CN107170218B - Remote assistance method and system for debugging fire alarm system - Google Patents

Remote assistance method and system for debugging fire alarm system Download PDF

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Publication number
CN107170218B
CN107170218B CN201710571737.2A CN201710571737A CN107170218B CN 107170218 B CN107170218 B CN 107170218B CN 201710571737 A CN201710571737 A CN 201710571737A CN 107170218 B CN107170218 B CN 107170218B
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controller
remote
debugging
mobile terminal
information
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CN107170218A (en
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李勇
翁斌
石险峰
单夫来
徐磊
冯勇
孙峻岭
庞传道
靳超
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Bengbu Ei Fire Electronics Co ltd
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Bengbu Ei Fire Electronics Co ltd
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    • GPHYSICS
    • G08SIGNALLING
    • G08BSIGNALLING OR CALLING SYSTEMS; ORDER TELEGRAPHS; ALARM SYSTEMS
    • G08B29/00Checking or monitoring of signalling or alarm systems; Prevention or correction of operating errors, e.g. preventing unauthorised operation
    • G08B29/12Checking intermittently signalling or alarm systems

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  • Computer Security & Cryptography (AREA)
  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Alarm Systems (AREA)

Abstract

The invention discloses a remote assistance method and a remote assistance system for debugging a fire alarm system, wherein the method comprises the following steps: the controller is accessed to a network, a remote assistance program of the controller is started, and the unique identification information of the controller is provided for a remote debugger; after the remote assistance program receives access request information sent by a debugging application program of the remote mobile terminal through a network, field personnel confirm the access request; and the remote assistance program sends the current state information of the local computer to the remote mobile terminal, receives the operation information of the remote mobile terminal aiming at the current state information, and operates the controller, and the step is repeatedly executed so as to realize the remote assistance debugging of the controller. The invention can effectively solve the problem that engineering service personnel often run back and forth for small problems, and improves the competitiveness of fire-fighting alarm products by using methods such as friendly use, debugging cost reduction, efficiency improvement and the like.

