CN111539751A - Fire extinguishing system is with novel thing networking reference inspection traceability system - Google Patents

Abstract

The invention discloses a novel Internet of things reference check traceability system for a fire fighting system, and belongs to the field of fire fighting equipment Internet of things tracking systems. The utility model provides a fire control system is with novel thing networking is with inspection traceability system of comparison, through concrete engineering practice, summarizes new technology, new method, has obtained the traceability system of high-efficient, scientific fire-fighting equipment, carries out the problem that appears in the in-process to the project implementation simultaneously and carries out the analysis, points out the problem that appears easily in each link emphatically, has certain reference meaning to the development of follow-up similar project to the traceability system of having optimized present fire-fighting equipment is at the in-process flow of tracing to the source, has reduced operation step and activity duration.

Description

Fire extinguishing system is with novel thing networking reference inspection traceability system

Technical Field

The invention relates to the field of tracking of fire-fighting equipment internet of things, in particular to a novel internet of things comparison inspection traceability system for a fire-fighting system.

Background

In order to maintain and manage the building fire-fighting equipment, fire fighters need to perform frequent inspection work to check whether each fire-fighting equipment is installed without damage, and the inspection needs to perform actual operation on the building fire-fighting equipment, which is time-consuming, labor-consuming and inefficient.

Therefore, people now develop a remote monitoring system for urban fire protection, which is a fire protection informatization application system that networks independent automatic fire alarm systems in each building through a modern communication network, comprehensively utilizes information technologies such as a geographic information system and digital video monitoring, and monitors the fire alarm conditions of all the networked buildings in real time in a monitoring center and manages fire protection facilities in a centralized manner.

The existing novel Internet of things comparison inspection traceability system for the fire fighting system cannot comprehensively track the whole range from materials to sales.

Disclosure of Invention

The invention aims to solve the problem that comprehensive tracking from materials to the whole sale range cannot be realized, and provides a novel Internet of things comparison inspection traceability system for a fire fighting system.

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

the utility model provides a fire extinguishing system is with novel thing networking reference inspection traceability system, includes following step:

s1, collecting source information of the fire-fighting preparation materials, reading source areas and labels of a transport vehicle through a fixed ALR-9650 reader, placing a door with an RFID reader and an intelligent electronic scale at a warehouse door, recording warehousing and ex-warehouse information of the fire-fighting preparation materials, transmitting data to an upper computer configuration network through an Ethernet by the reader, displaying and storing the data in real time, and connecting the upper computer configuration network with a database server through a TCP/IP (transmission control protocol/Internet protocol);

s2, dividing the production process of the fire-fighting equipment into three stages: preliminary processing, semi-finished products and finished products; the production process information acquisition comprises the following steps: information such as manufacturing time, manufacturing temperature, manufacturing pressure, operator ID, bar code number of production machine and the like, and the manufacturing temperature, the pressure and the time which have important influence on the quality of the fire-fighting equipment need to continuously acquire a plurality of data; converting data of the acquired information through an analog-to-digital conversion module and sending the converted data to an upper computer configuration network, wherein the upper computer configuration network is connected with a database server through a TCP/IP (transmission control protocol/Internet protocol);

s3, storing the finished fire-fighting equipment into a warehouse after the finished fire-fighting equipment is qualified, monitoring environmental factors such as temperature, humidity and illumination intensity in the warehouse, preventing the fire-fighting equipment from aging and the like in the storage process, displaying the fire-fighting equipment on a configuration network interface in real time after analog-to-digital conversion is carried out by a polling instrument, and storing data in a database connected by a configuration network through TCP/IP;

s4, before the finished fire-fighting equipment is delivered out of a warehouse, whether the surface is aged or not and whether the finished fire-fighting equipment has defects in the storage process are checked, the type and the number of the fire-fighting equipment for emergency management, the ID (identity) of an inspector, a destination code and the ID information of a salesman are counted during delivery out of the warehouse, a door with an RFID reader-writer is used for identifying a label and writing an information code, the destination code is replaced by a postal code, the type and the number of the fire-fighting equipment and a database table are verified, and the reader-writer is communicated with an upper computer and a database;

s5, temperature and humidity in a compartment need to be monitored in real time in the logistics transportation process, information is collected in real time in the transportation process by combining GPRS and WSN, a remote wireless reader is used as a vehicle-mounted terminal, remote transmission uses a GR200 module to achieve data transmission, and a radio frequency module uses an RC522 module to communicate with a single chip microcomputer through RS 485;

and S6, designing a fire-fighting equipment traceability system database.

