CN114834507A - Remote monitoring management system for IBP button - Google Patents

Abstract

The invention discloses a remote monitoring management system for an IBP (intermediate body protocol) button, which belongs to the field of rail transit and comprises a network relay connected with an emergency stop cancellation button, a cloud server, a connection configuration module used for configuring and defining the network relay connected with the cloud server, a connection state management module, a task making module used for directly issuing a task instruction through the cloud server, a task allocation module used for designating an execution instruction as a certain specific network relay, an instruction conversion module used for converting the task instruction into an operation instruction of equipment and a terminal control module used for connecting the network relay and receiving and sending information. Through remote control network relay, realize IBP control button's emergency stop cancellation function, can also realize carrying out corresponding instruction according to the condition automation when the task is carried out, in addition, can also carry out remote monitoring, look over and fix a position the fault location fast.

Description

Remote monitoring management system for IBP button

Technical Field

The invention relates to the technical field of rail transit, in particular to a remote monitoring management system for an IBP button.

Background

The IBP disk is also called a comprehensive backup disk and is placed in a comprehensive control room of a subway station, and the IBP disk is composed of an IBP panel, a PLC (programmable logic controller) (provided by BAS profession), a human-computer interface terminal (provided and installed by other professions) and a monitoring workbench.

After the emergency stop cancel button is pressed, the button is switched from a normally closed (on) mode to an off mode to realize the function, and the function is completed.

Through retrieval, the chinese patent No. CN114212126A discloses a method and a device for linking emergency stop buttons of transfer platforms, the method uses the emergency stop buttons of the platforms at both sides of the transfer platform in a linked manner through a device for linking the emergency stop buttons of the transfer platform, so as to realize mutual acquisition and detection alarm of the emergency stop buttons of the platforms at both sides, and when the emergency stop button at any side of the same transfer platform is pressed down, the emergency stop function is activated at both sides of the transfer platform, so that when the emergency occurs at the transfer platform, rescue can be rapidly obtained, and casualties can be reduced.

However, many dangerous situations often need risk prediction and prevention, basic related personnel need to judge and execute the dangerous situations, the risks cannot be completely avoided only by manually and manually pressing down buttons, the buttons also have functional effects and are not completely pressed under emergency situations, and therefore control and management of the buttons are particularly important.

Disclosure of Invention

The invention aims to solve the defects in the prior art and provides a remote monitoring and management system for IBP buttons.

In order to achieve the purpose, the invention adopts the following technical scheme:

a remote monitoring management system for an IBP button comprises a network relay connected with an emergency stop cancel button, a cloud server, a connection configuration module used for configuring and defining the network relay connected with the cloud server, a connection state management module, a task formulation module used for directly issuing a task instruction through the cloud server, a task allocation module used for assigning an execution instruction to a certain specific network relay, an instruction conversion module used for converting the task instruction into an operation instruction of equipment and a terminal control module used for connecting the network relay to receive and send information, wherein the network relay comprises a local area interconnection module and a self-execution module, the cloud server is respectively connected with the connection configuration module, the connection state management module and the task formulation module, and the task formulation module is connected with the instruction conversion module through the task allocation module, the instruction conversion module is connected with the terminal control module, and the connection configuration module is respectively connected with the server, the terminal control module and the self-execution module.

Further, the network relay is connected in series with the emergency stop cancellation button, and the network relay is used for controlling the emergency stop cancellation button to be connected or disconnected from a normally closed state.

Further, the connection configuration module comprises a terminal definition module, a priority classification module, a classification control module, a specific marking module and an association control module, wherein:

the terminal definition module is used for defining the network relay as a unique device name and IP information;

the priority division module is used for dividing a priority starting level under the condition of instruction conflict issuing for the network relay;

the classification control module is used for dividing the network relays into a mark type set according to the installation environments and the use purposes of the network relays;

the specific marking module is used for specially marking one or more network relays as specific marks, classifying the specific marks into a specific mark type set and simultaneously having independent task execution instructions;

the association control module is used for setting one or more network relays as association control and formulating association control conditions.

Further, the connection state management module is used for enabling the cloud server and the network relay to be in network connection and detecting and controlling the connection state, and the connection state management module is connected with the self-execution module.

Further, the network relays are connected through the local area interconnection module under the condition that no network exists or the network relays are disconnected from the cloud server, and share data.