Description

Remote assistance method and system for debugging fire alarm system
Technical Field
The invention relates to a remote assistance method and a remote assistance system for debugging a fire alarm system.
Background
Before debugging the fire alarm system, the specification, the model, the quantity, the spare parts and the like of the equipment are checked according to the requirements of design files. And checking system lines, processing wrong lines, open circuits, short circuits, grounding and the like, connecting an alternating current power supply, connecting a standby storage battery, and preparing for starting and debugging.
Starting up and debugging, carrying out address code operation on the installed detector, the manual alarm button and various modules (input and output modules) according to a design drawing, sorting out a code table according to the corresponding relation between a loop corresponding to the controller and the address codes of the detector and various modules (components), and programming component information, system information, linkage relation and the like on the controller according to the control requirements of the code table and the fire fighting equipment.
And checking whether the controller works normally after programming is finished, and if the controller has faults, checking various faults reported by the controller.
After troubleshooting is completed, a smoke blowing alarm test is carried out on the detector, a trigger alarm test is carried out on the manual alarm button, for non-alarm and false alarm, the detector and the manual alarm button are replaced in time and tested again, whether display information of the detector and the manual alarm button on the controller is correct or not is verified, and if errors occur, adjustment is carried out through field programming.
And (4) performing simulation test on the control module and the control program according to the linkage control requirement, adjusting the parts which cannot be linked correctly (replacing the module, modifying the linkage relation and the like) and performing re-test until the system is all normal.
After the system simulation alarm and the simulation linkage test are finished, the system should be electrified to operate, and after the system operates for 120 hours without faults, the system is ready to be checked and accepted.
In the practical application of the fire-fighting (or automatic fire) alarm system, the system debugging is a process which takes a lot of time, manpower and material resources, wherein a controller in the system is used as the brain of the whole system and is the core part of the debugging, and a plurality of debugging operations are carried out on the controller.
At present, the debugging operation of the controller is basically carried out in front of the field controller in a face-to-face mode, and the method has the following problems:
the keys, the mouse, the touch pad and the like matched with the controller are operated in a face-to-face mode for debugging, so that fatigue is easy to occur.
When performing character editing operations such as annotation programming, the controller's own input method is used, which is generally not in accordance with the personal use habit of the debugger. Most controllers use an embedded system which is independently developed, general program space resources are small, and the difficulty in developing an input method which accords with the use habits of personal mobile phones and computers is high.
Many field constructors are limited by factors such as low cultural level, short training time and the like, can not be familiar with the operation of the fire alarm controller well, can not operate common programming, setting, troubleshooting and the like, often describe phenomena and display contents of the controller unclear during telephone communication, often require engineering service personnel to go to the field for debugging and solving because of a small problem, and have extremely low efficiency.
Disclosure of Invention
The invention aims to provide a remote assistance method for realizing convenient debugging in a fire (or automatic fire) alarm system so as to increase the operation flexibility and the debugging working efficiency of the fire (or automatic fire) alarm system.
The invention also aims to provide a remote assistance system for realizing convenient debugging in a fire (or automatic fire) alarm system so as to increase the operation flexibility and the debugging working efficiency of the fire (or automatic fire) alarm system.
Therefore, the invention provides a remote assistance method for debugging a fire alarm system on one hand, which comprises the following steps: the controller is accessed to a network, a remote assistance program of the controller is started, and the unique identification information of the controller is provided for a remote debugger; after the remote assistance program receives access request information sent by a debugging application program of the remote mobile terminal through a network, field personnel confirm the access request; and the remote assistance program sends the current state information of the local computer to the remote mobile terminal, receives the operation information of the remote mobile terminal aiming at the current state information, and operates the controller, and the step is repeatedly executed so as to realize the remote assistance debugging of the controller.
According to another aspect of the present invention, a remote assistance system for debugging a fire alarm system is provided, which includes a remote mobile terminal, wherein a debugging application program is stored on the remote mobile terminal, and the debugging application program implements the following steps when running: sending an access request to the controller according to the unique identification information of the controller; receiving data sent by a controller through a network, and analyzing/processing the data according to the sequence of fire alarm, action, supervision, fault and other information in turn according to the priority of events to obtain the current state information of the local controller; sorting and displaying the current state information of the controller on a display screen according to the event priority and the time sequence; and generating operation information according to the input operation of the debugger, and sending the operation information to the controller so as to operate the controller.
Further, the above remote assistance system further comprises a remote assistance program stored on the controller, the remote assistance program realizing the following steps when running: collecting current state information of a local computer, wherein the current state information comprises fire alarm, action, supervision, fault and other information; sending data containing current state information to a remote mobile terminal through a network; and operating the controller according to the operation information sent by the remote mobile terminal.
