CN113493154B - Safety control platform system for intelligent elevator - Google Patents

Abstract

The invention discloses a safety control platform system for an intelligent elevator, which relates to the field of safety control of elevators and comprises a field monitoring module and a safety control platform, wherein the field monitoring module comprises an operation state monitoring module, a timing module, an elevator door state monitoring module, a human body sensing module, an elevator environment monitoring module and a first processor; according to the elevator control system, the on-site monitoring module and the platform system of the safety control platform are established, so that the elevator has an autonomous alarm function after a user is trapped, the alarm condition can be transmitted timely, elevator control personnel can receive information timely, the use safety of the elevator is greatly improved, and the safety guarantee of the user is improved.

Description

Safety control platform system for intelligent elevator

Technical Field

The invention belongs to the field of safety control of elevators, and particularly relates to a safety control platform system for an intelligent elevator.

Background

The safety control platform system of the intelligent elevator is mainly used for rapidly analyzing and processing the elevator state and providing rescue information when necessary.

When an elevator fails and suddenly stops running, a user is trapped inside the elevator, and the trapped user needs to signal outwards by pressing an emergency lamp and an alarm bell inside the elevator or call for help by dialing a telephone.

Therefore, the existing elevator lacks a function of timely autonomous alarming, when an emergency lamp and an alarm bell are in fault, and when a call is not made due to poor elevator signals, the help seeking mode cannot be used, and for some users who do not know a help seeking method after the elevator is in fault, the help seeking signal cannot be timely transmitted, the outside cannot timely rescue trapped users, and the trapped users are extremely dangerous, so that a safety management and control platform system for the intelligent elevator is provided.

Disclosure of Invention

The invention aims to provide a safety control platform system for an intelligent elevator, which can effectively solve the problem that the existing elevator provided in the background art lacks a timely autonomous alarm function.

In order to solve the technical problems, the invention is realized by the following technical scheme:

the invention relates to a safety control platform system for an intelligent elevator, which comprises a field monitoring module and a safety control platform, wherein the field monitoring module comprises an operation state monitoring module, a timing module, an elevator door state monitoring module, a human body sensing module, an elevator environment monitoring module and a first processor, and the field monitoring module processes and transmits data through the first processor; the on-site monitoring module monitors the running state of the elevator in real time, and sends the monitored information to the first processor, the first processor carries out logic processing through the information to judge whether the elevator fails, the elevator is timely monitored after being convenient for the elevator to react in time, the on-site information is timely fed back conveniently, the trapped user information is obtained at the first time and the elevator state is obtained, the safety control platform is a comprehensive processing center of the elevator failure, the on-site monitoring module monitors and sends out the trapped signal of the user and then timely gives out an alarm, and the elevator control personnel can timely make a coping scheme.

The running state monitoring module is used for monitoring the state of the elevator, judging whether the elevator is in running or hovering and resting, and generating a first signal and transmitting the first signal to the first processor if the elevator is in hovering and resting; the system keeps and obtains the running state of the elevator at all times, so that the elevator can be monitored conveniently.

The first processor receives the first signal and then sends a command instruction to the timing module, and the timing module starts to calculate the time of hovering and resting of the elevator and generates a second signal to be fed back to the first processor; the first processor judges whether the elevator fails by acquiring the elevator hovering rest time, so that the system can monitor the elevator in time when the elevator fails, and meanwhile, the system can update the trapped time of trapped users in real time after the elevator fails, and the optimal rescue time is calculated.

The first processor receives the second signal and then sends a command instruction to the elevator door state monitoring module, and the elevator door state monitoring module monitors whether an elevator door is opened or not and generates a third signal to be fed back to the first processor; by monitoring the opening and closing information of the elevator door, the system is convenient to comprehensively judge the accident risk level, the rescue difficulty is convenient to determine, and rescue is convenient.

The human body induction module comprises an infrared induction module, the first processor receives the third signal and then sends a command instruction to the infrared induction module, the infrared induction module senses whether a user exists in the elevator through infrared detection, and generates a fourth signal to be fed back to the first processor; the infrared sensing module facilitates the system in determining whether there is a user inside the elevator.

The first processor receives the fourth signal and then sends a command instruction to the elevator environment monitoring module, the elevator environment monitoring module detects the floor and the hovering height of an elevator, detects the oxygen concentration and the temperature in the elevator, and generates a fifth signal to be fed back to the first processor; the system is convenient for comprehensively judging the accident risk level.

