CN112666660A - Remote wireless control device and control method for optical fiber fusion splicer - Google Patents

Abstract

The invention discloses a remote wireless control device and a control method for an optical fiber fusion splicer, belongs to the field of optical fiber fusion splicers, and aims to build an intelligent sensing terminal by using a wireless communication module and flexibly develop an application terminal according to the requirements of customers so as to realize the acquisition, management, analysis and remote control of data of the fusion splicer. The invention has simple design and development and strong real-time performance; due to the adoption of a modular design idea, the whole device and the method have high expandability and can be realized by selecting different wireless communication modes and cloud platforms according to the requirements of users.

Description

Remote wireless control device and control method for optical fiber fusion splicer

Technical Field

The invention belongs to the field of optical fiber fusion splicers, and particularly relates to a remote wireless control device and a control method for an optical fiber fusion splicer.

Background

With the development of wireless communication technology, the application of the wireless communication technology in the fields of industry, agriculture, traffic, logistics and the like effectively promotes the intelligent development of the industries, so that limited resources are integrated, and the industry efficiency is improved.

The optical fiber fusion splicer is used as an essential tool for splicing optical fibers, and with the arrival of the 5G era, the market demand for the optical fiber fusion splicer is continuously increased. The working state of the equipment, including information such as geographical position, working parameters and welding results and remote control equipment, can be mastered in real time, the informatization management level of operators and operation and maintenance companies can be obviously improved, the use efficiency of the equipment is improved, and cost reduction and efficiency improvement are realized.

Most of the existing processing modes of the optical fiber fusion splicer industry for equipment state data acquisition still stay at the original stage, data acquisition and communication are realized through interfaces such as USB and SD, the problems of untimely, inflexible and unintelligent exist, only a terminal client can acquire data in time in the using process, other related personnel know the data very inconveniently, and certain work cannot be carried out by fusion splicer equipment management personnel and equipment suppliers due to the fact that the work is carried out on the basis of the equipment state and the related data. The application of the remote wireless control function on the welding machine enables management mechanisms such as operators, operation and maintenance companies and the like to acquire the equipment state and related data of the welding machine in real time, such as: whether the geographical position and the working state of the equipment are normal or not and the welding condition in any time period, thereby mastering the construction condition and the quality of the front line of the project. Meanwhile, the equipment supplier can know the use condition of the equipment and deduce the use habit of the customer by analyzing all the use data of the fusion splicer, thereby being beneficial to guiding the customer on line and inputting important requirement parameters for product iteration.

Disclosure of Invention

Aiming at the technical problems in the prior art, the invention provides the remote wireless control device and the control method for the optical fiber fusion splicer, which are reasonable in design, overcome the defects of the prior art and have good effects.

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

a remote wireless control device for an optical fiber fusion splicer comprises a sensing terminal optical fiber fusion splicer, a cloud platform and an application terminal; the sensing terminal optical fiber fusion splicer, the cloud platform and the application terminal are sequentially connected through a circuit;

the perception terminal optical fiber fusion splicer is configured to be used for realizing data acquisition;

the cloud platform is configured to be used for achieving data acquisition and storage of the perception terminal optical fiber fusion splicer;

and the application terminal is configured to be used for realizing upper-layer application functions including perception terminal optical fiber splicer management and data analysis.

Preferably, the perception terminal optical fiber fusion splicer comprises a main control module, a wireless communication module and an antenna, wherein the main control module, the wireless communication module and the antenna are sequentially connected through a circuit; the main control module supplies power to the wireless communication module on one hand, and communicates with the wireless communication module on the other hand, and the communication follows a relevant protocol; the wireless communication module is in charge of communicating with the main control module and the application terminal; the antenna needs to be matched with the sensing terminal optical fiber fusion splicer in a complete machine mode.

Preferably, the cloud platform can be a self-built cloud platform and a mature cloud platform of an operator can be selected.

