CN211015845U - Intelligent management platform for limited space safety monitoring - Google Patents

Abstract

The utility model relates to a smart management platform for monitoring the safety of a limited space, which belongs to the technical field of monitoring, comprising a main server connected with at least two management servers through bus optical fibers, and further comprising closed equipment provided with sensors, underground limited space, overground limited space and metallurgical equipment, wherein each sensor is connected with the management server through the bus optical fibers, and the management server uploads the information collected by the sensors to the main server; the system also comprises a mobile device which is in communication connection with the main server, and the app of the mobile device downloads the information of the main server. The method has the advantages that the online monitoring system can randomly acquire the types and the arrangement modes of the terminals, so that the adaptability of the online monitoring system to the environment is improved, the production cost is saved, and the operation is convenient. Automatic on-line detection is realized, the problems of improper discharge or leakage of toxic and harmful gas can be found in time, an alarm signal is sent out in time to remind workers to feed back, and the use safety performance is greatly improved.

Description

Intelligent management platform for limited space safety monitoring

Technical Field

The utility model relates to a limited space safety monitoring wisdom management platform belongs to monitoring technology field.

Background

With the continuous progress of science and technology, the production and manufacturing of industries such as mines, pharmaceutical and chemical industries, metallurgy, industry and trade and the like are deeply developed, but in the production and manufacturing process of the industries, a lot of toxic and harmful gases are usually generated, and if the toxic and harmful gases are improperly discharged or leaked, the environmental pollution is caused, even the life safety of workers is damaged, so that immeasurable loss is caused, and the monitoring and emergency disposal of the toxic and harmful gases are required. The toxic and harmful gas monitoring system in the prior art is fixed in structure, cannot be applied to various different places, is limited in application range and cannot be fully utilized.

Toxic, suffocation, inflammable and explosive substances can remain in the limited space, and fire, explosion, poisoning and suffocation accidents are easy to happen during overhauling. In addition, some devices have various transmission devices and electric lighting systems, and if the power supply is not thoroughly separated and cut off before maintenance, or because of misoperation of the electric system, accidents such as mechanical injury, electric shock and the like can occur. Therefore, it is necessary to analyze the cause of the accident in the operation of the limited space and to take control measures to avoid the occurrence of the accident.

The research on the safety risk factors of the limited space operation needs to analyze data before the accident happens so as to avoid the recurrence. Data can be recorded through an intelligent laboratory, and data extraction is facilitated.

The limited space operation safety risk monitoring and early warning research can be carried out when the occurrence of toxic, suffocation, inflammable and other gases is detected. The intelligence sends out the police dispatch newspaper, and operating personnel leaves rapidly. Automatically cutting off the toxic pipeline. Thereby greatly reducing casualties.

The local temperature is too high to be detected by operators. The operator finds it when the treatment is performed. There may be a loss. Through the detection of the sensor, the abnormal temperature is found and processed in time. And reported to the operator.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a limited space safety monitoring wisdom management platform to overcome the not enough of prior art.

The utility model realizes the technical purpose by the following technical proposal, achieves the technical effect, comprises a main server connected with at least two management servers through bus optical fibers, and also comprises a closed device provided with a sensor, an underground finite space, an overground finite space and a metallurgical device, wherein each sensor is connected with the management server through the bus optical fibers, and the management server uploads the information collected by the sensor to the main server;

the system also comprises a mobile device which is in communication connection with the main server, and the app of the mobile device downloads the information of the main server.

The app of the mobile device has an alert function.

The closed equipment comprises a cabin, a storage tank, a vehicle-mounted tank, a reaction tower, a reaction kettle, a refrigerating box, a pressure container, a pipeline, a flue and a boiler.

The underground limited space comprises underground pipelines, basements, underground warehouses, underground projects, underdrains, tunnels, culverts, pits, waste wells, cellars, sewage pools, sewage wells, methane pools, septic tanks and sewers.

The above-ground limited space comprises a storage chamber, a vinasse pool, a fermentation pool, a garbage station, a greenhouse, a cold storage, a grain bin and a storage bin.