Preferably, in S1, the information to be collected in the step of preventing the material preparation information collection includes: and information such as date, time, material source, material reserve quantity, warehouse material feeding member ID, material taking quantity, material taking member ID, material mixing scheme, material mixing member ID and the like is stored in a raw material table through a configuration network acquisition interface.

Preferably, in S2, the PT100 sensor is used to measure temperature, the HM10 sensor is used to measure pressure, and the data is converted by the analog-to-digital conversion module via the connection FX2NPLC and sent to the database.

Preferably, in S3, the temperature measurement IS performed by using an IS-500AHW sensor, the humidity measurement IS performed by using a JCJ100C sensor, and the light intensity measurement IS performed by using a BH1750 sensor.

Preferably, the check of the number of fire-fighting equipment entering and exiting the warehouse in S3 can be automatically checked and counted by a fixed reader, the reader can be mounted on a door frame, the reader communicates with an upper computer through a TCP/IP protocol, the information such as the type, the number, the inspector and the like of the fire-fighting equipment entering the warehouse can be displayed in real time by the upper computer, and the reader can simultaneously and correctly check a plurality of dangerous goods.

Preferably, the database design content in S6 includes design of database tables and fields, design of E-R diagrams of databases, optimized configuration of database servers, and design of data access modes.

Compared with the prior art, the invention provides a novel Internet of things comparison inspection traceability system for a fire fighting system, which has the following beneficial effects:

1. according to the invention, through specific engineering practice, new technology and new method are summarized, the efficient and scientific fire-fighting equipment traceability system is obtained, meanwhile, problems occurring in the project implementation process are analyzed, the problems which easily occur in each link are pointed out, certain reference significance is provided for the development of subsequent similar projects, the flow of the existing fire-fighting equipment traceability system in the traceability process is optimized, and the operation steps and the operation time are reduced.

Drawings

Fig. 1 is a schematic overall flow diagram of a novel internet of things comparison inspection traceability system for a fire fighting system 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.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Example 1:

the utility model provides a fire extinguishing system is with novel thing networking reference inspection traceability system, includes following step:

s1, collecting source information of the fire-fighting preparation materials, reading source areas and labels of a transport vehicle through a fixed ALR-9650 reader, placing a door with an RFID reader and an intelligent electronic scale at a warehouse door, recording warehousing and ex-warehouse information of the fire-fighting preparation materials, transmitting data to an upper computer configuration network through an Ethernet by the reader, displaying and storing the data in real time, and connecting the upper computer configuration network with a database server through a TCP/IP (transmission control protocol/Internet protocol);

s2, dividing the production process of the fire-fighting equipment into three stages: preliminary processing, semi-finished products and finished products; the production process information acquisition comprises the following steps: information such as manufacturing time, manufacturing temperature, manufacturing pressure, operator ID, bar code number of production machine and the like, and the manufacturing temperature, the pressure and the time which have important influence on the quality of the fire-fighting equipment need to continuously acquire a plurality of data; converting data of the acquired information through an analog-to-digital conversion module and sending the converted data to an upper computer configuration network, wherein the upper computer configuration network is connected with a database server through a TCP/IP (transmission control protocol/Internet protocol);

s3, storing the finished fire-fighting equipment into a warehouse after the finished fire-fighting equipment is qualified, monitoring environmental factors such as temperature, humidity and illumination intensity in the warehouse, preventing the fire-fighting equipment from aging and the like in the storage process, displaying the fire-fighting equipment on a configuration network interface in real time after analog-to-digital conversion is carried out by a polling instrument, and storing data in a database connected by a configuration network through TCP/IP;