Preferably, the application terminal can acquire data of the sensing terminal on one hand and can manage and control the sensing terminal through instructions on the other hand.

In addition, the invention also provides a remote wireless control method for the optical fiber fusion splicer, which adopts the remote wireless control device for the optical fiber fusion splicer, and specifically comprises the following steps:

step 1: the acquired state parameters are sent to a cloud end platform in real time through a sensing terminal optical fiber fusion splicer;

step 2: classifying and storing the acquired data through a cloud platform;

and step 3: acquiring state parameters of the optical fiber fusion splicer at the sensing terminal in real time through the application terminal, and mastering the working state of the optical fiber fusion splicer at the sensing terminal;

and 4, step 4: when the state of the sensing terminal optical fiber fusion splicer is abnormal, logging in the application terminal, timely acquiring and analyzing the state parameters of the sensing terminal optical fiber fusion splicer, realizing online fault diagnosis of equipment, and finally modifying related parameters by remotely controlling the sensing terminal optical fiber fusion splicer so that the sensing terminal optical fiber fusion splicer can be timely recovered to be normal.

The invention has the following beneficial technical effects:

selecting a corresponding wireless communication mode according to the requirements of a user, and designing a wireless communication module according to the characteristics of the wireless communication; determining the type of the acquired data according to the practical application occasion of the welding machine and the requirements of customers, setting an uploading trigger condition, and developing an application terminal; when the conditions are met, data collection is completed and uploaded to a cloud-end platform, the collected data are analyzed through the application terminal, a subsequent series of operations are guided, and meanwhile, remote operation control management of the equipment can be achieved through the application terminal. The invention is the innovative application of wireless communication, cloud computing and remote control technologies in the field of instruments, and the whole set of device and method is stable in data communication, good in universality and strong in expandability and can be suitable for instruments and meters except a welding machine.

Drawings

FIG. 1 is a schematic block diagram of the apparatus of the present invention;

fig. 2 is a flow chart of the control method of the present invention.

Wherein, 1-perception terminal optical fiber fusion splicer; 2-cloud platform; 3-application terminal; 4-a main control module; 5-a wireless communication module; 6-antenna.

Detailed Description

The invention is described in further detail below with reference to the following figures and detailed description:

example 1:

as shown in fig. 1, a remote wireless control device and method for an optical fiber fusion splicer includes a sensing terminal optical fiber fusion splicer 1, a cloud platform 2 and an application terminal 3, where the sensing terminal optical fiber fusion splicer 1 realizes data acquisition, the cloud platform 2 realizes data acquisition and storage of all devices, and the application terminal 3 realizes upper-layer application functions such as device management and data analysis.

The perception terminal optical fiber fusion splicer 1 comprises a main control module 4, a wireless communication module 5 and an antenna 6, wherein the main control module 4 supplies power to the wireless communication module 5 on one hand, and communicates with the wireless communication module 5 on the other hand, and the communication follows a relevant protocol; the wireless communication module 5 is responsible for communicating with the main control module 4 and the application terminal 3; the antenna 6 needs to be matched with the optical fiber welding machine at the sensing terminal optical fiber welding machine end 1 through the whole machine.

The cloud platform 2 is an important ring for realizing management control of the equipment of the optical fiber fusion splicer 1 at the sensing terminal, and can be a self-built cloud platform or a mature cloud platform of an operator.

The application terminal 3 can acquire data of the sensing terminal optical fiber fusion splicer 1 on one hand, and can manage and control the sensing terminal 1 through an instruction on the other hand.

In order to realize the remote wireless data communication and operation control functions of the fusion splicer, firstly, a wireless communication mode and an application terminal are determined according to user requirements, then a data communication protocol is determined according to the wireless communication mode, and the sensing terminal optical fiber fusion splicer 1, the cloud platform 2 and the application terminal 3 carry out data communication according to the determined communication protocol, so that the acquisition, management, analysis and remote control of equipment data are realized.