The safety control platform comprises a data control center, a communication center, a remote monitoring center and a fourth processor;

the data management and control center comprises a second processor and a database, the data management and control center registers and monitors the behavior of the on-site monitoring module, the database is provided with accident risk level standards, each level of the accident risk level is provided with a corresponding rescue scheme, the second processor acquires command instructions from the first processor, processes the command instructions, acquires and compares database information, and rapidly analyzes the accident risk level and gives out the corresponding rescue scheme; the rescue difficulty is convenient to determine, accident information is provided for rescue workers, and the optimal rescue time is determined.

The communication center comprises a third processor, a communication terminal and a rescue terminal, wherein the third processor acquires and processes a command instruction from the first processor, and then respectively sends the command instruction to the communication terminal and the rescue terminal, the communication terminal displays the trapped user condition in the elevator and is communicated with the inside of the elevator, the rescue terminal lights up alarm indicator lamps, different numbers of the alarm indicator lamps correspond to different accident risk levels, and the alarm indicator lamps are more when the accident risk level is higher; the elevator control personnel can conveniently contact the trapped person at the first time, and the system can conveniently give an alarm at the first time.

The remote monitoring center comprises a remote management terminal, and after the remote monitoring center obtains the trapped information of the user from the first processor, the second processor and the third processor, the fourth processor processes the information and sends the information to the remote management terminal. The elevator management and control personnel can receive the alarm information at the first time.

Preferably, the human body sensing module further comprises a human face recognition module for recognizing the number of trapped users, the first processor receives the third signal and then sends a command instruction to the human face recognition module, and the human face recognition module detects the number of users in the elevator and generates a sixth signal to be fed back to the first processor. The number of accident trapped users is conveniently determined, the accident risk level is judged, and the optimal rescue scheme is determined.

Preferably, the timing module is provided with a threshold value, and the first processor judges elevator faults when the elevator hovering time reaches the threshold value and the human body sensing module senses that a user exists in the elevator. The system is convenient for monitoring the elevator fault condition in time.

Preferably, the elevator environment monitoring module comprises a positioning module, an oxygen concentration monitoring module and a temperature monitoring module, wherein the positioning module is used for detecting the floor where the elevator is located and the hovering height, the oxygen concentration monitoring module is used for detecting the oxygen concentration inside the elevator, and the temperature monitoring module is used for detecting the temperature inside the elevator. The elevator is convenient to position and monitor the temperature of the oxygen concentration in the elevator.

Preferably, the communication center transmits the internal picture of the elevator and then displays the picture on the monitoring display, and simultaneously communicates communication between the interior of the elevator and the outside, and the outside receives the information that the elevator has a user to be trapped through the monitoring display, so that the state of the trapped user is known in time.

Preferably, the second processor calculates the optimal rescue time and gives the rescue equipment to be carried after evaluating the accident risk level by comparing the data information of the timing module, the face recognition module and the elevator environment monitoring module with the information in the database of the data management and control center. The rescue efficiency is convenient to improve.

Preferably, the remote management terminal is a mobile phone terminal or a computer terminal. The elevator management and control personnel can acquire the warning information in time.

Preferably, the first processor, the second processor, the third processor and the fourth processor perform comprehensive processing on accident information, classify and backup the accident information, and store the accident information in a data management and control center. The database is convenient for carrying out backup processing on accidents, and the safety management and control capability of the system is enhanced.

Preferably, the safety control platform performs large data analysis on the data processed by the first processor and the second processor, gives out maintenance and repair data of the elevator, performs statistical analysis and performs intelligent diagnosis on possible conditions of the elevator. And the safety guarantee of the elevator is convenient to improve.

The invention has the following beneficial effects:

according to the elevator control system, the on-site monitoring module and the platform system of the safety control platform are established, so that the elevator has an autonomous alarm function after a user is trapped, the alarm condition can be transmitted timely, elevator control personnel can receive information timely, the use safety of the elevator is greatly improved, and the safety guarantee of the user is improved.

Of course, it is not necessary for any one product to practice the invention to achieve all of the advantages set forth above at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed for the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and that other drawings can be obtained according to these drawings without inventive effort for a person of ordinary skill in the art.