The invention breaks through the traditional controller debugging mode, realizes the near-end and far-end debugging of the controller through portable equipment such as a mobile phone and the like, relieves the limitation of debugging personnel on operating the controller face to face on site, can realize sitting and lying debugging, is not easy to fatigue, uses the input method of the mobile phone which accords with personal use habits to input characters, can effectively solve the problem that engineering service personnel frequently run back and forth for small problems, and improves the competitiveness of products by using friendly degree, reducing debugging cost, improving efficiency and other methods.
In addition to the objects, features and advantages described above, other objects, features and advantages of the present invention are also provided. The present invention will be described in further detail below with reference to the drawings.
Drawings
The accompanying drawings, which are incorporated in and constitute a part of this application, illustrate embodiments of the invention and, together with the description, serve to explain the invention and not to limit the invention. In the drawings:
FIG. 1 is a flow chart of a remote assistance method for fire alarm system commissioning according to the present invention;
FIG. 2 is an overall workflow diagram of a remote assistance method for fire alarm system commissioning according to the present invention;
fig. 3 is a schematic diagram of a network architecture of an application environment of the remote assistance method according to the present invention; and
fig. 4 is a flowchart of the debugging work at the mobile phone end according to the remote assistance method of the present invention.
Detailed Description
It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present invention will be described in detail below with reference to the embodiments with reference to the attached drawings.
The invention makes the controller and the mobile phone establish connection through the network by the technical means, and the mobile phone directly operates the controller to realize the assistance debugging.
When debugging problems cannot be solved on site, the remote assistance method for debugging the fire alarm system can help a remote debugger to solve the problems. The remote assistance method comprises the following steps:
s101, accessing a controller to a network, starting a remote assistance program of the controller, and providing unique identification information of the controller for a remote debugger;
s102, after the remote assisting program receives access request information sent by a debugging application program of the remote mobile terminal through a network, confirming the access request by field personnel; and
s103, the remote assisting program sends the current state information of the remote assisting program to the remote mobile terminal, receives the operation information of the remote mobile terminal aiming at the current state information and operates the controller.
And the step S103 is repeatedly executed, so that the remote assistance debugging of the controller can be realized.
In S101, the controller accesses the network in a wired or wireless manner through its own related circuit, and the controller starts the remote assistance function to wait for remote assistance.
In S102, an application program (APP) used for debugging on the mobile phone is started, information such as a controller number and the like capable of identifying the unique controller is input, an access request is sent, after the controller receives the request information sent by the mobile phone APP, whether field personnel approve access or not is reminded, and after the field personnel approve access, the remote assistance program continues to execute the subsequent steps.
In S103, the controller sends the current state of the mobile phone, such as information of fire alarm, action, supervision, failure, etc., to the mobile phone, and the mobile phone can visually display the current state of the controller. Meanwhile, the mobile phone can be operated by a tool such as a keyboard which is provided or realized virtually, and the operation information is sent to the controller in real time. Through the repeated interaction, convenient debugging is realized.
The remote assistance method according to the present invention, as shown in fig. 2, is typically applied in the following environment: a plurality of debuggers are randomly distributed at each position to execute remote assistance tasks, when field construction personnel encounter the problem that debugging can not be solved, the controller is connected to a network, unique identification information of the controller is selected to be notified to a debugger, such as short messages, telephone calls, instant messaging software QQ and WeChat contact, the debugger receiving the tasks fills the unique identification information into a debugging application program APP of a remote mobile terminal (the APP is developed in advance and stored on a cloud network, and the remote mobile terminal is downloaded, installed and used), and the debugging application program sends an access request according to the unique identification information to establish connection.
In the invention, the remote mobile terminal can be a portable device which can access the internet and is convenient for information interaction, such as a smart phone or a tablet personal computer.
The following describes the cooperation between the controller and the mobile phone with reference to fig. 3 by taking the mobile phone as an example.
The work flow of the controller is as follows: s201, accessing a controller to a network, and opening a remote assistance program; s202, waiting for access; s203, receiving an access request; s204, allowing field personnel to select whether to approve access, if so, establishing one-to-one connection, otherwise, returning to the step S203; s205, entering a remote assistance debugging process; s206, judging whether to finish debugging, if so, finishing debugging, and if not, continuing the remote debugging process.
Correspondingly, the work flow of the mobile phone is as follows: s301, starting debugging an application program APP; s302, inputting a controller number; s303, sending an access request; s304, determine whether to grant access? If yes, establishing one-to-one connection, otherwise returning to S303; s305, performing a remote assistance debugging process; s306, judging whether to finish debugging, if so, finishing debugging, and if not, continuing the remote debugging process.
With reference to fig. 4, after the mobile phone end and the controller are successfully aligned, the specific working process is as follows:
A) the mobile phone application program receives data sent by the controller through a network;
B) according to the priority of the event, the sequence of fire alarm, action, supervision, fault and other information is sequentially carried out, and data are analyzed and processed;
C) after the data are processed, the current state information of the local computer is obtained, and the current information is displayed at corresponding positions respectively after being sorted according to the event priority and the time sequence;
