding to the direct falling signal according to the mapping relation, and controlling the elevator to directly fall to the signal issuing floor.

Specifically, the time for performing the direct landing is the time for using the direct landing function, and the time for performing the direct landing can be set according to the flow of people in the office building where each elevator is located, for example, when the flow of people is the largest between 8 am and 9 am on monday to friday in the office building where the elevator is located, the time for performing the direct landing can be set to 8 am to 9 am on monday to friday in the morning.

The mapping relation refers to the mapping relation between the direct falling signals and the signal issuing floors, namely, a direct falling signal trigger button is arranged on each floor or one floor, each floor corresponds to a unique direct falling signal, for example, one floor corresponds to a first direct falling signal, the second floor corresponds to a second direct falling signal, the third floor corresponds to a third direct falling signal and the like, and the mapping relation between the direct falling signals and the signal issuing floors is established to ensure that when a passenger presses the direct falling signal trigger button outside an elevator on one floor, the elevator descends to the unique floor corresponding to the direct falling signal, so that the problem that the passenger presses the direct falling signal trigger button on the second floor, and the elevator does not descend to the floor but descends to other floors is avoided.

Example 3:

as shown in fig. 3, the control method for an early-peak direct-falling elevator comprises the following steps:

s10: presetting the direct descending execution time of the direct descending function;

s20: establishing a mapping relation between the direct falling signal and the signal issuing floor;

s30: judging whether the elevator receives the direct falling signal or not;

s100: receiving a direct falling signal, acquiring instruction issuing time of the direct falling signal, and judging whether the instruction issuing time is within the direct falling execution time;

s200: the command issuing time is within the vertical descending execution time, and whether the elevator reaches the highest elevator floor number is judged;

s300: and when the elevator reaches the highest elevator floor, calculating a signal issuing floor corresponding to the direct falling signal according to the mapping relation, and controlling the elevator to directly fall to the signal issuing floor.

Specifically, whether the elevator receives the direct falling signal or not is continuously judged, and the next action is not carried out until the elevator receives the direct falling signal.

Example 4:

as shown in fig. 4, the control method for an early-peak direct-falling elevator comprises the following steps:

s100: receiving a direct falling signal, acquiring instruction issuing time of the direct falling signal, and judging whether the instruction issuing time is within the direct falling execution time;

s110: if the command issuing time is not within the direct falling execution time, refusing to control the elevator to directly fall to the signal issuing floor;

s200: the command issuing time is within the vertical descending execution time, and whether the elevator reaches the highest elevator floor number is judged;

s300: and when the elevator reaches the highest elevator floor, calculating a signal issuing floor corresponding to the direct falling signal according to the mapping relation, and controlling the elevator to directly fall to the signal issuing floor.

Specifically, when the instruction is assigned the time and is not in the time of falling execution, for example, the instruction is assigned the time and is 10 am of monday, and the time of falling execution is 8 am to 9 am of morning of monday to friday, then the instruction is assigned the time and is not in the time of falling execution, refuse to control the elevator and fall to signal and assign the floor this moment, avoid when the flow of people is less, the passenger presses the elevator from the floor of place and descends the key, the elevator is incessantly, influence the passenger and take advantage of the problem of ladder.

Example 5:

as shown in fig. 5, the control method for an early-peak direct-falling elevator comprises the following steps:

s100: receiving a direct falling signal, acquiring instruction issuing time of the direct falling signal, and judging whether the instruction issuing time is within the direct falling execution time;

s200: the command issuing time is within the vertical descending execution time, and whether the elevator reaches the highest elevator floor number is judged;

s210: when the elevator does not reach the highest elevator floor, continuing to wait for the elevator to reach the highest elevator floor;

s300: and when the elevator reaches the highest elevator floor, calculating a signal issuing floor corresponding to the direct falling signal according to the mapping relation, and controlling the elevator to directly fall to the signal issuing floor.

Specifically, when the elevator does not reach the highest elevator floor that the passenger pressed in the elevator, continue to wait for the elevator to reach the maximum elevator floor, avoid the passenger not reach the floor of arriving, the problem that the elevator just directly falls.

A control device for an early-peak vertical descent elevator, comprising: the receiving module 1 is used for receiving the direct falling signal; the acquisition module 2 is in communication connection with the receiving module 1, and is used for the receiving module 1 to receive the direct falling signal and acquire instruction issuing time of the direct falling signal; the first judging module 3 is in communication connection with the acquiring module 2, and is used for judging whether the instruction issuing time is within the direct-falling execution time after the receiving module 1 receives the direct-falling signal and the acquiring module 2 acquires the instruction issuing time of the direct-falling signal; the second judgment module 4 is in communication connection with the first judgment module 3 and is used for judging whether the elevator reaches the highest elevator floor number when the command issuing time is within the direct-falling execution time; the calculating module 5 is in communication connection with the second judging module 4 and is used for calculating a signal issuing floor corresponding to the direct falling signal according to the mapping relation when the elevator reaches the highest elevator floor; and the control module 6 is in communication connection with the calculation module 5 and is used for controlling the elevator to directly descend to a signal issuing floor when the elevator reaches the highest elevator floor number.

In addition, still include: the preset module 7 is used for presetting the direct descending execution time of the direct descending function; the building module 8 is used for building a mapping relation between the direct falling signal and the signal issuing floor; the presetting module 7 and the establishing module 8 are respectively in communication connection with the receiving module 1.

And, still include: and the third judging module 9, the third judging module 9 is in communication connection with the receiving module 1, and is used for judging whether the elevator receives the direct falling signal.

