CN108217362B - Remote monitoring method and system for elevator Internet of things - Google Patents

Abstract

An elevator Internet of things remote monitoring method comprises the following steps: s1, dividing functional components of the whole elevator, and configuring different monitoring models according to different functional components; s2, configuring early warning conditions of different monitoring models; s3, monitoring the whole elevator based on the monitoring model, judging whether the early warning condition of the monitoring model is met, and jumping to the step S4 when the early warning condition is met; and S4, sending the early warning information to a remote server. The invention further provides an elevator Internet of things remote monitoring system.

Description

Remote monitoring method and system for elevator Internet of things

Technical Field

The invention relates to the technical field of remote safety monitoring, in particular to an elevator Internet of things remote monitoring system.

Background

The remote comprehensive monitoring of the Internet of things of the elevator cannot be realized in the prior art.

Disclosure of Invention

In view of the above, the invention provides an elevator internet of things remote monitoring method and system.

An elevator Internet of things remote monitoring method comprises the following steps:

s1, dividing functional components of the whole elevator, and configuring different monitoring models according to different functional components;

s2, configuring early warning conditions of different monitoring models;

s3, monitoring the whole elevator based on the monitoring model, judging whether the early warning condition of the monitoring model is met, and jumping to the step S4 when the early warning condition is met;

and S4, sending the early warning information to a remote server.

In the remote monitoring method of the internet of things of the elevator,

the step S1 includes:

dividing functional components of the whole elevator, wherein the functional components comprise an electrical component, a control component and a mechanical component;

configuring monitoring models of an electrical component, a control component and a mechanical component;

the monitoring model of the electrical assembly is as follows:

monitoring the current, voltage and temperature values of the electrical component;

the monitoring model of the control assembly is as follows:

verifying the user identity information;

the monitoring model of the mechanical assembly is as follows:

the life, deformation and tension values of the mechanical components are monitored.

In the remote monitoring method of the internet of things of the elevator,

the step S2 includes:

configuring fluctuation range intervals of current, voltage and temperature values of the electrical component in the monitoring model of the electrical component;

establishing an identity verification model and a video monitoring model in a monitoring model of the control assembly;

and configuring the fluctuation range intervals of the service life, the deformation value and the tensile value of the mechanical assembly in the monitoring model of the mechanical assembly.

In the remote monitoring method of the internet of things of the elevator,

in step S3, the whole elevator is monitored based on the monitoring model, and whether the early warning condition of the monitoring model is met is determined, and when the early warning condition is met, the method includes:

and verifying the control authority and the identity of the elevator through an identity verification model in a monitoring model of the control assembly and a video monitoring model.

In the elevator internet of things remote monitoring method, the monitoring model of the mechanical assembly is as follows: besides monitoring the service life, the deformation value and the tensile value of the mechanical component, the method also comprises the following steps:

configuring a unique identification code of the mechanical assembly, and establishing a mapping relation between the service life, the deformation value, the stretching value, the manufacturer, the supplier, the maintenance object and the unique identification code of the mechanical assembly;

and acquiring monitoring guidance information of the mechanical assembly provided by a manufacturer and a supplier, and optimizing a monitoring model of the mechanical assembly through the monitoring guidance information.

The invention also provides an elevator Internet of things remote monitoring system, which comprises the following units:

the function division unit is used for dividing the functional components of the whole elevator and configuring different monitoring models according to different functional components;

the early warning condition configuration unit is used for configuring the early warning conditions of different monitoring models;

the monitoring unit is used for monitoring the whole elevator based on the monitoring model, judging whether the early warning condition of the monitoring model is met or not, and jumping to the information sending unit when the early warning condition is met;

and the information sending unit is used for sending the early warning information to the remote server.

