CN111160495A - Gas cylinder full life cycle tracing system and method - Google Patents

Abstract

A gas cylinder full life cycle traceability system, comprising: the two-dimensional code is arranged on the gas cylinder, the two-dimensional code and the gas cylinder establish a corresponding relation, and the two-dimensional code at least comprises gas cylinder attribute information; the production end interaction processing module: the communication terminal is arranged on the communication terminal of at least one user of the production terminal; the user end interaction processing module: the communication terminal is arranged on the communication terminal of at least one user of the user end; the processing platform, its production end interaction processing module and user end interaction processing module further interact, further includes: the gas cylinder attribute processing module: the system is used for updating and maintaining the gas cylinder basic data and establishing the binding relationship between the type of the gas cylinder and a filling medium; the gas cylinder detection processing module: the detection management and control device is used for respectively carrying out detection management and control on pre-filling detection, filling detection and post-filling detection; the pre-filling detection is used for detection management and control before the gas cylinder is filled; the filling detection is used for detecting the filling process of a batch of gas cylinders of the same type, and the detection after the filling is used for rechecking the gas cylinders to ensure that the gas cylinders can be sold to the outside.

Description

Gas cylinder full life cycle tracing system and method

Technical Field

The invention relates to the field of gas cylinder safety supervision, in particular to a system and a method for completing the whole life cycle tracing of a gas cylinder by utilizing a two-dimensional code and the like.

Background

Along with the gradual substitution of clean energy such as natural gas for gasoline and application on the car, the safety problem of on-vehicle gas cylinder obtains people's more and more attention. The CNG cylinder is a high-pressure container for storing compressed natural gas, and the following problems mainly exist in the management of the CNG cylinder at present: 1) illegal installation of a unit, and the inferior steel cylinder enters the market; 2) incomplete file data, difficult inflation of the gas station; 3) the market benefits are struggled for, and the gas filling invisible gas cylinder is overdue; 4) information intercommunication is not smooth, and monitoring strength has a vulnerability.

Two-dimensional Code (also called two-dimensional bar Code) is a black and white alternate pattern distributed on a plane (two-dimensional direction) according to a certain rule by using a specific geometric figure, and is a key for all information data. At present, two-dimension codes are widely applied, such as: product anti-counterfeiting/tracing, advertisement pushing, information transmission and the like. Therefore, a CNG gas cylinder supervision system based on two-dimensional codes, which has the advantages of simple structure, reasonable design, simple and convenient use and operation and good use effect, needs to be designed, can effectively supervise the CNG gas cylinder in real time, and has lower investment cost.

The delivery city academy at 201520719655.4 discloses a CNG gas cylinder supervision system based on two-dimensional codes, which comprises an upper computer positioned in a gas cylinder supervision office, a quality inspection information input terminal controlled by CNG gas cylinder quality inspection personnel, a plurality of handheld gas filling supervision terminals carried by a plurality of gas filling workers respectively, and a plurality of two-dimensional code jet printing devices for jet printing two-dimensional codes in which the serial numbers and the quality inspection information of the supervised CNG gas cylinders are stored, wherein the handheld gas filling supervision terminals, the two-dimensional code jet printing devices and the upper computer are communicated through Ethernet; the quality inspection information input terminal comprises an information input device and a two-dimensional code generator, and the two-dimensional code generator is connected with the upper computer; the handheld gas filling supervision terminal comprises a handheld shell, an electronic circuit board and a two-dimensional code reader. This simple structure, reasonable in design and use easy and simple to handle, excellent in use effect can carry out real-time, effective supervision and input cost lower to the CNG gas cylinder.

However, how to track all activity records of the whole life cycle of the gas cylinder, including attributes, detection records, filling records, circulation records, ownership information and the like. Through the whole record of record life cycle, control gas cylinder behaviour in service, quality situation, the high-efficient management gas cylinder promotes the gas cylinder rate of utilization on the basis of promotion gas cylinder application safety factor, reduces the gas cylinder idle rate, makes clear and definite gas cylinder ownership information etc. lets the gas cylinder owner utilize the gas cylinder more effectively. The prior art does not realize the tracing and management of the whole life cycle.