Further, the self-execution module is used for performing planned execution according to an originally set task instruction when the network connection is disconnected, wherein the self-execution module comprises a log generation module for recording self-execution operation data and a data storage module for storing the self-execution operation data.

Further, the terminal control module comprises a positioning module for obtaining the position information of the network relay and an information collecting module for obtaining the data of the network relay, wherein the data comprises IP information, log information and database information of the network relay.

Further, the cloud server is a network server, and can be connected with the cloud server through a mobile device capable of being matched with the network, any computer capable of being matched with the network or an app on a smart phone capable of being matched with the network, and issue a control instruction.

Further, the cloud server can be connected through any one or more adaptation gateways, and the any one or more adaptation gateways are connected with the network relay through the terminal control module.

Compared with the prior art, the invention has the beneficial effects that: the emergency stop cancellation function of the IBP control button is realized by remotely controlling a network relay;

on the basis of the effects, unified control management and configuration can be realized in a wireless communication mode, so that the states of equipment at a plurality of positions can be controlled and managed, and clear and visual observation can be realized;

on the basis of the effect, the method can also realize quick positioning, accurate assignment of the task and adjustment of the working mode, can also realize automatic execution of corresponding instructions according to conditions while executing the task, and can also carry out remote monitoring and quickly check and position fault positions;

the local area interconnection system is characterized in that the local area interconnection system comprises a local area interconnection operation module without a communication network, and the local area interconnection operation module is connected with the local area interconnection operation module through a communication network.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention.

FIG. 1 is a schematic flow chart of a remote monitoring management system for IBP buttons according to the present invention;

fig. 2 is a connection diagram of the remote monitoring management system for IBP buttons according to the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1-2, a remote monitoring management system for IBP buttons includes a network relay connected to an emergency stop cancellation button, a cloud server, a connection configuration module for configuring and defining the network relay connected to the cloud server, a connection state management module, a task formulation module for directly issuing a task instruction through the cloud server, a task assignment module for assigning an execution instruction to a specific network relay, an instruction conversion module for converting the task instruction into an operation instruction of a device, and a terminal control module for receiving and transmitting information by being connected to the network relay, wherein the network relay includes a local area interconnection module and a self-execution module, the cloud server is connected to the connection configuration module, the connection state management module and the task formulation module, respectively, and the task formulation module is connected to the instruction conversion module through the task assignment module, the instruction conversion module is connected with the terminal control module, and the connection configuration module is respectively connected with the server, the terminal control module and the self-execution module;

in a specific embodiment of the present application, the network relay is connected in series with the emergency stop cancellation button, and the network relay is configured to control the emergency stop cancellation button to be connected or disconnected from a normally closed state.

In a specific embodiment of the present application, the connection configuration module includes a terminal definition module, a prioritization module, a classification control module, a specific marking module, and an association control module, where:

the terminal definition module is used for defining the network relay as a unique device name and IP information;

specifically, different network relays are distinguished according to the IP information, and user-defined naming display can be directly carried out when the network relays are defined.

The priority division module is used for dividing a priority starting level under the condition of instruction conflict issuing for the network relay;

specifically, the priority starting level may be increased progressively according to the use requirement, when a plurality of instructions are simultaneously controlled to be turned on or turned off, the instruction with the higher priority starting level is mainly used, and another instruction or instructions are displayed as the execution failure.

The classification control module is used for dividing the network relays into a mark type set according to the installation environment and the use purpose of the network relays;

such as: relays marked as XX buttons, XX position relays, XX function relays, or the like

The specific marking module is used for specially marking one or more network relays as specific marks, classifying the specific marks into a specific mark type set and simultaneously having independent task execution instructions;

the association control module is used for setting one or more network relays as association control and formulating association control conditions;

such as: one network relay is controlled to be turned on, and the other related network relay is controlled to be turned off.

In a specific embodiment of the present application, the connection state management module is configured to enable the cloud server and the network relay to perform network connection, and detect and control a connection state, and the connection state management module is connected to the self-execution module.

In a specific embodiment of the application, the network relays are connected through the local area interconnection module under the condition that no network exists or the network relays are disconnected from the cloud server, and share data.

Specifically, the network relays classified into the same set share the task information synchronously when sharing data.

