KR102035557B1 - IoT based elevator pervasive autonomous system and method - Google Patents

Abstract

The present invention discloses an elevator Internet of Things-based autonomous guidance system and method. The present invention is configured to operate organically between the elevator system, the intelligent IoT device unit, and the cloud server, and thus can provide safer and more convenient services to elevator passengers who are not only normal but also have significantly reduced cognitive abilities. Through the organic connection between objects and objects, things and mobile, mobile and people, the operation status of elevators can be monitored, diagnosed and controlled in real time through two-way communication. Alerts passengers or potential users in real time via in-car broadcasts, digital signage, or mobile devices, while delivering emergency incidents to registered remote locations, enabling emergency response systems such as passenger rescue This will enable autonomous response to safety accidents and preserve the safety of passengers and predictive maintenance of elevators.

Description

IoT based elevator pervasive autonomous system and method

The present invention relates to an elevator intelligent IoT device for the safety and maintenance of the vertically and horizontally moving elevator for transporting passengers, vehicles or cargo, and more particularly, to receive in real time the status information of the elevator running in the local site Analyze, store, and spread the situation to related organizations (eg management offices, elevator manufacturers / maintenance companies, 119 situation rooms, police stations, etc.) to cloud operations centers, and carry it to users (eg passengers, potential users) It provides smart services that fit the situation through broadcasting, digital signage, and mobile devices. Especially, in case of system breakdown, disability or accident, the system does not need to press emergency call device for general passengers as well as the disabled, the elderly, pregnant women and infants. Recognize and judge the situation to explain and respond to safety and related situations. It provides guidance services and maintains the safety of the elevator life of the customers and the elevator life cycle in connection with cloud real-time and external systems that provide IoT real-time big data analysis and artificial intelligence (AI) functions connected to the site. An elevator IoT based on-site autonomous guidance system and method for providing a proactive maintenance system for the present invention.

In general, a control system related to elevator operation continues to pursue better service to passengers in various buildings, and the control system has a significant cognitive ability such as various types of users besides general passengers, such as disabled people, infants, pregnant women, and the elderly. Even those who need to be dropped need to be provided so that the service is actually helped by an active and autonomous system that is directly at risk associated with potential safety.

However, the control system of the conventional elevator, as shown in the accompanying Figure 1, the service is limited to local field operations, service access to the elderly, pregnant or infant passengers is limited, the difficulty of dealing with unexpected accidents Of course, there was a problem that it is difficult for the manager (engineer) to immediately respond to a failure or failure.

That is, the conventional elevator control system is installed in the field and operated independently, it is difficult to know the operation status of the elevator, accordingly, the conventional manager had to visit and manage continuously, accordingly, the conventional elevator system has the following problems It is difficult to respond in real time.

First, due to the leveling error between the floor and the corridor, there are concerns that the public, the elderly, and pregnant children are exposed to accidents.

Second, passengers may be in danger due to malfunctions due to defects in the car doors and corridor doors, or due to the problem of opening and closing time.

Third, there is a high risk of accident due to the speeding issue due to malfunction of the elevator control system.

Fourth, a dangerous situation may occur, such as falling into the shaft due to a serious accident such as a power failure or a trapped accident.

Fifth, if repairs and inspections are not made at the proper time, malfunctions often occur and lead to accidents.

On the other hand, in the past, there are difficulties in maintenance because the elevators of various manufacturers / vendors are installed in one building.

In other words, each manufacturer's unique interface protocol made it difficult to integrate and monitor the diagnostics.

In addition, there is a considerable difficulty in real-time monitoring of the failure or failure status of the elevator, as well as the difficulty of real-time inventory management of elevator maintenance parts, it is difficult to respond to customer demand in real time, and immediately based on location information There were difficulties in systematic and granular management in connection with the whole logistics system such as response and supply chain management (SCM) and warehouse management.

Therefore, due to the above problems, the need for detailed information management to minimize downtime of the elevator, reduce defects, and securely and intelligently connect the elevator system and the user for providing seamless service. The need for gateway devices that can be used, the need for service with the latest technologies, such as the Internet, Cloud, Bigdata, Mobile, Artificial Intelligent (ICBMA) represented by the Fourth Industrial Revolution, the need for a predictive system for potential failure or failure of elevators, and general There is a growing need for elevator users to increase the demand for diverse and convenient services through mobile and digital signage.

Patent Registration No. 10-1600288 (Announcement date 2016.03.07.)