In the elevator internet of things remote monitoring system,

the function dividing unit includes:

dividing functional components of the whole elevator, wherein the functional components comprise an electrical component, a control component and a mechanical component;

configuring monitoring models of an electrical component, a control component and a mechanical component;

the monitoring model of the electrical assembly is as follows:

monitoring the current, voltage and temperature values of the electrical component;

the monitoring model of the control assembly is as follows:

verifying the user identity information;

the monitoring model of the mechanical assembly is as follows:

the life, deformation and tension values of the mechanical components are monitored.

In the elevator internet of things remote monitoring system,

the early warning condition configuration unit includes:

configuring fluctuation range intervals of current, voltage and temperature values of the electrical component in the monitoring model of the electrical component;

establishing an identity verification model and a video monitoring model in a monitoring model of the control assembly;

and configuring the fluctuation range intervals of the service life, the deformation value and the tensile value of the mechanical assembly in the monitoring model of the mechanical assembly.

In the elevator internet of things remote monitoring system,

the monitoring unit monitors the whole elevator based on the monitoring model, judges whether the early warning condition of the monitoring model is met or not, and comprises the following steps when the early warning condition is met:

and verifying the control authority and the identity of the elevator through an identity verification model in a monitoring model of the control assembly and a video monitoring model.

In the elevator internet of things remote monitoring system, the monitoring model of the mechanical assembly is as follows: besides monitoring the service life, the deformation value and the tensile value of the mechanical component, the method also comprises the following steps:

configuring a unique identification code of the mechanical assembly, and establishing a mapping relation between the service life, the deformation value, the stretching value, the manufacturer, the supplier, the maintenance object and the unique identification code of the mechanical assembly;

and acquiring monitoring guidance information of the mechanical assembly provided by a manufacturer and a supplier, and optimizing a monitoring model of the mechanical assembly through the monitoring guidance information.

Compared with the prior art, the remote monitoring method and the remote monitoring system for the Internet of things of the elevator have the following beneficial effects:

the elevator can be divided into functional components integrally, and different monitoring models can be configured according to different functional components; early warning conditions of different monitoring models are configured, the whole elevator is monitored based on the monitoring models, and finally, the comprehensive monitoring of the Internet of things of the elevator is realized.

Drawings

Fig. 1 is a flow chart of an elevator internet of things remote monitoring method in an embodiment of the invention.

Detailed Description

As shown in fig. 1, a remote monitoring method for an internet of things of an elevator comprises the following steps:

s1, dividing functional components of the whole elevator, and configuring different monitoring models according to different functional components;

s2, configuring early warning conditions of different monitoring models;

s3, monitoring the whole elevator based on the monitoring model, judging whether the early warning condition of the monitoring model is met, and jumping to the step S4 when the early warning condition is met;

and S4, sending the early warning information to a remote server.

In the remote monitoring method of the internet of things of the elevator,

the step S1 includes:

dividing functional components of the whole elevator, wherein the functional components comprise an electrical component, a control component and a mechanical component;

configuring monitoring models of an electrical component, a control component and a mechanical component;

the monitoring model of the electrical assembly is as follows:

monitoring the current, voltage and temperature values of the electrical component;

the monitoring model of the control assembly is as follows:

verifying the user identity information;

the monitoring model of the mechanical assembly is as follows:

the life, deformation and tension values of the mechanical components are monitored.

In the remote monitoring method of the internet of things of the elevator,

the step S2 includes:

configuring fluctuation range intervals of current, voltage and temperature values of the electrical component in the monitoring model of the electrical component;

establishing an identity verification model and a video monitoring model in a monitoring model of the control assembly;

and configuring the fluctuation range intervals of the service life, the deformation value and the tensile value of the mechanical assembly in the monitoring model of the mechanical assembly.

In the remote monitoring method of the internet of things of the elevator,

in step S3, the whole elevator is monitored based on the monitoring model, and whether the early warning condition of the monitoring model is met is determined, and when the early warning condition is met, the method includes:

and verifying the control authority and the identity of the elevator through an identity verification model in a monitoring model of the control assembly and a video monitoring model.