Disclosure of Invention

The invention aims to provide a gas cylinder full life cycle tracing system and a gas cylinder full life cycle tracing method, so that all activity records of the whole life cycle of a gas cylinder are traced, including attributes, detection records, filling records, circulation records, ownership information and the like. Through the whole record of record life cycle, control gas cylinder behaviour in service, quality situation, the high-efficient management gas cylinder promotes the gas cylinder rate of utilization on the basis of promotion gas cylinder application safety factor, reduces the gas cylinder idle rate, makes clear and definite gas cylinder ownership information etc. lets the gas cylinder owner utilize the gas cylinder more effectively.

A gas cylinder full life cycle traceability system, comprising:

the two-dimensional code is arranged on the gas cylinder, the two-dimensional code and the gas cylinder establish a corresponding relation, and the two-dimensional code at least comprises gas cylinder attribute information;

the production end interaction processing module: the communication terminal is arranged on the communication terminal of at least one user of the production terminal;

the user end interaction processing module: the communication terminal is arranged on the communication terminal of at least one user of the user end;

the processing platform, its production end interaction processing module and user end interaction processing module further interact, further includes:

the gas cylinder attribute processing module: the system is used for updating and maintaining the gas cylinder basic data and establishing the binding relationship between the type of the gas cylinder and a filling medium;

the gas cylinder detection processing module: the detection management and control device is used for respectively carrying out detection management and control on pre-filling detection, filling detection and post-filling detection; the pre-filling detection is used for detection management and control before the gas cylinder is filled; the filling detection is used for detecting the filling of a batch of gas cylinders of the same type and the filling process, and the detection after the filling is used for rechecking the gas cylinders to ensure that the gas cylinders can be sold to the outside;

the user end authority processing module: and the system is used for carrying out various authority control on the user corresponding to the user-side interactive processing module.

The processing platform still further comprises:

receive and dispatch bottle management and control processing module: the gas cylinder record for managing and controlling the receiving and sending of the cylinder takes the two-dimensional code as the identification record every time the cylinder enters and exits.

The processing platform further comprises:

and the gas cylinder life cycle management and control processing module is used for tracing and managing the whole life cycle of the gas cylinder including maintenance, regular inspection, cylinder change and scrapping.

And the user authority management module is used for managing and controlling various kinds of users.

The task and safety monitoring management module is used for setting management and control of certain timing operations including data cleaning, data archiving and data abnormity checking according to needs, and managing and controlling the current database state, the historical executed data operation and the database safety record.

A gas cylinder full life cycle traceability method, further comprising:

scanning the code to identify the gas cylinder, and establishing corresponding management of the two-dimensional code of the gas cylinder and the gas cylinder;

scanning the two-dimensional code to directly identify the information of the gas cylinder, and carrying out gas cylinder detection including detection before filling, filling detection and detection after filling;

scanning the two-dimensional code to carry out management and control operation of sending the gas cylinder, wherein the management and control operation further refers to that in an order link, a manufacturer is required to distribute gas to a client, and then the gas cylinder is delivered to a corresponding escort personnel by a transceiver according to a specified order number, and when the escort personnel leave a vehicle and send the gas to the specified client, the gas cylinder is recorded;

and scanning the two-dimensional code to perform management and control operation on the use process of the user.

Gas cylinder record for managing and controlling receiving and sending of cylinder and recording each time of entering and exiting by taking two-dimensional code as identification

And establishing a binding relationship between the type of the gas cylinder and the filling medium.

And the whole life cycle of the gas cylinder including maintenance, regular inspection, cylinder change and scrapping is traced and managed.

Compared with the prior art, the invention has the following characteristics:

the invention not only realizes the tracing and management of the whole life cycle, but also,using gas cylinder full life cycle data On the basis of the management laws and regulations of special equipment-gas cylinders issued by the state, the system utilizes BI (Business information) Intelligence, which is a technology that applies data warehouse, on-line analysis and data mining to process and analyze data Brand new technology) can achieve self-defined conditions and periodic data analysis and summarization, and abnormal data prompt and early warning. Is qi The bottle using main body unit and the external supervision department provide data retrieval support and supervision strategy reference.

Drawings

FIG. 1 is a process flow diagram of two-dimensional code binding of a gas cylinder;

FIG. 2 is a flow chart of a gas cylinder detection process;

fig. 3 is a gas cylinder transceiving flowchart.

Detailed Description

The two-dimensional code is also called two-dimensional bar code, which is distributed according to a certain rule by using specific geometric figure to record data, symbol and other information. Compared with the traditional bar code, the two-dimensional code can store more information such as numbers, pictures and the like and more data types. The two-dimensional codes commonly used at present include quick response matrix codes (QR codes), four-one-seven bar codes (PDF417 codes), and the like.