The problem to be solved by the present invention is that the existing elevator system (Machine room, Hoistway, Hall, composed of various machines in the Pit, electronic control safety device) and the intelligent IoT device and cloud server configured to work with each other organically, The aim of the present invention is to provide an elevator IoT based on-site autonomous guidance system and method for providing safe and convenient services to elevator passengers who are not only normal but also significantly less cognitive.

Another problem to be solved by the present invention, through the organic connection between things and things, things and mobile, mobile and people, when the accident occurs during operation of the elevator to explain and how to deal with the accident situation through a broadcast or mobile device It informs the passengers, communicates the accidents to registered remote locations, enables emergency response system such as rescue of passengers to be operated quickly, and enables autonomous response to safety accidents, The purpose of the present invention is to provide an Internet of Things (IoT) -based autonomous guidance system and method capable of preserving maintenance for the maintenance.

The elevator IoT based on-site autonomous guidance system, which is a means for solving the problems of the present invention, drives and controls an elevator, and includes a hoist, a rope brake, a governor, a brake, an emergency stop device, limit switches, a door interlock device, and a car door switch. Elevator systems connected to key devices in the elevator including door closing devices, car shock absorbers, emergency call devices and microphones and speakers; A sensor unit installed in the elevator to measure or analyze a plurality of measurement elements including temperature, humidity, vibration, noise, and ride comfort; A digital signage unit installed in a waiting room of a car with passengers to provide various driving information and usage information in a building; It is connected to the elevator system and the sensor unit and the digital signage unit independent or external system, and determines and analyzes the operation status, failure and failure situation for the elevator based on the IoT standard stack, and the ground guidance service (Eg, information display, call and alert) and intelligent IoT device unit for managing the operation log of the digital forensic function; An IoT based on-road autonomous guidance system connected to the elevator, the cloud server connected to the intelligent IoT device unit to perform a diagnostic control for failure prediction through real-time monitoring, diagnosis and control of the elevator; And a mobile device connected to the cloud server to provide various elevator smart services to a user. It will include.

The intelligent IoT device unit may include: an interface processor connected to the elevator system independently to process a physical interface; A map processor for processing a bridge map of the interface processor; A sensor processor connected to the sensor unit independently and processing a monitoring signal of the sensor unit; A resource control manager for controlling an independent standard resource of an IoT stack-based elevator manufacturer and managing logs through signals processed by the map processor and the sensor processor; An analyzer for analyzing an emergency situation in the elevator according to management information of the resource control manager; An operation controller for operating an emergency call device in an elevator through communication between the elevator system and the cloud server when a major failure related to passenger safety occurs, such as a passenger trapped or a brake failure on site, through analysis of the analyzer; And a message transmission / reception processor for generating an alert message when the emergency call device is activated by the operation controller and transmitting the warning message to the cloud server, and receiving and transmitting a remote control signal of the cloud server to the elevator system. It will include.

In addition, the intelligent IoT device unit includes a digital forensic processor that enables the cause analysis in the event of failures and problems while maintaining data integrity so that all operation data on the elevator processed by the intelligent IoT device unit cannot be forged; It is to include more.

The digital forensic processor may further include an I / O processor configured to receive elevator information including driving state information and safety information of the elevator and to transmit control request information; An analysis controller which receives diagnostic data regarding elevator information from the I / O processor, collects and analyzes forensic meaningful data, and transmits the data to the intelligent IoT device; And a memory for storing analysis information analyzed by the analysis controller; It will include.

In addition, the message transceiving processor, the present state information on the emergency situation, and the guidance voice and video for the description and measures to be sent to the mobile terminal, digital signage or SMS message of the elevator user or registered in the cloud server and It is configured to transmit simultaneously to the rescue center.

According to another aspect, an elevator Internet of Things based autonomous guidance method, comprising: (a) monitoring the operating state of the elevator in real time; (b) diagnosing major safety devices and driving devices in the elevator from the monitoring in step (a), and determining whether major obstacles or failures related to passenger safety, such as passenger trapping or brake failure, occur; (c) autonomously recognizing the failure of the safety device and the driving device or the occupant trapped situation of the elevator as a result of diagnosis and determination of step (b); (d) recognizing and comprehensively determining an emergency call device call service, a potential user elevator call, etc. directly requested by an elevator user when a passenger is trapped from the autonomous recognition of step (c); (e) informing the administrator of the maintenance when a failure is expected from the comprehensive judgment of step (d), and providing guidance information for passenger stability while propagating it in a passenger trapped situation; And (f) notifying rescue related agencies after providing the guide service of step (e) to rescue the passengers. It will include.

As such, the present invention provides a safer and more convenient service to elevator passengers who are not only normal passengers but also cognitively less able to use the elevator. As can be expected the following effects.