In the elevator internet of things remote monitoring method, the monitoring model of the mechanical assembly is as follows: besides monitoring the service life, the deformation value and the tensile value of the mechanical component, the method also comprises the following steps:

configuring a unique identification code of the mechanical assembly, and establishing a mapping relation between the service life, the deformation value, the stretching value, the manufacturer, the supplier, the maintenance object and the unique identification code of the mechanical assembly;

and acquiring monitoring guidance information of the mechanical assembly provided by a manufacturer and a supplier, and optimizing a monitoring model of the mechanical assembly through the monitoring guidance information.

Alternatively, the monitoring model of the mechanical assembly may be optimized by a BP neural network algorithm.

The invention also provides an elevator Internet of things remote monitoring system, which comprises the following units:

the function division unit is used for dividing the functional components of the whole elevator and configuring different monitoring models according to different functional components;

the early warning condition configuration unit is used for configuring the early warning conditions of different monitoring models;

the monitoring unit is used for monitoring the whole elevator based on the monitoring model, judging whether the early warning condition of the monitoring model is met or not, and jumping to the information sending unit when the early warning condition is met;

and the information sending unit is used for sending the early warning information to the remote server.

In the elevator internet of things remote monitoring system,

the function dividing unit includes:

dividing functional components of the whole elevator, wherein the functional components comprise an electrical component, a control component and a mechanical component;

configuring monitoring models of an electrical component, a control component and a mechanical component;

the monitoring model of the electrical assembly is as follows:

monitoring the current, voltage and temperature values of the electrical component;

the monitoring model of the control assembly is as follows:

verifying the user identity information;

the monitoring model of the mechanical assembly is as follows:

the life, deformation and tension values of the mechanical components are monitored.

In the elevator internet of things remote monitoring system,

the early warning condition configuration unit includes:

configuring fluctuation range intervals of current, voltage and temperature values of the electrical component in the monitoring model of the electrical component;

establishing an identity verification model and a video monitoring model in a monitoring model of the control assembly;

and configuring the fluctuation range intervals of the service life, the deformation value and the tensile value of the mechanical assembly in the monitoring model of the mechanical assembly.

In the elevator internet of things remote monitoring system,

the monitoring unit monitors the whole elevator based on the monitoring model, judges whether the early warning condition of the monitoring model is met or not, and comprises the following steps when the early warning condition is met:

and verifying the control authority and the identity of the elevator through an identity verification model in a monitoring model of the control assembly and a video monitoring model.

In the elevator internet of things remote monitoring system, the monitoring model of the mechanical assembly is as follows: besides monitoring the service life, the deformation value and the tensile value of the mechanical component, the method also comprises the following steps:

configuring a unique identification code of the mechanical assembly, and establishing a mapping relation between the service life, the deformation value, the stretching value, the manufacturer, the supplier, the maintenance object and the unique identification code of the mechanical assembly;

and acquiring monitoring guidance information of the mechanical assembly provided by a manufacturer and a supplier, and optimizing a monitoring model of the mechanical assembly through the monitoring guidance information.

Compared with the prior art, the remote monitoring method and the remote monitoring system for the Internet of things of the elevator have the following beneficial effects:

the elevator can be divided into functional components integrally, and different monitoring models can be configured according to different functional components; early warning conditions of different monitoring models are configured, the whole elevator is monitored based on the monitoring models, and finally, the comprehensive monitoring of the Internet of things of the elevator is realized.

It is understood that various other changes and modifications may be made by those skilled in the art based on the technical idea of the present invention, and all such changes and modifications should fall within the protective scope of the claims of the present invention.