A two-dimensional code is an information carrier that needs to be attached to a specific object to enable information transfer. The two-dimensional code is used for tracing, and the attached object needs to be identified, namely, the object is coded.

With the wide popularization of mobile devices, two-dimensional codes are widely applied to a plurality of fields such as mobile payment, certificate management, electronic ticketing, information reading, production management, food source tracing, logistics tracking, catering services and the like.

A gas cylinder full life cycle traceability system, comprising:

the two-dimensional code is arranged on the gas cylinder, the two-dimensional code and the gas cylinder establish a corresponding relation, and the two-dimensional code at least comprises gas cylinder attribute information;

the production end interaction processing module: the communication terminal is arranged on the communication terminal of at least one user of the production terminal;

the user end interaction processing module: the communication terminal is arranged on the communication terminal of at least one user of the user end;

the processing platform, its production end interaction processing module and user end interaction processing module further interact, further includes:

the gas cylinder attribute processing module: the system is used for updating and maintaining the gas cylinder basic data and establishing the binding relationship between the type of the gas cylinder and a filling medium;

the gas cylinder detection processing module: the detection management and control device is used for respectively carrying out detection management and control on pre-filling detection, filling detection and post-filling detection; the pre-filling detection is used for detection management and control before the gas cylinder is filled; the filling detection is used for detecting the filling of a batch of gas cylinders of the same type and the filling process, and the detection after the filling is used for rechecking the gas cylinders to ensure that the gas cylinders can be sold to the outside;

the user end authority processing module: and the system is used for carrying out various authority control on the user corresponding to the user-side interactive processing module.

The processing platform still further comprises:

receive and dispatch bottle management and control processing module: the gas cylinder record for managing and controlling the receiving and sending of the cylinder takes the two-dimensional code as the identification record every time the cylinder enters and exits.

The processing platform further comprises:

and the gas cylinder life cycle management and control processing module is used for tracing and managing the whole life cycle of the gas cylinder including maintenance, regular inspection, cylinder change and scrapping.

And the user authority management module is used for managing and controlling various kinds of users.

The task and safety monitoring management module is used for setting management and control of certain timing operations including data cleaning, data archiving and data abnormity checking according to needs, and managing and controlling the current database state, the historical executed data operation and the database safety record.

A gas cylinder full life cycle traceability method, further comprising:

scanning the code to identify the gas cylinder, and establishing corresponding management of the two-dimensional code of the gas cylinder and the gas cylinder;

scanning the two-dimensional code to directly identify the information of the gas cylinder, and carrying out gas cylinder detection including detection before filling, filling detection and detection after filling;

scanning the two-dimensional code to carry out management and control operation of sending the gas cylinder, wherein the management and control operation further refers to that in an order link, a manufacturer is required to distribute gas to a client, and then the gas cylinder is delivered to a corresponding escort personnel by a transceiver according to a specified order number, and when the escort personnel leave a vehicle and send the gas to the specified client, the gas cylinder is recorded;

and scanning the two-dimensional code to perform management and control operation on the use process of the user.

The invention discloses a specific implementation example.

4.1. Code scanning identification gas cylinder information

The tracing of the gas cylinder is started from the identification of the gas cylinder, and only by identifying the gas cylinder firstly through a technical means, the subsequent operation gas cylinder can be accurately recorded, and information can be accurately recorded.

The code scanning recognition of the gas cylinder starts from printing of a two-dimensional code (the two-dimensional code comprises information of a unit to which the gas cylinder belongs, and the information of the gas cylinder to which the gas cylinder belongs is obtained after the gas cylinder is bound). The two-dimension code is printed, wherein one is to print new unused two-dimension code information, and the other is to print used but lost two-dimension code information (only one two-dimension code can be bound to one gas cylinder, and if the two-dimension code is lost, the two-dimension code is printed again and pasted on the gas cylinder).