Fig. 1 is an overall system block diagram of a safety control platform system for an intelligent elevator of the present invention;

fig. 2 is a system block diagram of a human body sensing module of a safety control platform system for an intelligent elevator according to the present invention;

fig. 3 is a system block diagram of an elevator environment monitoring module of the safety control platform system for an intelligent elevator of the present invention;

fig. 4 is a block diagram of a data management and control center system of a safety management and control platform system for an intelligent elevator of the present invention;

fig. 5 is a system block diagram of a communication center of a safety control platform system for an intelligent elevator according to the present invention;

fig. 6 is a block diagram of a remote monitoring center system of a safety control platform system for an intelligent elevator of the present invention.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by a person of ordinary skill in the art without inventive effort, are within the scope of the present invention based on the embodiments of the present invention.

In the description of the present invention, it should be understood that the terms "upper," "middle," "outer," "inner," and the like indicate an orientation or a positional relationship, and are merely for convenience of describing the present invention and simplifying the description, but do not indicate or imply that the components or elements referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present invention.

Embodiment one:

the invention relates to a safety control platform system for an intelligent elevator, which comprises a field monitoring module and a safety control platform, wherein the field monitoring module comprises an operation state monitoring module, a timing module, an elevator door state monitoring module, a human body sensing module, an elevator environment monitoring module and a first processor, and the field monitoring module processes and transmits data through the first processor; the on-site monitoring module monitors the running state of the elevator in real time, and sends the monitored information to the first processor, the first processor carries out logic processing through the information, judges whether the elevator fails, is convenient for timely being monitored after the elevator fails, so that the system timely reacts, simultaneously, is convenient for timely feeding back on-site information, obtains trapped user information and obtains elevator states at the first time, and the safety control platform is a comprehensive processing center of the elevator failure, timely sends out an alarm after the on-site monitoring module monitors and sends out a user trapped signal, so that elevator control personnel timely make a coping scheme. The use safety of the elevator is greatly improved, and the safety guarantee of users is improved.

The running state monitoring module is used for monitoring the state of the elevator, judging whether the elevator is in running or hovering and resting, and generating a first signal and transmitting the first signal to the first processor if the elevator is in hovering and resting; the system keeps and obtains the running state of the elevator at all times, so that the elevator can be monitored conveniently.

The first processor receives the first signal and then sends a command instruction to the timing module, and the timing module starts to calculate the hovering and static time of the elevator and generates a second signal to be fed back to the first processor; the first processor judges whether the elevator fails by acquiring the elevator hovering rest time, so that the system can monitor the elevator in time when the elevator fails, and meanwhile, the system can update the trapped time of trapped users in real time after the elevator fails, and the optimal rescue time is calculated.

The first processor receives the second signal and then sends a command instruction to the elevator door state monitoring module, and the elevator door state monitoring module monitors whether the elevator door is opened or not and generates a third signal to be fed back to the first processor; by monitoring the opening and closing information of the elevator door, the system is convenient to comprehensively judge the accident risk level, the rescue difficulty is convenient to determine, and rescue is convenient.

The human body induction module comprises an infrared induction module, the first processor sends a command instruction to the infrared induction module after receiving the third signal, the infrared induction module senses whether a user exists in the elevator through infrared detection, and generates a fourth signal to be fed back to the first processor; the infrared sensing module facilitates the system in determining whether there is a user inside the elevator.

The first processor receives the fourth signal and then sends a command instruction to the elevator environment monitoring module, the elevator environment monitoring module detects the floor and hovering height of the elevator, detects the oxygen concentration and the temperature in the elevator, and generates a fifth signal to be fed back to the first processor; the system is convenient for comprehensively judging the accident risk level.

The safety control platform comprises a data control center, a communication center, a remote monitoring center and a fourth processor.

The data management and control center comprises a second processor and a database, the data management and control center registers and monitors the behavior of the on-site monitoring module, the database is provided with accident risk level standards, each level of the accident risk level is provided with a corresponding rescue scheme, the second processor acquires command instructions from the first processor, processes the command instructions, acquires and compares database information, and rapidly analyzes the accident risk level and gives out the corresponding rescue scheme; the rescue difficulty is convenient to determine, accident information is provided for rescue workers, and the optimal rescue time is determined.