In a specific embodiment of the present application, the self-execution module is configured to perform a scheduled execution according to an originally set task instruction when a network connection is disconnected, where the self-execution module includes a log generation module configured to record self-execution operation data and a data storage module configured to store the self-execution operation data.

In a specific embodiment of the present application, the terminal control module includes a positioning module for obtaining position information of the network relay and an information collecting module for obtaining data of the network relay, where the data includes IP information, log information, and database information of the network relay.

In a specific embodiment of the application, the cloud server is a network server, and can be connected with the cloud server through a mobile device capable of being matched with the network, any computer capable of being connected with the network or an app on a smart phone capable of being connected with the network and issuing a control instruction;

the cloud server can be connected with the network relay through any one or more adaptation gateways, and the any one or more adaptation gateways are connected with the network relay through a terminal control module.

According to the design, one network relay is connected with one corresponding emergency stop cancellation button, the emergency stop cancellation function of the IBP control button is achieved through remote control of the network relay, remote monitoring and control of the mobile device can be achieved by adding the cloud server, and the network relays can be connected with the cloud server through the gateway, so that signal coverage dead angles are reduced.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (9)

1. A remote monitoring management system for an IBP button is characterized by comprising a network relay connected with an emergency stop cancel button, a cloud server, a connection configuration module used for configuring and defining the network relay connected with the cloud server, a connection state management module, a task formulation module used for directly issuing a task instruction through the cloud server, a task allocation module used for appointing an execution instruction to be a specific network relay, an instruction conversion module used for converting the task instruction into an operation instruction of equipment and a terminal control module used for connecting the network relay to receive and send information, wherein the network relay comprises a local interconnection module and a self-execution module, the cloud server is respectively connected with the connection configuration module, the connection state management module and the task formulation module, and the task formulation module is connected with the instruction conversion module through the task allocation module, the instruction conversion module is connected with the terminal control module, and the connection configuration module is respectively connected with the server, the terminal control module and the self-execution module.

2. The remote monitoring and management system for the IBP button according to claim 1, wherein the network relay is connected in series with the emergency stop cancellation button, and the network relay is used to control the emergency stop cancellation button to be connected or disconnected from a normally closed state.

3. The remote monitoring management system for IBP buttons according to claim 2, wherein said connection configuration module comprises a terminal definition module, a prioritization module, a classification control module, a specific labeling module and an association control module, wherein:

the terminal definition module is used for defining the network relay as a unique device name and IP information;

the priority division module is used for dividing a priority starting level under the condition of instruction conflict issuing for the network relay;

the classification control module is used for dividing the network relays into a mark type set according to the installation environment and the use purpose of the network relays;

the specific marking module is used for specially marking one or more network relays as specific marks, classifying the specific marks into a specific mark type set and simultaneously having independent task execution instructions;

the association control module is used for setting one or more network relays as association control and formulating association control conditions.

4. The remote monitoring and management system for the IBP button according to claim 3, wherein the connection state management module is configured to enable the cloud server and the network relay to perform network connection, and detect and control a connection state, and the connection state management module is connected to the self-execution module.

5. The remote monitoring and management system for the IBP button as claimed in claim 4, wherein a plurality of the network relays are connected through the local area interconnection module without a network or with a cloud server, and share data.

6. The remote monitoring and management system for the IBP button as claimed in claim 1, wherein the self-executing module is configured to perform scheduled execution according to an originally set task instruction when the network connection is disconnected, and wherein the self-executing module comprises a log generating module configured to record self-executing operation data and a data storage module configured to store the self-executing operation data.

7. The remote monitoring and management system for the IBP button according to claim 1, wherein the terminal control module comprises a positioning module for obtaining the position information of the network relay and an information collecting module for obtaining the data of the network relay, wherein the data comprises IP information, log information and database information of the network relay.

8. The remote monitoring and management system for the IBP button as claimed in claim 7, wherein the cloud server is a web server, and the cloud server can be connected to the app on any one of the network-enabled mobile device, the network-enabled computer and the smart phone through a network-enabled adaptive mobile device and issues a control command.

9. The remote monitoring and management system for the IBP button as claimed in claim 8, wherein the cloud server is further connected through any one or more adapting gateways, and the cloud server is connected with the network relay through a terminal control module and any one or more adapting gateways.

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