The operation of binding the gas cylinder can be started after the two-dimensional code is printed, and the two-dimensional code can be really effective only if the information of the gas cylinder is bound. The two-dimensional code of a gas cylinder not bound and the gas cylinder of a corresponding two-dimensional code not bound are taken, and the gas cylinder binding operation is carried out in our APP. Inputting basic information of the gas cylinder, scanning the two-dimensional code after confirming, submitting the two-dimensional code after scanning the code successfully, and binding successfully. If the submitted gas cylinder is bound with the two-dimension code before, the binding fails and prompt information is given, the gas cylinder needs to be found in the 'gas cylinder information management' of the background management system, the two-dimension code of the gas cylinder is exported and printed, and the printed two-dimension code is pasted on the gas cylinder. (as shown in FIG. 1)

After the gas cylinder is bound, the information of the gas cylinder can be directly identified by scanning the two-dimensional code in subsequent operation, and the two-dimensional code is used for identifying the gas cylinder in other operations, such as a detection link, a receiving and sending link and the like.

4.1.2 gas cylinder detection information

The detection of the gas cylinder is mainly divided into three types, namely detection before filling, detection after filling and detection after filling (as shown in figure 2).

Pre-fill testing is testing of the cylinder prior to filling, may occur after the cylinder is purchased, or may occur after it is retrieved from the customer. The detection before filling is carried out to confirm the safety of the gas cylinder, the gas cylinder can be stored in a factory, and the next filling link can be carried out after the detection is passed.

When the filling task is carried out, batch operation can be carried out, namely, a batch of gas cylinders of the same type are filled and the filling process is detected. And if the filling is correct, the gas cylinder is transferred to the formulated area after the filling is finished, and the next detection is carried out.

After filling, detecting after filling, and checking the gas cylinder again to ensure that the gas cylinder can be sold outwards.

4.1.3 gas cylinder receiving and dispatching

The gas cylinder receiving and dispatching is directly related to logistics and comprises two steps of sending a gas cylinder and recovering the gas cylinder. (as shown in FIG. 3)

And sending the gas cylinder, namely in an order link, a manufacturer is required to distribute gas to a client, and then the gas cylinder is delivered to a corresponding escort personnel by a transceiver according to a specified order number, and the escort personnel is dispatched to the specified client when leaving the vehicle and records when delivering the gas cylinder to the client.

The gas cylinder recovery process refers to a process of recovering a gas cylinder (mainly an air cylinder) from a client by a escort personnel, submitting information after confirming the recovered gas cylinder, and pulling the gas cylinder back to a factory (after pulling back, the above-mentioned operation of detection before filling can be carried out). The operation of "recovering cylinders" essentially occurs after the operation of "sending out cylinders".

4.2 treatment platform

User management: user management is a module for managing the organization structure department of a company and the employees under the department. Organization architecture level: group company (head office) -division-department-personnel. The user can be searched by using the login name, the mobile phone number and the user state, and the user can be newly added, edited and deleted.

And (3) role management: similar to rights management, the use rights of the function menu of the employee can be configured, and then the configured role is bound to the user, so that the functions and the data which can be viewed by each employee are limited.

And (3) menu management: editing left menu attributes, names, corresponding graphs and display states, etc. The attribute is not limited by user authority and belongs to an admin level display state.

And (4) post management: different posts can be set for users to distinguish different functions and different work contents. Taking industrial gas functions as an example, the functions generally include: general manager, vice general manager, sale, detection, production, receiving and dispatching, internal service and safety.

System monitoring-online user: and (3) system monitoring: the main purpose is to facilitate the administrator to have a global grasp of the current platform state. And (3) an online user: which are currently on-line users. Timing tasks: some timing operations such as data cleaning, data archiving, data exception checking and the like can be set according to requirements. Data monitoring: current database state, historically performed data operations, database security records, and the like. Service monitoring: the hardware load, memory occupation, disk space, etc. of the current server.

Basic data:

cylinder management-cylinder: the gas cylinder basic data table covers: the gas cylinder belongs to a company, the type of the gas cylinder (steel seamless gas cylinder, steel welded gas cylinder, aluminum alloy seamless gas cylinder, adiabatic welded cylinder, dewar tank, liquefied gas cylinder and the like), a gas medium, a two-dimensional code number bound with the gas cylinder, a steel outgoing code of the gas cylinder, a self-coding of the gas company, a gas cylinder manufacturing date, a gas cylinder manufacturing unit, the wall thickness of the gas cylinder, the volume, the water pressure, the detection period, the service life, the next scheduled inspection date and the like.

Cylinder type (total): and maintaining the type of the master gas cylinder on the platform. Only the type of cylinder configured here can the enterprise user configure the type in their company.

