CN110791608A - Temperature-measuring carbon-determining oxygen-determining probe, system and tracking method based on two-dimensional code - Google Patents

Abstract

A temperature measurement carbon and oxygen determination probe based on a two-dimensional code, a system and a tracking method are disclosed, the system comprises an automatic probe loading device, a wireless two-dimensional code scanning device, a sublance data intelligent system and a temperature measurement carbon and oxygen determination probe pasted with a two-dimensional code device identification plate, measurement data of all the temperature measurement carbon and oxygen determination probes are stored in the sublance data intelligent system, the wireless two-dimensional code scanning device is installed on the front side of a bullet outlet of the automatic probe loading device and used for reading the two-dimensional code on the temperature measurement carbon and oxygen determination probe when the temperature measurement carbon and oxygen determination probe is installed on the bullet outlet through the automatic probe loading device, acquiring unique device identification information of the temperature measurement carbon and oxygen determination probe, and transmitting the acquired unique device identification information of the temperature measurement carbon and oxygen determination probe to the sublance data intelligent system; the sublance data intelligent system is used for correlating the received unique equipment identification information of the temperature-measuring carbon-determining oxygen-determining probe with the measurement data of the temperature-measuring carbon-determining oxygen-determining probe in the database.

Description

Temperature-measuring carbon-determining oxygen-determining probe, system and tracking method based on two-dimensional code

Technical Field

The invention belongs to the field of product manufacturing, and particularly relates to a temperature-measuring carbon-determining oxygen-determining probe, a system and a tracking method based on a two-dimensional code.

Background

The automatic steel-making system is widely applied to smelting processes of various large steel plants, the temperature-measuring carbon-determining oxygen-determining probe is a primary measurement product, the temperature-measuring carbon-determining oxygen-determining probe is used for measuring parameters such as temperature, carbon content and oxygen content of molten steel in the smelting process, the temperature-measuring carbon-determining oxygen-determining probe is an important means for ensuring variety and quality of the molten steel, and provides adjusting and control basis for automatic steel-making.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides a temperature-measuring carbon-determining oxygen-determining probe, a system and a tracking method based on a two-dimensional code, and the specific scheme is as follows:

the temperature-measuring carbon-determining oxygen-determining probe comprises a temperature-measuring carbon-determining oxygen-determining probe body and an equipment identification plate which is attached to a specific position of the temperature-measuring carbon-determining oxygen-determining probe body and provided with a two-dimensional code, wherein the two-dimensional code comprises unique equipment identification information of the temperature-measuring carbon-determining oxygen-determining probe.

Furthermore, the unique device identification information of the temperature-measuring carbon-determining oxygen-determining probe comprises the production year, month and day information, the production batch number and the production line number of the temperature-measuring carbon-determining oxygen-determining probe.

Furthermore, the equipment signboard with the two-dimensional code is pasted on the top of the temperature-measuring carbon-determining oxygen-determining probe body.

As a second aspect of the present invention, a temperature measurement carbon and oxygen determination probe system based on a two-dimensional code is provided, the system includes an automatic probe loading device, a wireless two-dimensional code scanning device, a sublance data intelligent system and the temperature measurement carbon and oxygen determination probe described in claims 1-3, the sublance data intelligent system stores measurement data of all the temperature measurement carbon and oxygen determination probes, the wireless two-dimensional code scanning device is installed on the front side of a projectile outlet of the automatic probe loading device, and is configured to read the two-dimensional code on the temperature measurement carbon and oxygen determination probe when the temperature measurement carbon and oxygen determination probe is loaded to the projectile outlet through the automatic probe loading device, obtain unique device identification information of the temperature measurement carbon and oxygen determination probe, and transmit the obtained unique device identification information of the temperature measurement carbon and oxygen determination probe to the sublance data intelligent system; and the sublance data intelligent system is used for correlating the received unique equipment identification information of the temperature-measuring carbon-oxygen-determining probe with the measurement data of the temperature-measuring carbon-oxygen-determining probe in the database.

Furthermore, the wireless two-dimensional code scanning equipment comprises a wireless communication module and is in wireless connection with the sublance data intelligent system through the wireless communication module.