The smelting equipment comprises a blast furnace, a converter, an electric furnace, an ore-smelting furnace, an electroslag furnace, an intermediate frequency furnace, a mixer furnace, a gas holder, a gravity dust collector, an electric dust collector, a drainer and a gas water seal.

The beneficial effects of the utility model are that, the type and the mode of arranging at on-line monitoring system can gather the terminal wantonly to its adaptability to the environment has been improved, thereby has practiced thrift manufacturing cost greatly, and it is very convenient to operate. Automatic on-line detection is realized, the problems of improper discharge or leakage of toxic and harmful gas can be found in time, an alarm signal is sent out in time to remind workers to feed back, and the use safety performance is greatly improved.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Detailed Description

The following description will be further made with reference to fig. 1, which includes a main server 1 connected to at least two management servers 2 through a bus optical fiber 3, and further includes a closed device 5 provided with a sensor 4, an underground finite space 6, an above-ground finite space 7, and a metallurgical device 8, wherein each sensor 4 is connected to the management server 2 through the bus optical fiber 3, and the management server 2 uploads information collected by the sensor 4 to the main server 1; the system also comprises a mobile device 9 which is connected with the main server 1 through communication, and the app of the mobile device 9 downloads the information of the main server 1.

The app of the mobile device 9 has an alarm function, when the sensors 4 of the closed device 5, the underground limited space 6, the overground limited space 7 and the metallurgical device 8 detect abnormal working conditions, information is transmitted to the management server 2 through the bus optical fiber 3 and then transmitted to the main server 1, after the app of the mobile device 9 downloads the information of the main server 1, an alarm signal is sent out to remind a worker under the abnormal working conditions, the worker can feed back the information in time, and the use safety performance is greatly improved.

The closed equipment comprises a cabin, a storage tank, a vehicle-mounted tank, a reaction tower, a reaction kettle, a refrigerating box, a pressure container, a pipeline, a flue and a boiler.

The underground limited space comprises underground pipelines, basements, underground warehouses, underground projects, underdrains, tunnels, culverts, pits, waste wells, cellars, sewage pools, sewage wells, methane pools, septic tanks and sewers.

The above-ground limited space comprises a storage chamber, a vinasse pool, a fermentation pool, a garbage station, a greenhouse, a cold storage, a grain bin and a storage bin.

The smelting equipment comprises a blast furnace, a converter, an electric furnace, an ore-smelting furnace, an electroslag furnace, an intermediate frequency furnace, a mixer furnace, a gas holder, a gravity dust collector, an electric dust collector, a drainer and a gas water seal.

Claims (5)

1. The utility model provides a limited space safety monitoring wisdom management platform, characterized by:

the system comprises a main server connected with at least two management servers through bus optical fibers, and further comprises closed equipment provided with sensors, underground finite space, overground finite space and metallurgical equipment, wherein each sensor is connected with the management servers through the bus optical fibers, and the management servers upload information acquired by the sensors to the main server;

the system also comprises a mobile device which is in communication connection with the main server, and the app of the mobile device downloads the information of the main server and uploads feedback information to the main server.

2. The intelligent management platform for monitoring safety of limited space as claimed in claim 1, wherein:

the closed equipment comprises a cabin, a storage tank, a vehicle-mounted tank, a reaction tower, a reaction kettle, a refrigerating box, a pressure container, a pipeline, a flue and a boiler.

3. The intelligent management platform for monitoring safety of limited space as claimed in claim 1, wherein: the underground limited space comprises underground pipelines, basements, underground warehouses, underground projects, underdrains, tunnels, culverts, pits, waste wells, cellars, sewage pools, sewage wells, methane pools, septic tanks and sewers.

4. The intelligent management platform for monitoring safety of limited space as claimed in claim 1, wherein: the above-ground limited space comprises a storage chamber, a vinasse pool, a fermentation pool, a garbage station, a greenhouse, a cold storage, a grain bin and a storage bin.

5. The intelligent management platform for monitoring safety of limited space as claimed in claim 1, wherein: the metallurgical equipment comprises a blast furnace, a converter, an electric furnace, a submerged arc furnace, an electroslag furnace, an intermediate frequency furnace, a mixer furnace, a gas holder, a gravity dust collector, an electric dust collector, a water drainer and a gas water seal.

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