Filling medium (total): and maintaining the total filling medium on the platform. Only with the gaseous medium configured here can the enterprise user configure the medium within their company.

Cylinder type and fill medium: here, the binding relationship between the cylinder type and the filling medium is managed. The type of the gas cylinder and the filling medium cannot be configured at will, corresponding configuration is required to be made by the platform according to national specifications, and corresponding configuration can be made by enterprise users according to the specifications. Different configurations can also affect the periodic check cycle and the end-of-life of the cylinder.

Unit management-user unit: the user unit setting includes: enterprise unit name, location address, contact person responsible, contact telephone, platform code of the unit, enterprise number (name pinyin), two-dimensional code binding relationship (cylinder steel seal number, enterprise self-coding, enterprise performs relevant selection according to own relationship requirement), cylinder label quantity (current expression use amount), export number each time (quantity of downloading new label each time).

Gas cylinder production unit, gas cylinder fill unit, detection unit: setting related units: the gas enterprises report their own gas cylinder suppliers (gas cylinder production units), production units and detection units under their organizational structures (due to different qualification requirements of filling and detection, many enterprises will be divided into 2 companies to operate).

And (4) work items: the current platform supports 9 major module functions: filling, detecting before filling, detecting after filling, sending bottles, receiving bottles, maintaining, checking, changing bottles and scrapping. The user unit can also select the used module according to the actual service requirement of the user unit.

Unit area: the library area configuration and use rules of each user unit are different, so different library area names can be configured according to the actual requirements of the user.

Unit item subsequent flow to area: this function is to configure the area to which the cylinders may flow after different work items by the enterprise. The enterprise can conveniently count the flow conditions in the factory.

Detecting before filling: when a newly purchased gas cylinder and a recovered gas cylinder enter the field, the gas cylinder needs to be detected before being charged once, the gas cylinder is ensured to be in a good usable state, and whether damage occurs or not is checked.

And (3) filling task: the system contains all production records (filling tasks) of the unit, and is convenient for enterprise units to count and check different groups of different employees.

Filling and detecting: during the filling task, each cylinder needs to be checked during production, such as valve ports, pipes, gas leakage, etc.

And (3) detecting after charging: according to the national filling standard requirements, the gas cylinder is required to be subjected to quality detection after being filled, and safety production marks and certificates are required to be attached, so that the link is indispensable.

Receiving and sending records: and recording the gas cylinder record in each time of entering and exiting, wherein the gas cylinder enters and exits with the waybill number, and the entering and exiting without the waybill are illegal.

Recording a transmitting and receiving gas cylinder: and recording the number of the gas cylinders in the batch every time of receiving and sending.

Compared with the prior art, the invention has the following advantages:

1) multi-front-end, cross-platform operation: due to the fact that a plurality of different open source development languages (JAVA development language, Html front end development technology and php front end development framework) are used, the method can be used for realizing presentation and use in different types of front end devices (smart phones, tablet computers and pc computers) in a network online installation mode (application stores and http network file link) or an online network page loading mode (any device program with www world wide web access capability).

2) Data interaction and storage modes are standardized and unified: different types of terminals perform data request and communication on a background management system which can be assumed to be deployed in a cloud server or a user self-built machine room through a uniform Http network protocol. Due to the fact that the whole database design is used, all data are integrated in a unified base table, and the data management and searching capabilities of human-level, company-level and city-county-level are achieved through user-level authority management.

3) Actively presenting data: taking the detection data as an example, each gas cylinder is made of different materials and then filled with a medium (gas) of the gas cylinder, and the characteristics (toxicity, corrosivity and activity) of different gases can influence the use mode, the detection period and the elimination period of the gas cylinder (the national regulatory department has detailed specifications for the detection period). The traditional supervision and inspection mode belongs to passive inspection, namely, if a supervisor does not actively look up the production date of the gas cylinder in a gas cylinder file (original data of the gas cylinder is provided by a gas cylinder manufacturer, and filling enterprise records are recorded in paper or electronic files), the safety of the gas cylinder cannot be reflected in time by the passive supervision, and a large amount of potential safety hazards are caused. Under the condition of using this system, the personnel of gas cylinder unit need input gas cylinder serial number in the system when new bottle is purchased, gas cylinder date of production, gas cylinder material and usage, simultaneously through scanning the two-dimensional code serial number, accomplish gas cylinder data entry and accomplish the relation of binding of gas cylinder information and two-dimensional code serial number in the database, and the warning task of following next detection cycle can be established automatically to the system so, and the system task of scrapping. And each month, the database executes the search of the task of the detection system according to the preset script task, and lists the list of the gas cylinders to be detected in the month in the system. When a new detection date is recorded in the gas cylinder detection function, the system replaces the latest detection date and updates the next detection date according to the supervision rule. In addition, in the next month, as long as codes are scanned in the transportation or filling link, safety warning can be generated in the front-end page, and potential safety hazards caused by missed detection are greatly reduced. The data analysis model of the background system also helps the gas cylinder unit to master the detection states, the detection coverage rate and the timeliness rate of all the self gas cylinders in the factory area in real time in the background management system in the form of a BI data report.