Claims (2)

1. An elevator Internet of things remote monitoring method is characterized by comprising the following steps:

s1, dividing functional components of the whole elevator, and configuring different monitoring models according to different functional components;

s2, configuring early warning conditions of different monitoring models;

s3, monitoring the whole elevator based on the monitoring model, judging whether the early warning condition of the monitoring model is met, and jumping to the step S4 when the early warning condition is met;

s4, sending the early warning information to a remote server; wherein the content of the first and second substances,

the step S1 includes:

dividing functional components of the whole elevator, wherein the functional components comprise an electrical component, a control component and a mechanical component;

configuring monitoring models of an electrical component, a control component and a mechanical component;

the monitoring model of the electrical assembly is as follows:

monitoring the current, voltage and temperature values of the electrical component;

the monitoring model of the control assembly is as follows:

verifying the user identity information;

the monitoring model of the mechanical assembly is as follows:

monitoring the service life, the deformation value and the tensile value of the mechanical component;

the step S2 includes:

configuring fluctuation range intervals of current, voltage and temperature values of the electrical component in the monitoring model of the electrical component;

establishing an identity verification model and a video monitoring model in a monitoring model of the control assembly;

configuring the fluctuation range intervals of the service life, the deformation value and the tensile value of the mechanical assembly in the monitoring model of the mechanical assembly;

in step S3, the whole elevator is monitored based on the monitoring model, and whether the early warning condition of the monitoring model is met is determined, and when the early warning condition is met, the method includes:

verifying the control authority and the identity of the elevator through an identity verification model in a monitoring model of the control assembly and a video monitoring model;

the monitoring model of the mechanical assembly is as follows: besides monitoring the service life, the deformation value and the tensile value of the mechanical component, the method also comprises the following steps:

configuring a unique identification code of the mechanical assembly, and establishing a mapping relation between the service life, the deformation value, the stretching value, the manufacturer, the supplier, the maintenance object and the unique identification code of the mechanical assembly;

and acquiring monitoring guidance information of the mechanical assembly provided by a manufacturer and a supplier, and optimizing a monitoring model of the mechanical assembly through the monitoring guidance information.

2. The elevator Internet of things remote monitoring system is characterized by comprising the following units:

the function division unit is used for dividing the functional components of the whole elevator and configuring different monitoring models according to different functional components;

the early warning condition configuration unit is used for configuring early warning conditions of different monitoring models;

the monitoring unit is used for monitoring the whole elevator based on the monitoring model, judging whether the early warning condition of the monitoring model is met or not, and jumping to the information sending unit when the early warning condition is met;

the information sending unit is used for sending the early warning information to a remote server; wherein the content of the first and second substances,

the function dividing unit includes:

dividing functional components of the whole elevator, wherein the functional components comprise an electrical component, a control component and a mechanical component;

configuring monitoring models of an electrical component, a control component and a mechanical component;

the monitoring model of the electrical assembly is as follows:

monitoring the current, voltage and temperature values of the electrical component;

the monitoring model of the control assembly is as follows:

verifying the user identity information;

the monitoring model of the mechanical assembly is as follows:

monitoring the service life, the deformation value and the tensile value of the mechanical component;

the early warning condition configuration unit includes:

configuring fluctuation range intervals of current, voltage and temperature values of the electrical component in the monitoring model of the electrical component;

establishing an identity verification model and a video monitoring model in a monitoring model of the control assembly;

configuring the fluctuation range intervals of the service life, the deformation value and the tensile value of the mechanical assembly in the monitoring model of the mechanical assembly;

the monitoring unit monitors the whole elevator based on the monitoring model, judges whether the early warning condition of the monitoring model is met or not, and comprises the following steps when the early warning condition is met:

verifying the control authority and the identity of the elevator through an identity verification model in a monitoring model of the control assembly and a video monitoring model;

the monitoring model of the mechanical assembly is as follows: besides monitoring the service life, the deformation value and the tensile value of the mechanical component, the method also comprises the following steps:

configuring a unique identification code of the mechanical assembly, and establishing a mapping relation between the service life, the deformation value, the stretching value, the manufacturer, the supplier, the maintenance object and the unique identification code of the mechanical assembly;

and acquiring monitoring guidance information of the mechanical assembly provided by a manufacturer and a supplier, and optimizing a monitoring model of the mechanical assembly through the monitoring guidance information.

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