Further, the sublance data intelligent system comprises a web server and a database server, wherein the web server is used for completing probe information registration of the temperature-measuring carbon-oxygen-determining probe through the unique device identification information after receiving the unique device identification information of the temperature-measuring carbon-oxygen-determining probe sent by the wireless two-dimensional code scanning device, and writing the unique device identification information of the temperature-measuring carbon-oxygen-determining probe into the database server, and the database server is used for associating the unique device identification information of the temperature-measuring carbon-oxygen-determining probe with the measurement data of the temperature-measuring carbon-oxygen-determining probe in the database server.

As a third aspect of the present invention, there is provided a two-dimensional code-based method for tracking a carbon and oxygen probe for temperature measurement, the method including:

sticking an equipment identification plate with a two-dimensional code at a specific position of a temperature-measuring carbon-oxygen-determining probe body, wherein the two-dimensional code comprises unique equipment identification information of the temperature-measuring carbon-oxygen-determining probe;

installing wireless two-dimensional code scanning equipment on the front side of an ejection outlet of the automatic probe loading device;

when the temperature-measuring carbon-fixing oxygen-fixing probe is loaded to the bullet outlet through the automatic probe loading device, the two-dimensional code on the temperature-measuring carbon-fixing oxygen-fixing probe is read, the unique equipment identification information of the temperature-measuring carbon-fixing oxygen-fixing probe is obtained through a wireless two-dimensional code scanning device, and the obtained unique equipment identification information of the temperature-measuring carbon-fixing oxygen-fixing probe is transmitted to the sublance data intelligent system;

and completing probe information registration on a web server of the sublance data intelligent system through the unique equipment identification information, associating the unique equipment identification information of the temperature-measuring carbon-oxygen-determining probe with the measurement data of the temperature-measuring carbon-oxygen-determining probe in a database server of the sublance data intelligent system, and tracking the product quality of the temperature-measuring carbon-oxygen-determining probe through the unique equipment identification information.

The invention has the following beneficial effects:

the invention makes the probe informationization and intellectualization possible by applying the two-dimensional code in the temperature-measuring carbon-determining oxygen-determining probe, thereby being convenient for improving the product quality tracking management capability and being beneficial to quality management. The physical characteristic data of each probe is associated with the measurement data, so that the system reason can be analyzed, the fault factor can be determined, the equipment maintenance cost can be reduced, and the production efficiency can be improved.

Under the current industrial intelligent development trend, data is intelligentized, centralized and remotely managed, which is a great trend and is not slow. The invention has positive promoting effect on developing markets, historical significance of milestones and will and capacity of enterprises to develop in innovation.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As a first embodiment of the present invention, a temperature-measuring carbon-determining and oxygen-determining probe based on a two-dimensional code is provided, where the temperature-measuring carbon-determining and oxygen-determining probe includes a temperature-measuring carbon-determining and oxygen-determining probe body and an equipment identification plate attached to a specific position of the temperature-measuring carbon-determining and oxygen-determining probe body and having a two-dimensional code, and the two-dimensional code includes unique equipment identification information of the temperature-measuring carbon-determining and oxygen-determining probe.

The temperature measurement carbon and oxygen determination probe comprises a temperature measurement carbon and oxygen determination probe body, wherein the temperature measurement carbon and oxygen determination probe body is provided with a unique device identification information, and the unique device identification information comprises production year, month and day information, production batch number and production line number of the temperature measurement carbon and oxygen determination probe. For example, year is represented by four digits, month is represented by two digits, day is represented by two digits, production lot is represented by two letters/digits, and water flow number is represented by four digits, for example, when the temperature measuring carbon and oxygen determining probe with production lot P2 has water flow number 1234 in year 2019, 4 month, 23 pm, then the number is: 20190423P21234, according to the coding principle, generating two-dimensional code information through application software, namely the unique equipment identification information of the temperature-measuring carbon-determining oxygen-determining probe.

The invention can be widely applied to the technical field of automatic steel smelting, and is indispensable in the measurement and control of parameters such as temperature measurement, oxygen determination, carbon determination and the like of the processes such as a converter terminal point, smelting, an RH vacuum station, an argon blowing station, a steel ladle, a continuous casting tundish and the like. The physical parameters of the probe for measuring temperature, carbon and oxygen are recorded, so that the tracing of the quality of the probe is facilitated, and the product quality is improved. Meanwhile, the measurement data of each probe can be monitored in real time, physical characteristics and actual measurement data are correlated, quality factors are comprehensively analyzed, and a high-quality solution can be provided for an automatic steelmaking system.