The communication center comprises a third processor, a communication terminal and a rescue terminal, wherein the third processor acquires and processes a command instruction from the first processor and then respectively sends the command instruction to the communication terminal and the rescue terminal, the communication terminal displays the trapped user condition in the elevator and is communicated with the inside of the elevator, the rescue terminal lights the alarm indicator lamps, different numbers of the alarm indicator lamps correspond to different accident risk levels, and the higher the accident risk level is, the more the alarm indicator lamps are lighted; the elevator control personnel can conveniently contact the trapped person at the first time, and the system can conveniently give an alarm at the first time.

The remote monitoring center comprises a remote management terminal, and after the remote monitoring center obtains the trapped information of the user from the first processor, the second processor and the third processor, the fourth processor processes the information and sends the information to the remote management terminal. The elevator management and control personnel can receive the alarm information at the first time.

The human body sensing module further comprises a human face recognition module for recognizing the number of trapped users, the first processor receives the third signal and then sends a command instruction to the human face recognition module, and the human face recognition module detects the number of users in the elevator and generates a sixth signal to be fed back to the first processor; the number of accident trapped users is conveniently determined, the accident risk level is judged, and the optimal rescue scheme is determined.

The timing module is provided with a threshold value, and when the elevator hovering time reaches the threshold value and the human body sensing module senses that a user exists in the elevator, the first processor judges the elevator to be faulty; the system is convenient for monitoring the elevator fault condition in time.

The elevator environment monitoring module comprises a positioning module, an oxygen concentration monitoring module and a temperature monitoring module, wherein the positioning module is used for detecting the floor where the elevator is located and the hovering height, the oxygen concentration monitoring module is used for detecting the oxygen concentration inside the elevator, and the temperature monitoring module is used for detecting the temperature inside the elevator. The elevator is convenient to position and monitor the temperature of the oxygen concentration in the elevator.

The communication center transmits the internal picture of the elevator and then displays the picture on the monitoring display, and simultaneously communicates the communication between the interior of the elevator and the outside, and the outside receives the information that the elevator has a user to be trapped through the monitoring display, so that the state of the trapped user is known in time.

The second processor calculates the optimal rescue time and gives the rescue equipment to be carried after evaluating the accident risk level by comparing the data information of the timing module, the face recognition module and the elevator environment monitoring module with the information in the database of the data management and control center. The rescue efficiency is convenient to improve.

The remote management terminal is a mobile phone terminal or a computer terminal. The elevator management and control personnel can acquire the warning information in time.

The first processor, the second processor, the third processor and the fourth processor are used for comprehensively processing accident information, classifying and backing up the accident information and storing the accident information in the data management and control center. The database is convenient for carrying out backup processing on accidents, and the safety management and control capability of the system is enhanced.

The safety control platform performs big data analysis on the data processed by the first processor and the second processor, gives out maintenance and repair data of the elevator, performs statistical analysis and performs intelligent diagnosis on possible conditions of the elevator. And the safety guarantee of the elevator is convenient to improve.

Embodiment two:

referring to fig. 1-5, the invention discloses a safety control platform system for an intelligent elevator, which comprises the following steps: when a user exists in the elevator and the first processor monitors that the hovering time of the elevator reaches a threshold value, the system judges the elevator fault, detects the state of an elevator door of the elevator, monitors the trapped quantity of the user, the oxygen concentration and the temperature in the elevator, evaluates the accident risk level, gives an alarm, gives a corresponding rescue scheme and timely transmits accident information to elevator management and control personnel.

In the description of the present specification, the descriptions of the terms "one embodiment," "example," "specific example," and the like, mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the invention disclosed above are intended only to assist in the explanation of the invention. The preferred embodiments are not exhaustive or to limit the invention to the precise form disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best understand and utilize the invention. The invention is limited only by the claims and the full scope and equivalents thereof.