The control module 6 is connected with the first judging module 3 and used for refusing to control the elevator to directly descend to the signal issuing floor when the instruction issuing time is not in the direct descending execution time.

An early peak direct descent elevator, characterized by comprising a memory, a processor and a computer program text stored on the memory and operable on the processor, wherein the processor executes the computer program text to implement an early peak direct descent elevator control method.

The elevator in particular is an apparatus as referred to above for carrying out one or more of the methods of the invention. These devices may be specially designed and manufactured for the required purposes, or they may comprise known devices in general-purpose computers. These devices have stored therein computer programs or applications that are selectively activated or reconfigured. Such a computer program may be stored in a device (e.g., computer) readable medium, including, but not limited to, any type of disk including floppy disks, hard disks, optical disks, CD-ROMs, and magnetic-optical disks, ROMs (Read-Only memories), RAMs (Random Access memories), EPROMs (Erasable Programmable Read-Only memories), EEPROMs (Electrically Erasable Programmable Read-Only memories), flash memories, magnetic cards, or optical cards, or any type of media suitable for storing electronic instructions, and each coupled to a bus. That is, a readable medium includes any medium that stores or transmits information in a form readable by a device (e.g., a computer).

It will be apparent to those skilled in the art that the modules or steps of the invention described above may be implemented in a general purpose computing device, centralized on a single computing device or distributed across a network of computing devices, or alternatively implemented in program code executable by a computing device, such that the steps shown and described may be executed by a computing device stored in a memory device and, in some cases, executed in a sequence other than that shown and described herein, or fabricated separately as individual integrated circuit modules or fabricated as a single integrated circuit module. Thus, the present invention is not limited to any specific combination of hardware and software.

It should be noted that the elevator operation control method, the elevator operation control device and other contents of the elevator disclosed by the invention can be referred to the prior art, and are not described herein again.

While particular embodiments of the present invention have been described in the foregoing specification, various modifications and alterations to the previously described embodiments will become apparent to those skilled in the art from this description without departing from the spirit and scope of the invention.

Claims (10)

1. A control method for an early-peak direct-falling elevator is characterized by comprising the following steps: the method comprises the following steps:

s100: receiving a direct falling signal, acquiring instruction issuing time of the direct falling signal, and judging whether the instruction issuing time is within the direct falling execution time;

s200: the command issuing time is within the vertical descending execution time, and whether the elevator reaches the highest elevator floor number is judged;

s300: and when the elevator reaches the highest elevator floor, calculating a signal issuing floor corresponding to the direct falling signal according to the mapping relation, and controlling the elevator to directly fall to the signal issuing floor.

2. The control method of the early-peak direct-falling elevator according to claim 1, characterized in that: the step S100 comprises the following steps:

s10: presetting the direct descending execution time of the direct descending function;

s20: and establishing a mapping relation between the direct falling signal and the signal issuing floor.

3. The control method of the early-peak direct-falling elevator according to claim 1, characterized in that: before S100, the method further includes the following steps:

s30: and judging whether the elevator receives the direct falling signal or not.

4. The control method of the early-peak direct-falling elevator according to claim 1, characterized in that: the step S100 includes the following steps:

s110: and if the command issuing time is not within the direct falling execution time, refusing to control the elevator to directly fall to the signal issuing floor.

5. The control method of the early-peak direct-falling elevator according to claim 1, characterized in that: the method between S200 and S300 comprises the following steps:

s210: and when the elevator does not reach the highest elevator floor, continuing to wait for the elevator to reach the highest elevator floor.

6. A control device for an early-peak vertical descent elevator, comprising:

the receiving module (1) is used for receiving the direct falling signal;

the acquisition module (2) is in communication connection with the receiving module (1) and is used for receiving the direct falling signal by the receiving module (1) and acquiring the instruction issuing time of the direct falling signal;

the first judging module (3) is in communication connection with the acquiring module (2) and is used for receiving the direct falling signal received by the receiving module (1), and judging whether the instruction issuing time is within the direct falling execution time or not after the instruction issuing time of the direct falling signal is acquired by the acquiring module (2);

the second judgment module (4) is in communication connection with the first judgment module (3) and is used for judging whether the elevator reaches the highest elevator floor number according to the instruction issuing time within the direct-falling execution time;

the calculation module (5) is in communication connection with the second judgment module (4) and is used for calculating a signal issuing floor corresponding to the direct falling signal according to the mapping relation when the elevator reaches the highest elevator floor;

and the control module (6) is in communication connection with the calculation module (5) and is used for controlling the elevator to directly descend to a signal issuing floor when the elevator reaches the highest elevator floor number.

7. The control device of an early-peak vertical descent elevator according to claim 6, characterized in that: further comprising:

the device comprises a presetting module (7), a control module and a control module, wherein the presetting module (7) is used for presetting the direct descent execution time of the direct descent function;

the building module (8), the building module (8) is used for building the mapping relation between the direct falling signal and the signal issuing floor;

the preset module (7) and the establishing module (8) are respectively in communication connection with the receiving module (1).

8. The control device of an early-peak vertical descent elevator according to claim 7, characterized in that: further comprising:

and the third judgment module (9), the third judgment module (9) is in communication connection with the receiving module (1) and is used for judging whether the elevator receives the direct falling signal.

9. The control device of an early peak landing elevator according to claim 6, characterized in that the control module (6) is connected with the first judgment module (3) for refusing to control the elevator to land to the signal landing floor when the command landing time is not within the landing execution time.

10. An early peak direct landing elevator, characterized by comprising a memory, a processor and a computer program text stored on the memory and executable on the processor, the processor executing the computer program text implementing the early peak direct landing elevator control method according to any one of claims 1 to 6.

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