Example 2:

the invention also provides a remote wireless control method for the optical fiber fusion splicer, the flow of which is shown in figure 2, and the method specifically comprises the following steps:

step 1: the acquired state parameters are sent to a cloud end platform in real time through a sensing terminal optical fiber fusion splicer;

step 2: classifying and storing the acquired data through a cloud platform;

and step 3: acquiring state parameters of the optical fiber fusion splicer at the sensing terminal in real time through the application terminal, and mastering the working state of the optical fiber fusion splicer at the sensing terminal;

and 4, step 4: when the state of the sensing terminal optical fiber fusion splicer is abnormal, logging in the application terminal, timely acquiring and analyzing the state parameters of the sensing terminal optical fiber fusion splicer, realizing online fault diagnosis of equipment, and finally modifying related parameters by remotely controlling the sensing terminal optical fiber fusion splicer so that the sensing terminal optical fiber fusion splicer can be timely recovered to be normal.

The optical fiber fusion splicer can build a perception terminal by adding the wireless communication module and the antenna on the basis of the existing splicer equipment, an application terminal is developed according to the actual customer requirements, and data communication and remote control can be realized by matching with a communication protocol; meanwhile, the method has strong real-time performance. Due to the adoption of a modular design idea, the whole device and the method have high expandability and can be realized by selecting different wireless communication modes and cloud platforms according to the requirements of users.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and those skilled in the art may make modifications, alterations, additions or substitutions within the spirit and scope of the present invention.

Claims (5)

1. The utility model provides a long-range wireless control device of optical fiber fusion splicer which characterized in that: the system comprises a sensing terminal optical fiber fusion splicer, a cloud platform and an application terminal; the sensing terminal optical fiber fusion splicer, the cloud platform and the application terminal are sequentially connected through a circuit;

the perception terminal optical fiber fusion splicer is configured to be used for realizing data acquisition;

the cloud platform is configured to be used for achieving data acquisition and storage of the perception terminal optical fiber fusion splicer;

and the application terminal is configured to be used for realizing upper-layer application functions including perception terminal optical fiber splicer management and data analysis.

2. The remote wireless control device for the optical fiber fusion splicer according to claim 1, wherein: the sensing terminal optical fiber fusion splicer comprises a main control module, a wireless communication module and an antenna, wherein the main control module, the wireless communication module and the antenna are sequentially connected through a circuit; the main control module supplies power to the wireless communication module on one hand, and communicates with the wireless communication module on the other hand, and the communication follows a relevant protocol; the wireless communication module is in charge of communicating with the main control module and the application terminal; the antenna needs to be matched with the sensing terminal optical fiber fusion splicer in a complete machine mode.

3. The remote wireless control device for the optical fiber fusion splicer according to claim 1, wherein: the cloud platform can be a self-built cloud platform, and a mature cloud platform of an operator can also be selected.

4. The remote wireless control device for the optical fiber fusion splicer according to claim 1, wherein: the application terminal can acquire the data of the sensing terminal on one hand and manage and control the sensing terminal through an instruction on the other hand.

5. A remote wireless control method for an optical fiber fusion splicer is characterized in that: the remote wireless control device for the optical fiber fusion splicer according to claim 1, comprising:

step 1: the acquired state parameters are sent to a cloud end platform in real time through a sensing terminal optical fiber fusion splicer;

step 2: classifying and storing the acquired data through a cloud platform;

and step 3: acquiring state parameters of the optical fiber fusion splicer at the sensing terminal in real time through the application terminal, and mastering the working state of the optical fiber fusion splicer at the sensing terminal;

and 4, step 4: when the state of the sensing terminal optical fiber fusion splicer is abnormal, logging in the application terminal, timely acquiring and analyzing the state parameters of the sensing terminal optical fiber fusion splicer, realizing online fault diagnosis of equipment, and finally modifying related parameters by remotely controlling the sensing terminal optical fiber fusion splicer so that the sensing terminal optical fiber fusion splicer can be timely recovered to be normal.

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