The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above embodiments, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention. It should be noted that modifications and embellishments within the scope of the invention may occur to those skilled in the art without departing from the principle of the invention, and are considered to be within the scope of the invention.

Claims (9)

1. A full life cycle traceability system of a gas cylinder is characterized by comprising:

the two-dimensional code is arranged on the gas cylinder, the two-dimensional code and the gas cylinder establish a corresponding relation, and the two-dimensional code at least comprises gas cylinder attribute information;

the production end interaction processing module: the communication terminal is arranged on the communication terminal of at least one user of the production terminal;

the user end interaction processing module: the communication terminal is arranged on the communication terminal of at least one user of the user end;

the processing platform, its production end interaction processing module and user end interaction processing module further interact, further includes:

the gas cylinder attribute processing module: the system is used for updating and maintaining the gas cylinder basic data and establishing the binding relationship between the type of the gas cylinder and a filling medium;

the gas cylinder detection processing module: the detection management and control device is used for respectively carrying out detection management and control on pre-filling detection, filling detection and post-filling detection; the pre-filling detection is used for detection management and control before the gas cylinder is filled; the filling detection is used for detecting the filling of a batch of gas cylinders of the same type and the filling process, and the detection after the filling is used for rechecking the gas cylinders to ensure that the gas cylinders can be sold to the outside;

the user end authority processing module: and the system is used for carrying out various authority control on the user corresponding to the user-side interactive processing module.

2. The gas cylinder full life cycle traceability system of claim 1, wherein the processing platform further comprises:

receive and dispatch bottle management and control processing module: the gas cylinder record for managing and controlling the receiving and sending of the cylinder takes the two-dimensional code as the identification record every time the cylinder enters and exits.

3. A gas cylinder full life cycle traceability system of claim 1, further comprising:

and the gas cylinder life cycle management and control processing module is used for tracing and managing the whole life cycle of the gas cylinder including maintenance, regular inspection, cylinder change and scrapping.

4. A gas cylinder full life cycle traceability system of claim 1, further comprising: and the user authority management module is used for managing and controlling various kinds of users.

5. A full life cycle traceability system of a gas cylinder as claimed in claim 1, comprising:

the task and safety monitoring management module is used for setting management and control of certain timing operations including data cleaning, data archiving and data abnormity checking according to needs, and managing and controlling the current database state, the historical executed data operation and the database safety record.

6. A gas cylinder full life cycle traceability method, further comprising:

scanning the code to identify the gas cylinder, and establishing corresponding management of the two-dimensional code of the gas cylinder and the gas cylinder;

scanning the two-dimensional code to directly identify the information of the gas cylinder, and carrying out gas cylinder detection including detection before filling, filling detection and detection after filling;

scanning the two-dimensional code to carry out management and control operation of sending the gas cylinder, wherein the management and control operation further refers to that in an order link, a manufacturer is required to distribute gas to a client, and then the gas cylinder is delivered to a corresponding escort personnel by a transceiver according to a specified order number, and when the escort personnel leave a vehicle and send the gas to the specified client, the gas cylinder is recorded;

and scanning the two-dimensional code to perform management and control operation on the use process of the user.

7. The method of claim 6, further comprising:

the receiving and sending of the bottle are controlled, and the two-dimensional code is used as the identification record to record the gas bottle entering and exiting each time.

8. The method of claim 6, further comprising: and establishing a binding relationship between the type of the gas cylinder and the filling medium.

9. The method of claim 6, further comprising: and the whole life cycle of the gas cylinder including maintenance, regular inspection, cylinder change and scrapping is traced and managed.

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