D) the application program judges whether the tools such as a keyboard and the like which are provided by the mobile phone or realized virtually have operated information or not, and sends the operation information to the controller; and
E) and when the application program receives the quitting operation of the mobile phone end, the application program sends the information of quitting debugging to the controller, and the application program quits the debugging state after the application program confirms or reaches the communication fault condition (overtime or exceeding the maximum sending times and the like).
The invention breaks through the traditional controller debugging mode, realizes the near-end and far-end debugging of the controller through portable equipment such as a mobile phone and the like, relieves the limitation of debugging personnel on operating the controller face to face on site, can realize sitting and lying adjustments, is not easy to fatigue, performs character input by using an input method which is in line with personal use habits of the mobile phone, can effectively solve the difficult problem that engineering service personnel frequently run back and forth for small problems and the like, and improves the competitiveness of products by using methods such as friendly use, debugging cost reduction, efficiency improvement and the like.
The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. A remote assistance method for debugging a fire alarm system is characterized by comprising the following steps:
the method comprises the steps that a controller is accessed to a network, a remote assistance program of the controller is started, and unique identification information of the controller is provided for a remote debugger, wherein the controller is a fire alarm controller;
after the remote assistance program receives access request information sent by a debugging application program of the remote mobile terminal through a network, field personnel confirm the access request; and
the remote assistance program sends the current state information of the local computer to the remote mobile terminal, receives the operation information of the remote mobile terminal aiming at the current state information, operates the controller, repeatedly executes the steps to realize the remote assistance debugging of the controller,
the debugging application program realizes the following steps when running:
sending an access request to the controller according to the unique identification information of the controller;
receiving data sent by a controller through a network, and analyzing/processing the data according to the sequence of fire alarm, action, supervision, fault and other information in turn according to the priority of events to obtain the current state information of the local computer;
sorting the current state information of the local computer according to the event priority and the time sequence and displaying the current state information on a display screen; and
generating operation information according to the input operation of the debugger, sending the operation information to the controller,
the remote assistant program realizes the following steps when running:
collecting current state information of a local computer, wherein the current state information comprises fire alarm, action, supervision, fault and other information;
sending data containing current state information to a remote mobile terminal through a network; and
and operating the controller according to the operation information sent by the remote mobile terminal.
2. The remote assistance method for debugging of fire alarm system according to claim 1, wherein said remote assistance program further implements the following steps when running:
and exiting the debugging state according to exit operation information sent by the remote mobile terminal and after a communication fault condition is reached, wherein the communication fault condition comprises overtime or exceeding the maximum sending times.
3. The remote assistance method for debugging of fire alarm system of claim 1, wherein the remote mobile terminal is a smartphone or a tablet computer.
4. A remote assistance system for debugging a fire alarm system is characterized by comprising a remote mobile terminal, wherein a debugging application program is stored on the remote mobile terminal, and the debugging application program realizes the following steps when in operation:
sending an access request to a controller according to the unique identification information of the controller, wherein the controller is a fire alarm controller;
receiving data sent by a controller through a network, and analyzing/processing the data according to the sequence of fire alarm, action, supervision, fault and other information in turn according to the priority of events to obtain the current state information of the local controller;
sorting and displaying the current state information of the controller on a display screen according to the event priority and the time sequence; and
the method comprises the steps of generating operation information according to input operation of a debugger, sending the operation information to a controller to operate the controller, and further comprising a remote assistance program stored on the controller, wherein the remote assistance program realizes the following steps when running:
collecting current state information of a local computer, wherein the current state information comprises fire alarm, action, supervision, fault and other information;
sending data containing current state information to a remote mobile terminal through a network; and
and operating the controller according to the operation information sent by the remote mobile terminal.
5. The remote assistance system according to claim 4, wherein the remote assistance program further implements, when running, the steps of:
and exiting the debugging state according to exit operation information sent by the remote mobile terminal and after a communication fault condition is reached, wherein the communication fault condition comprises overtime or exceeding the maximum sending times.
6. The remote assistance system according to claim 4, wherein the remote mobile terminal is a smartphone or a tablet computer.
CN201710571737.2A 2017-07-13 2017-07-13 Remote assistance method and system for debugging fire alarm system Active CN107170218B (en)

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CN108197806A (en) * 2017-12-29 2018-06-22 武汉神宇电气有限公司 Voltage class electric power facility installation and debugging method and system
CN110650199B (en) * 2019-09-25 2022-08-12 湖南快乐阳光互动娱乐传媒有限公司 Remote connection method and device
CN113176953B (en) * 2021-04-21 2024-08-06 北京锐达仪表有限公司 On-site debugging terminal, instrument remote debugging system, instrument debugging method and readable storage medium
CN114137931B (en) * 2021-11-02 2024-06-21 苏州汇川控制技术有限公司 Remote debugging assisting method and virtual debugging method

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