As a second embodiment of the present invention, a two-dimensional code-based temperature, carbon and oxygen measuring probe system is provided, the system comprises an automatic probe loading device, a wireless two-dimensional code scanning device, a sublance data intelligent system and the temperature-measuring carbon-determining oxygen-determining probe of claims 1-3, the sublance data intelligent system stores the measurement data of all temperature-measuring carbon-determining oxygen-determining probes, the wireless two-dimensional code scanning equipment is arranged on the front side of the ejection outlet of the automatic probe loading device, the automatic probe loading device is used for loading the temperature-measuring carbon-determining oxygen-determining probe to the bullet outlet through the automatic probe loading device, reading the two-dimensional code on the temperature-measuring carbon-determining oxygen-determining probe, acquiring the unique equipment identification information of the temperature-measuring carbon-determining oxygen-determining probe, and transmitting the acquired unique equipment identification information of the temperature-measuring carbon-determining oxygen-determining probe to the sublance data intelligent system; and the sublance data intelligent system is used for correlating the received unique equipment identification information of the temperature-measuring carbon-oxygen-determining probe with the measurement data of the temperature-measuring carbon-oxygen-determining probe in the database.

The wireless two-dimensional code scanning equipment comprises a wireless communication module and is in wireless connection with the sublance data intelligent system through the wireless communication module.

The sublance data intelligent system comprises a web server and a database server, wherein the web server is used for completing probe information registration of the temperature-measuring carbon-oxygen-determining probe through unique equipment identification information after receiving the unique equipment identification information of the temperature-measuring carbon-oxygen-determining probe sent by the wireless two-dimensional code scanning equipment, writing the unique equipment identification information of the temperature-measuring carbon-oxygen-determining probe into the database server, and the database server is used for associating the unique equipment identification information of the temperature-measuring carbon-oxygen-determining probe with measurement data of the temperature-measuring carbon-oxygen-determining probe in the database server.

The invention applies the two-dimensional code technology to the measuring probe by innovative thinking and developed eye light, can efficiently acquire key physical characteristic data, integrates field measurement information, helps us to realize probe technology analysis and quality tracking, not only can realize product informatization, but also can provide data support for technical problems encountered in industrial production.

As a third embodiment of the present invention, there is provided a two-dimensional code-based tracing method for a thermometric carbon-based oxygen-based probe, the method including:

sticking an equipment identification plate with a two-dimensional code at a specific position of a temperature-measuring carbon-oxygen-determining probe body, wherein the two-dimensional code comprises unique equipment identification information of the temperature-measuring carbon-oxygen-determining probe;

installing wireless two-dimensional code scanning equipment on the front side of an ejection outlet of the automatic probe loading device;

when the temperature-measuring carbon-fixing oxygen-fixing probe is loaded to the bullet outlet through the automatic probe loading device, the two-dimensional code on the temperature-measuring carbon-fixing oxygen-fixing probe is read, the unique equipment identification information of the temperature-measuring carbon-fixing oxygen-fixing probe is obtained through a wireless two-dimensional code scanning device, and the obtained unique equipment identification information of the temperature-measuring carbon-fixing oxygen-fixing probe is transmitted to the sublance data intelligent system;

and completing probe information registration on a web server of the sublance data intelligent system through the unique equipment identification information, associating the unique equipment identification information of the temperature-measuring carbon-oxygen-determining probe with the measurement data of the temperature-measuring carbon-oxygen-determining probe in a database server of the sublance data intelligent system, and tracking the product quality of the temperature-measuring carbon-oxygen-determining probe through the unique equipment identification information.

The invention makes the probe informationization and intellectualization possible by applying the two-dimensional code in the temperature-measuring carbon-determining oxygen-determining probe, thereby being convenient for improving the product quality tracking management capability and being beneficial to quality management. The physical characteristic data of each probe is associated with the measurement data, so that the system reason can be analyzed, the fault factor can be determined, the equipment maintenance cost can be reduced, and the production efficiency can be improved.