As well as the general public, it is possible to establish a preventive management system for the disabled, the elderly, pregnant women, infants, etc., so that it can be used safely and securely. It enables the maintenance and maintenance of elevators to be managed and maintained safely, and provides various convenient and customized autonomous guidance services to users through mobile devices, and provides intelligent smart devices based on the Internet of Things (IoT). An elevator safety management system is provided, and monitoring / diagnostic treatment of elevator safety management independent of manufacturer / vendor is possible, and it contributes to the safety of citizens by securing the core technology of the fundamental and proactive management system for elevator safety accidents. Safety by elevator parts Articles would we expect the quantitative management system can be established that, of course, maintain maintenance management of the company based on a high quality level to take advantage of the system management based on established effects on the elevator to the required safety information sharing.

In addition, it provides tools to not only large enterprises but also poor small and medium-sized elevator maintenance managers, and provides elevator maintenance technicians with a smart work environment, which can increase customer trust and improve the durability of elevators. It can be expected to reduce the cost and to be able to respond effectively to the safety diagnosis and risk management of old elevators.

The effects of the present invention are not limited to the above-mentioned effects, and other effects not mentioned will be clearly understood by those skilled in the art from the description of the claims.

1 is a conventional elevator management flowchart in an emergency situation.
2 is an overall conceptual diagram of an elevator IoT based on-site autonomous guidance system according to an embodiment of the present invention.
3 is a block diagram of an elevator IoT based on-site autonomous guidance system according to an embodiment of the present invention.
4 is a detailed block diagram of an intelligent IoT device unit according to an embodiment of the present invention.
5 is a data processing flowchart of an intelligent IoT device unit according to an embodiment of the present invention.
6 is an operation screen diagram for remote control of the elevator in the cloud server according to an embodiment of the present invention.
7 is a signal processing flowchart of an elevator IoT based on-site autonomous guidance device according to an embodiment of the present invention.
8 is a flowchart illustrating a method for autonomous guidance based on load of elevators in case of failure according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

2 is an overall conceptual diagram of an elevator IoT based on-site autonomous guidance system according to an embodiment of the present invention, Figure 3 is a block diagram of an elevator IoT based on-site autonomous guidance system according to an embodiment of the present invention, 4 shows a detailed block diagram of an intelligent IoT device unit according to an embodiment of the present invention.

2 to 4, the elevator Internet of Things based autonomous guidance system according to an embodiment of the present invention, the elevator system 10, the sensor unit 20, the digital signage unit 60, intelligent The IoT device unit 30, the cloud server 40, and the mobile device 70 may be included.

The elevator system 10 is a main device in the elevator 100, a hoisting machine, a rope brake, a governor, a brake, an emergency stop device, limit switches, door interlock device, car door switch, door closing device, car shock absorber, emergency call device And to be connected to the microphone and the speaker, and the like to drive and control the elevator 100, although not shown in the drawing that can be connected to the emergency call device and the microphone and the speaker in the elevator (100).

The sensor unit 20 is installed in the elevator 100 is configured to measure or analyze the temperature and humidity, vibration, noise, riding comfort.

The digital signage unit 60 is configured to provide various driving information and usage information in a building installed in a waiting room of a passenger car.

The intelligent IoT device unit 30 is connected to the elevator system 10, the sensor unit 20, and the digital signage unit 60 independently or with an external system, which is based on the IoT standard stack. It is configured to manage the operation log of the digital forensic function, as well as information display, call and warning, etc., and to determine and analyze the operation status, failure and failure condition for the interface, and the interface processor 31, map processor ( 32), a sensor processor 33, a resource control manager 34, an analyzer 35, an operation controller 36, a message transceiving processor 37, a digital forensic processor 38.

The interface processor 31 is connected to the elevator system 10 independently to process a physical interface, and the map processor 32 is configured to process a bridge map of the interface processor 31.

That is, the map processor 32 is to provide an interface path connecting to the elevator system 10 of various manufacturers connected to the interface processor 31.

The sensor processor 33 is connected to the sensor unit 20 independently and is configured to process the monitoring signal of the sensor unit 20.

The resource control manager 34 controls independent standard resources of the elevator manufacturer based on the IoT stack and manages logs including digital forensic functions through signals processed by the map processor 32 and the sensor processor 33. It is configured to

The analyzer 35 is configured to analyze the emergency situation in the elevator 100 according to the management information of the resource control manager 34.

The operation controller 36 communicates between the elevator system 10 and the cloud server 40 when a serious failure related to passenger safety occurs, such as a passenger trapped or a brake failure, during the analysis of the analyzer 35. It is configured to operate the emergency call device in the elevator (100).