s4, before the finished fire-fighting equipment is delivered out of a warehouse, whether the surface is aged or not and whether the finished fire-fighting equipment has defects in the storage process are checked, the type and the number of the fire-fighting equipment for emergency management, the ID (identity) of an inspector, a destination code and the ID information of a salesman are counted during delivery out of the warehouse, a door with an RFID reader-writer is used for identifying a label and writing an information code, the destination code is replaced by a postal code, the type and the number of the fire-fighting equipment and a database table are verified, and the reader-writer is communicated with an upper computer and a database;

s5, temperature and humidity in a compartment need to be monitored in real time in the logistics transportation process, information is collected in real time in the transportation process by combining GPRS and WSN, a remote wireless reader is used as a vehicle-mounted terminal, remote transmission uses a GR200 module to achieve data transmission, and a radio frequency module uses an RC522 module to communicate with a single chip microcomputer through RS 485;

and S6, designing a fire-fighting equipment traceability system database.

Further, preferably, in S1, the information to be collected in the step of preventing the preparation material information collection includes: and information such as date, time, material source, material reserve quantity, warehouse material feeding member ID, material taking quantity, material taking member ID, material mixing scheme, material mixing member ID and the like is stored in a raw material table through a configuration network acquisition interface.

Further, preferably, the temperature is measured in S2 using PT100 sensor and the pressure is measured with HM10 sensor, and the data is converted to be sent to the database by analog-to-digital conversion module through connection FX2 NPLC.

Further, it IS preferable that the temperature measurement in S3 IS measured using an IS-500AHW sensor, the humidity measurement IS measured using a JCJ100C type sensor, and the light intensity measurement IS measured using a BH1750 sensor.

Further, preferably, in the step S3, the fire-fighting equipment warehouse-in and warehouse-out number is checked and counted automatically through a fixed reader, the reader is mountable on a door frame, the reader communicates with an upper computer through a TCP/IP protocol, the upper computer can display information such as the type, number, inspector and the like of the warehouse-in fire-fighting equipment in real time, and the reader can check a plurality of dangerous goods simultaneously and correctly.

Further, preferably, the database design content in S6 includes the design of database tables and fields, the design of database E-R diagrams, the optimized configuration of database servers, and the design of data access modes.

Example 2: based on example 1, but with the difference that:

the detailed introduction of the source tracing form after the database is optimized is as follows;

TABLE 1 Material sources and Primary processing data sheet

The types of materials are various, the data field type selects a long character type, the character length occupies skillful bytes, the field type is suitable for the actual field length and does not waste storage space, the field design is also suitable for a material source and a preparation scheme, the number of personnel in the preparation scheme is not more than 100, the requirement on the storage length can be met and the storage space is saved by using a short integer rather than a long integer, meanwhile, the data field does not allow space-time storage of data, the design avoids the storage of invalid data, and the material source and the initial processing data header in the database are as shown in the table 1.

TABLE 2 production Process data sheet

Production process data acquisition occurs during production, production time counts down in minutes, single-precision real type storage data is used, one decimal is reserved, the field type is suitable for storage of temperature and pressure in the production process, the actual condition of the number of operators does not exceed 30000, the data field type adopts short integer to meet the data storage requirement and save storage space, meanwhile, the data field does not allow space-time storage of data, invalid data storage is avoided by the design, and the production process data header in the database is as in the table 2.