Under the current industrial intelligent development trend, data is intelligentized, centralized and remotely managed, which is a great trend and is not slow. The invention has positive promoting effect on developing markets, historical significance of milestones and will and capacity of enterprises to develop in innovation.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (7)

1. The utility model provides a carbon probe is decided in temperature measurement based on two-dimensional code, a serial communication port, carbon probe is decided in the temperature measurement includes that the carbon is decided to the temperature measurement decides the oxygen probe body and paste the equipment signboard that has the two-dimensional code in the carbon is decided to the temperature measurement and decide oxygen probe body specific position department, the two-dimensional code includes the only equipment identification information that the carbon is decided to the temperature measurement decides the oxygen probe.

2. The two-dimensional code-based temperature, carbon and oxygen measuring probe according to claim 1, wherein the unique device identification information of the temperature, carbon and oxygen measuring probe comprises production year, month and day information, production batch number and production line number of the temperature, carbon and oxygen measuring probe.

3. The temperature-measuring carbon-and-oxygen-determining probe based on the two-dimensional code as claimed in claim 1, wherein the equipment signboard with the two-dimensional code is pasted on the top of the temperature-measuring carbon-and-oxygen-determining probe body.

4. A temperature measurement carbon and oxygen determination probe system based on a two-dimensional code is characterized by comprising an automatic probe loading device, a wireless two-dimensional code scanning device, a sublance data intelligent system and the temperature measurement carbon and oxygen determination probe according to claims 1-3, wherein the sublance data intelligent system stores measurement data of all the temperature measurement carbon and oxygen determination probes, the wireless two-dimensional code scanning device is installed on the front side of a bullet outlet of the automatic probe loading device and is used for reading the two-dimensional code on the temperature measurement carbon and oxygen determination probe when the temperature measurement carbon and oxygen determination probe is installed on the bullet outlet through the automatic probe loading device, acquiring unique device identification information of the temperature measurement carbon and oxygen determination probe and transmitting the acquired unique device identification information of the temperature measurement carbon and oxygen determination probe to the sublance data intelligent system; the sublance data intelligent system is used for correlating the received unique equipment identification information of the temperature-measuring carbon-determining oxygen-determining probe with the measurement data of the temperature-measuring carbon-determining oxygen-determining probe in the database.

5. The two-dimensional code based temperature, carbon and oxygen measuring probe system according to claim 4, wherein the wireless two-dimensional code scanning device comprises a wireless communication module and is in wireless connection with the sublance data intelligent system through the wireless communication module.

6. The temperature-measuring carbon-oxygen-determining probe system based on the two-dimensional code according to claim 4, wherein the sublance data intelligentization system comprises a web server and a database server, the web server is used for completing probe information registration of the temperature-measuring carbon-oxygen-determining probe through unique device identification information after receiving the unique device identification information of the temperature-measuring carbon-oxygen-determining probe sent by the wireless two-dimensional code scanning device, and writing the unique device identification information of the temperature-measuring carbon-oxygen-determining probe into the database server, and the database server is used for associating the unique device identification information of the temperature-measuring carbon-oxygen-determining probe with the measurement data of the temperature-measuring carbon-oxygen-determining probe in the database server.

7. A temperature measurement, carbon determination and oxygen determination probe tracking method based on two-dimensional codes is characterized by comprising the following steps:

sticking an equipment identification plate with a two-dimensional code at a specific position of the temperature-measuring carbon-determining oxygen-determining probe body, wherein the two-dimensional code comprises unique equipment identification information of the temperature-measuring carbon-determining oxygen-determining probe;

installing wireless two-dimensional code scanning equipment on the front side of an ejection outlet of the automatic probe loading device;

when the temperature-measuring carbon-fixing oxygen-fixing probe is loaded to the bullet outlet through the automatic probe loading device, the two-dimensional code on the temperature-measuring carbon-fixing oxygen-fixing probe is read, the unique equipment identification information of the temperature-measuring carbon-fixing oxygen-fixing probe is obtained through a wireless two-dimensional code scanning device, and the obtained unique equipment identification information of the temperature-measuring carbon-fixing oxygen-fixing probe is transmitted to the sublance data intelligent system;

and completing probe information registration on a web server of the sublance data intelligent system through the unique equipment identification information, associating the unique equipment identification information of the temperature-measuring carbon-oxygen-determining probe with the measurement data of the temperature-measuring carbon-oxygen-determining probe in a database server of the sublance data intelligent system, and tracking the product quality of the temperature-measuring carbon-oxygen-determining probe through the unique equipment identification information.