The message transmission / reception processor 37 generates an alert message when the emergency call device is activated by the operation controller 36 and transmits a warning message to the cloud server 40, while transmitting a remote control signal of the cloud server 40. Receiving and transmitting to the elevator system 10, which provides the status information on the emergency situation and guide voice and video for the explanation and action items to the mobile terminal or digital signage or SMS message of the passenger in the elevator (100) It may be configured to transmit or simultaneously to the cloud server 40 and the rescue related center (eg, elevator maintenance professional engineer, management office, 119 rescue personnel, police station, etc.) 50 registered therein.

The digital forensic processor 38 enables all the driving data of the elevator processed by the intelligent IoT device unit 30 to analyze the cause in the event of failures and problems while maintaining data integrity such that forgery is impossible. / O processor 38a, analysis controller 38b, memory 38c.

The I / O processor 38a is configured to receive elevator information including driving state information and safety information of the elevator and to transmit control request information.

The analysis controller 38b is configured to receive diagnostic data about elevator information from the I / O processor 38a, collect and analyze forensic meaningful data, and transmit it to the intelligent IoT device unit 30. .

The memory 38c is configured to store analysis information analyzed by the analysis controller 38b.

The cloud server 40 is an IoT based land-based autonomous guidance system connected to the elevator 100. The cloud server 40 is connected to the intelligent IoT device unit 30 through a network and malfunctions through real-time monitoring of the elevator 100. It is configured to perform a diagnostic control for the prediction, the cloud server 40 is to be linked to the system in the rescue center (50).

The mobile device 70 may be connected to the cloud server 40 or the intelligent IoT device unit 30 through a network to provide a convenient service to a user (eg, a general user and a maintenance engineer).

As described above, in the elevator IoT based on-site autonomous guidance technology according to the embodiment of the present invention, as shown in FIGS. 2 to 8, first, the intelligent IoT device unit 30 is an elevator system 10 and a sensor unit 20. After receiving the monitoring signal from the) and transmits it to the cloud server 40, the cloud server 40 is to monitor the operating state of the elevator (100).

That is, since the intelligent IoT device unit 30 is independently connected to the elevator system 10 and the sensor unit 20 through an interface processor 31, the intelligent IoT device unit 30 is based on an IoT standard stack for the elevator 100. Determine and analyze emergency situations, and manage on-call calls, alerts and operational logs.

At this time, the map processor 32 included in the intelligent IoT device unit 30 processes the bridge map of the interface processor 31 and provides it to the resource control manager 34, and the intelligent IoT device unit 30 is provided. The sensor processor 33 included in the processor processes the monitoring signal of the sensor unit 20 and provides it to the resource control manager 34.

Then, the resource control manager 34 controls an independent standard resource of the elevator manufacturer based on the IoT stack and manages logs through signals processed by the map processor 32 and the sensor processor 33, By providing the management information to the analyzer 35, the analyzer 35 analyzes the emergency situation in the elevator 100 according to the management information of the resource control manager 34, and then operates the operation controller according to the analysis result Will activate (36).

At this time, the operation controller 36 autonomously recognizes the failure of the safety device and the driving device of the elevator 100 or the occupant trapped situation according to the diagnosis and determination result made by the analyzer 35 and the elevator 100. In addition to activating my emergency call device, the message transmission / reception processor 37 generates an alert message when the emergency call device is activated by the operation controller 36 and sends it to the cloud server 40, while the cloud server Receiving the remote control signal of the 40 to be transmitted to the elevator system 10, providing the status information on the emergency situation and the guidance voice and video for the instructions and measures to the mobile terminal of the passengers in the elevator 100 or Sent to a digital signage or SMS message or the rescue server associated with the cloud server 40 and registered therein (e.g., Elibay Maintaining a professional engineer who will be sent simultaneously to the terminal 200, Administrative Office, 119 rescue personnel, police, etc.) (50).

Therefore, the rescue center 50 can quickly request the rescue of passengers trapped in the elevator (100).

On the other hand, since the cloud server 40 receives the diagnostic monitoring signal through the intelligent IoT device unit 20, it is possible to predict the status analysis and parts life of the elevator according to the diagnostic signal as described above, Condition Based Monitoring (CBM) rather than Time Based Monitoring (TBM), which does not replace parts based on the age of use, but analyzes and replaces elevator operation data, ride comfort, door condition, etc. By judging the timing, the elevator can be repaired precisely.