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 (6)

1. The utility model provides a fire extinguishing system is with novel thing networking comparison inspection traceability system which characterized in that includes following step:

s1, collecting source information of the fire-fighting preparation materials, reading source areas and labels of a transport vehicle through a fixed ALR-9650 reader, placing a door with an RFID reader and an intelligent electronic scale at a warehouse door, recording warehousing and ex-warehouse information of the fire-fighting preparation materials, transmitting data to an upper computer configuration network through an Ethernet by the reader, displaying and storing the data in real time, and connecting the upper computer configuration network with a database server through a TCP/IP (transmission control protocol/Internet protocol);

s2, dividing the production process of the fire-fighting equipment into three stages: preliminary processing, semi-finished products and finished products; the production process information acquisition comprises the following steps: information such as manufacturing time, manufacturing temperature, manufacturing pressure, operator ID, bar code number of production machine and the like, and the manufacturing temperature, the pressure and the time which have important influence on the quality of the fire-fighting equipment need to continuously acquire a plurality of data; converting data of the acquired information through an analog-to-digital conversion module and sending the converted data to an upper computer configuration network, wherein the upper computer configuration network is connected with a database server through a TCP/IP (transmission control protocol/Internet protocol);

s3, storing the finished fire-fighting equipment into a warehouse after the finished fire-fighting equipment is qualified, monitoring environmental factors such as temperature, humidity and illumination intensity in the warehouse, preventing the fire-fighting equipment from aging and the like in the storage process, displaying the fire-fighting equipment on a configuration network interface in real time after analog-to-digital conversion is carried out by a polling instrument, and storing data in a database connected by a configuration network through TCP/IP;

s4, before the finished fire-fighting equipment is delivered out of a warehouse, whether the surface is aged or not and whether the finished fire-fighting equipment has defects in the storage process are checked, the type and the number of the fire-fighting equipment for emergency management, the ID (identity) of an inspector, a destination code and the ID information of a salesman are counted during delivery out of the warehouse, a door with an RFID reader-writer is used for identifying a label and writing an information code, the destination code is replaced by a postal code, the type and the number of the fire-fighting equipment and a database table are verified, and the reader-writer is communicated with an upper computer and a database;

s5, temperature and humidity in a compartment need to be monitored in real time in the logistics transportation process, information is collected in real time in the transportation process by combining GPRS and WSN, a remote wireless reader is used as a vehicle-mounted terminal, remote transmission uses a GR200 module to achieve data transmission, and a radio frequency module uses an RC522 module to communicate with a single chip microcomputer through RS 485;

and S6, designing a fire-fighting equipment traceability system database.

2. The novel internet of things comparative inspection traceability system for the fire fighting system according to claim 1, characterized in that: the information required to be acquired in the step of preventing the material preparation information acquisition in the step of S1 is as follows: and information such as date, time, material source, material reserve quantity, warehouse material feeding member ID, material taking quantity, material taking member ID, material mixing scheme, material mixing member ID and the like is stored in a raw material table through a configuration network acquisition interface.

3. The novel internet of things comparative inspection traceability system for the fire fighting system according to claim 1, characterized in that: in S2, the PT100 sensor is used to measure temperature, the HM10 sensor is used to measure pressure, and the data is converted by the analog-to-digital conversion module via the connection FX2NPLC and sent to the database.

4. The novel internet of things comparative inspection traceability system for the fire fighting system according to claim 1, characterized in that: the temperature measurement in the S3 adopts an IS-500AHW sensor, the humidity measurement adopts a JCJ100C sensor, and the illumination intensity measurement adopts a BH1750 sensor.

5. The novel internet of things comparative inspection traceability system for the fire fighting system according to claim 1, characterized in that: the fire fighting equipment warehouse-in and warehouse-out quantity checking in the S3 can be automatically checked and counted through a fixed reader-writer, the reader-writer can be installed on a door frame, the reader-writer is communicated with an upper computer through a TCP/IP protocol, the upper computer can display information such as the type, the quantity and inspectors of the warehouse-in fire fighting equipment in real time, and the reader-writer can correctly check a plurality of dangerous goods at the same time.

6. The novel internet of things comparative inspection traceability system for the fire fighting system according to claim 1, characterized in that: the design content of the database in the S6 comprises the design of a database table and a field, the design of an E-R diagram of the database, the optimized configuration of a database server and the design of a data access mode.

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