Claims (9)

1. A safe management and control platform system for intelligent elevator, its characterized in that: the elevator safety monitoring system comprises a field monitoring module and a safety control platform, wherein the field monitoring module comprises an operation state monitoring module, a timing module, an elevator door state monitoring module, a human body sensing module, an elevator environment monitoring module and a first processor, and the field monitoring module processes and transmits data through the first processor;

the running state monitoring module is used for monitoring the state of the elevator, judging whether the elevator is in running or hovering and resting, and generating a first signal and transmitting the first signal to the first processor if the elevator is in hovering and resting;

the first processor receives the first signal and then sends a command instruction to the timing module, and the timing module starts to calculate the time of hovering and resting of the elevator and generates a second signal to be fed back to the first processor;

the first processor receives the second signal and then sends a command instruction to the elevator door state monitoring module, and the elevator door state monitoring module monitors whether an elevator door is opened or not and generates a third signal to be fed back to the first processor;

the human body induction module comprises an infrared induction module, the first processor receives the third signal and then sends a command instruction to the infrared induction module, the infrared induction module senses whether a user exists in the elevator through infrared detection, and generates a fourth signal to be fed back to the first processor;

the first processor receives the fourth signal and then sends a command instruction to the elevator environment monitoring module, the elevator environment monitoring module detects the floor and the hovering height of an elevator, detects the oxygen concentration and the temperature in the elevator, and generates a fifth signal to be fed back to the first processor;

the safety control platform comprises a data control center, a communication center, a remote monitoring center and a fourth processor;

the data management and control center comprises a second processor and a database, the data management and control center registers and monitors the behavior of the on-site monitoring module, the database is provided with accident risk level standards, each level of the accident risk level is provided with a corresponding rescue scheme, the second processor acquires command instructions from the first processor, processes the command instructions, acquires and compares database information, and rapidly analyzes the accident risk level and gives out the corresponding rescue scheme;

the communication center comprises a third processor, a communication terminal and a rescue terminal, wherein the third processor acquires and processes a command instruction from the first processor, and then respectively sends the command instruction to the communication terminal and the rescue terminal, the communication terminal displays the trapped user condition in the elevator and is communicated with the inside of the elevator, the rescue terminal lights up alarm indicator lamps, different numbers of the alarm indicator lamps correspond to different accident risk levels, and the alarm indicator lamps are more when the accident risk level is higher;

the remote monitoring center comprises a remote management terminal, and after the remote monitoring center obtains the trapped information of the user from the first processor, the second processor and the third processor, the fourth processor processes the information and sends the information to the remote management terminal.

2. A safety management and control platform system for intelligent elevators as claimed in claim 1, wherein: the human body sensing module further comprises a human face recognition module used for recognizing the number of trapped users, the first processor receives the third signal and then sends a command instruction to the human face recognition module, and the human face recognition module detects the number of users in the elevator and generates a sixth signal to feed back to the first processor.

3. A safety management and control platform system for intelligent elevators as claimed in claim 2, wherein: the timing module is provided with a threshold value, and when the elevator hovering time reaches the threshold value and the human body sensing module senses that a user exists in the elevator, the first processor judges the elevator to be faulty.

4. A safety management platform system for intelligent elevators according to claim 3, wherein: the elevator environment monitoring module comprises a positioning module, an oxygen concentration monitoring module and a temperature monitoring module, wherein the positioning module is used for detecting the floor where the elevator is located and the hovering height, the oxygen concentration monitoring module is used for detecting the oxygen concentration inside the elevator, and the temperature monitoring module is used for detecting the temperature inside the elevator.

5. The safety management and control platform system for intelligent elevators according to claim 4, wherein: the communication center transmits the internal picture of the elevator and then displays the picture on the monitoring display, meanwhile, the communication between the inside of the elevator and the outside is communicated, the outside receives the information that the elevator has a user trapped by the monitoring display, and the trapped user state is known in time.

6. A safety management and control platform system for intelligent elevators as claimed in claim 5, wherein: the second processor calculates the optimal rescue time and gives the rescue equipment to be carried after evaluating the accident risk level by comparing the data information of the timing module, the face recognition module and the elevator environment monitoring module with the information in the database of the data management and control center.

7. The safety management and control platform system for intelligent elevators as claimed in claim 6, wherein: the remote management terminal is a mobile phone terminal or a computer terminal.

8. The safety management and control platform system for intelligent elevators according to claim 7, wherein: the first processor, the second processor, the third processor and the fourth processor are used for comprehensively processing accident information, classifying and backing up the accident information and storing the accident information in the data management and control center.

9. The safety management and control platform system for intelligent elevators according to claim 8, wherein: the safety control platform performs large data analysis on the data processed by the first processor and the second processor, gives out maintenance and repair data of the elevator, performs statistical analysis and performs intelligent diagnosis on possible conditions of the elevator.

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