As described above, the elevator IoT based on-site autonomous guidance technology according to the embodiment of the present invention connects objects and objects, objects and mobiles, and mobiles and people to the passengers in the elevator on their own. When cognitive abilities such as infants, pregnant women, the elderly, and the elderly are impaired or trapped in an elevator, the passengers in the elevator are notified of the system situation and how to respond, or the passengers' mobile devices In addition, the system can send emergency messages to elevator maintenance engineers, management offices, 119 rescue workers, police stations, etc. at the same time, so that emergency response systems such as passenger rescue can be made quickly. Autonomously in an accident Yeah available, and it will be safe and predictive maintenance of maintenance of passengers possible.

On the other hand, the elevator described in the above description has been described as limited to a person boarding elevator, it is applicable to various industrial fields such as banding machine, SCADA, energy generation equipment, smart home.

Although the technical idea of the elevator IoT based on-site autonomous guidance system and method of the present invention has been described with the accompanying drawings, this is illustrative of the most preferred embodiment of the present invention and is not intended to limit the present invention.

Therefore, the present invention is not limited to the above-described specific embodiments, and various modifications can be made by those skilled in the art without departing from the gist of the present invention as claimed in the claims. Of course, such changes will fall within the scope of the claims.

10; Elevator system 20; Sensor part
30; Intelligent IoT device section 31; Interface handler
32; Map processor 33; Sensor handler
34; Resource control manager 35; Analyzer
36; Operation controller 37; Message sender and receiver
38; Digital forensic processor 38a; I / O handler
38b; Analysis controller 38c; Memory
40; Cloud server 50; Rescue related centers
60; Digital signage section 70; Mobile devices
100; elevator

Claims (6)

Drives and controls elevators, including hoisting machines, rope brakes, governors, brakes, emergency stop devices, limit switches, door interlock devices, car door switches, door closure devices, car shock absorbers, emergency call devices, microphones and speakers An elevator system connected to the main device in the elevator;
A sensor unit installed in the elevator to measure or analyze a plurality of measurement elements including temperature, humidity, vibration, noise, and ride comfort;
A digital signage unit installed in a waiting room of a car with passengers to provide various driving information and usage information in a building;
It is connected to the elevator system and the sensor unit and the digital signage unit independent or external system, and determines and analyzes the operation state, failure and failure situation for the elevator based on the IoT standard stack, and the ground guidance service Intelligent IoT device unit for managing information display, call and alert, and the operation log of the digital forensic function;
An IoT based on-road autonomous guidance system connected to the elevator, the cloud server connected to the intelligent IoT device unit to perform a diagnostic control for failure prediction through real-time monitoring, diagnosis and control of the elevator; And,
A mobile device connected to the cloud server to provide various elevator smart services to a user; Elevator IoT based ground level autonomous guidance system comprising a. The method of claim 1,
The intelligent IoT device unit,
An interface processor connected to the elevator system independently to process a physical interface;
A map processor for processing a bridge map of the interface processor;
A sensor processor connected to the sensor unit independently and processing a monitoring signal of the sensor unit;
A resource control manager for controlling an independent standard resource of an IoT stack-based elevator manufacturer and managing logs through signals processed by the map processor and the sensor processor;
An analyzer for analyzing an emergency situation in the elevator according to management information of the resource control manager;
An operation controller for operating an emergency call device in an elevator through communication between the elevator system and the cloud server when a major failure related to passenger safety occurs, such as a passenger trapped or a brake failure on site, through analysis of the analyzer; And,
A message transmission / reception processor for generating a warning message when the emergency call device is activated by the operation controller and transmitting the warning message to the cloud server, and receiving and transmitting a remote control signal of the cloud server to the elevator system; Elevator IoT based ground level autonomous guidance system comprising a. The method of claim 2,
The intelligent IoT device unit,
A digital forensic processor capable of analyzing the cause of failures and problems while maintaining data integrity such that all operation data of the elevator processed by the intelligent IoT device unit cannot be forged; Elevator IoT based ground level autonomous guidance system further comprising. The method of claim 3, wherein
The digital forensic processor,
An I / O processor configured to receive elevator information including driving state information and safety information of the elevator and to transmit control request information; An analysis controller which receives diagnostic data about elevator information from the I / O processor, collects and analyzes forensic meaningful data, and transmits the data to the intelligent IoT device; And a memory for storing analysis information analyzed by the analysis controller; Elevator IoT based ground level autonomous guidance system comprising a. The method of claim 2,
The message transceiving processor transmits a guide voice and a video for providing status information on an emergency situation, a description, and action items to an elevator user's mobile terminal, a digital signage, or an SMS message, or is associated with a structure registered with the cloud server. Elevator IoT based on-site autonomous guidance system, characterized in that configured to transmit to the center at the same time. delete

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