阅读说明：本技术 一种用于压力容器的自动报警控制系统 (Automatic alarm control system for pressure container ) 是由 孙洪伟 刘振军 曹建科 于 2021-08-12 设计创作，主要内容包括：本发明公开了一种用于压力容器的自动报警控制系统,包括用于系统控制的中央处理模块,用于信息显示及参数设定的操控界面模块,用于控制启停的操作控制模块,用于实际参数与设定参数比对的数据分析对比模块,用于故障保护的故障处理模块,用于报警提醒的报警模块,以及分别连接于所述操作控制模块、数据分析对比模块以及故障处理模块的压力容器模块,所述自动报警控制系统还包括电性连接于中央处理模块以及压力容器模块的紧急制动模块。该系统设计合理,操作简单,可根据不同压力容器的使用要求设定报警参数；该系统可实现控制、报警全过程的自动化操作,保证设备的安全可靠运行,降低人员的劳动强度,提高生产效率。(The invention discloses an automatic alarm control system for a pressure container, which comprises a central processing module for system control, an operation interface module for information display and parameter setting, an operation control module for controlling start and stop, a data analysis comparison module for comparing actual parameters with set parameters, a fault processing module for fault protection, an alarm module for alarm reminding, and a pressure container module respectively connected with the operation control module, the data analysis comparison module and the fault processing module, and further comprises an emergency braking module electrically connected with the central processing module and the pressure container module. The system has reasonable design and simple operation, and can set alarm parameters according to the use requirements of different pressure containers; the system can realize the automatic operation of the whole process of control and alarm, ensure the safe and reliable operation of the equipment, reduce the labor intensity of personnel and improve the production efficiency.)

1. An automatic alarm control system for a pressure vessel, characterized by: the automatic alarm control system comprises a central processing module for system control, a control interface module for information display and parameter setting, an operation control module for controlling start and stop, a data analysis comparison module for comparing actual parameters with set parameters, a fault processing module for fault protection, an alarm module for alarming and reminding, and pressure container modules respectively connected to the operation control module, the data analysis comparison module and the fault processing module, and further comprises an emergency braking module electrically connected to the central processing module and the pressure container modules.

2. An automatic alarm control system for a pressure vessel according to claim 1 wherein: the central processing module comprises an upper computer and a programmable processor electrically connected with the upper computer, and the programmable processor is electrically connected with the control interface module, the operation control module, the data analysis and comparison module, the fault processing module, the alarm module and the emergency braking module respectively.

3. An automatic alarm control system for a pressure vessel according to claim 1 wherein: the control interface module comprises a display, and the display is provided with functions of automatic adjustment control operation, real-time data display and parameter setting.

4. An automatic alarm control system for a pressure vessel according to claim 1 wherein: the operation control module comprises a start-stop electromagnetic valve used for controlling the work and stop of the pressure container module.

5. An automatic alarm control system for a pressure vessel according to claim 1 wherein: the data analysis and comparison module comprises a pressure sensor and a comparator, wherein the pressure sensor is used for detecting the actual pressure of the pressure container module and feeding back the result to the central processing module after the actual pressure is processed by the comparator.

6. An automatic alarm control system for a pressure vessel according to claim 1 wherein: the fault handling module comprises a shut-off valve for pressure venting when the actual pressure of the pressure vessel module is excessive.

7. An automatic alarm control system for a pressure vessel according to claim 1 wherein: the alarm module comprises an audible and visual alarm and is used for alarming and warning in the automatic alarm control system.

8. An automatic alarm control system for a pressure vessel according to claim 1 wherein: the pressure container module comprises a pressure container, a booster pump and a pressure gauge, the booster pump is connected with the pressure container, and the pressure gauge is installed at an outlet of the pressure container.

9. An automatic alarm control system for a pressure vessel according to claim 1 wherein: the emergency brake system comprises a brake button and a brake solenoid valve for emergency stop of the pressure vessel module.

10. An automatic alarm control system for a pressure vessel according to claim 1 wherein: the mobile terminal is connected with the central processing module through the Internet of things.

Technical Field

The invention relates to the technical field of pressure containers, in particular to an automatic alarm control system for a pressure container.

Background

The pressure container is a closed container capable of bearing pressure, has extremely wide application, and has important position and function in many departments such as industry, civil use and the like and many fields of scientific research. Although the pressure container is manufactured according to the national mandatory standard, the pressure container still has the risk of leakage and burst due to different working conditions such as production quality, maintenance, outside temperature, service life and the like in the use process.

Therefore, there is a need for an automatic alarm control system for pressure vessels that addresses the deficiencies that exist today.

Disclosure of Invention

The technical problem to be solved by the invention is to overcome the defects of the technology and provide an automatic alarm control system for a pressure container.

In order to solve the technical problems, the technical scheme provided by the invention is an automatic alarm control system for a pressure container, which comprises the following steps: the automatic alarm control system comprises a central processing module for system control, a control interface module for information display and parameter setting, an operation control module for controlling start and stop, a data analysis comparison module for comparing actual parameters with set parameters, a fault processing module for fault protection, an alarm module for alarming and reminding, and pressure container modules respectively connected to the operation control module, the data analysis comparison module and the fault processing module, and further comprises an emergency braking module electrically connected to the central processing module and the pressure container modules.

As an improvement, the central processing module comprises an upper computer and a programmable processor electrically connected with the upper computer, and the programmable processor is respectively and electrically connected with the control interface module, the operation control module, the data analysis and comparison module, the fault processing module, the alarm module and the emergency braking module.

As an improvement, the control interface module comprises a display, and the display is provided with functions of automatic adjustment control operation, real-time data display and parameter setting.

As an improvement, the operation control module comprises a start-stop solenoid valve used for controlling the work and stop of the pressure container module.

As an improvement, the data analysis and comparison module comprises a pressure sensor and a comparator, wherein the pressure sensor is used for detecting the actual pressure of the pressure container module and feeding the result back to the central processing module after the actual pressure is processed by the comparator.

As an improvement, the fault handling module comprises a shut-off valve for pressure venting when the actual pressure of the pressure vessel module is too great.

As an improvement, the alarm module comprises an audible and visual alarm used for alarming and warning in the automatic alarm control system.

As an improvement, the pressure container module comprises a pressure container, a booster pump and a pressure gauge, the booster pump is connected with the pressure container, and the pressure gauge is installed at an outlet of the pressure container.

As an improvement, the emergency braking system comprises a brake button and a brake solenoid valve for emergency stop of the pressure vessel module.

As an improvement, the system further comprises a mobile terminal, and the mobile terminal is connected with the central processing module through the Internet of things.

Compared with the prior art, the invention has the advantages that: the system has reasonable design and simple operation, and can set alarm parameters according to the use requirements of different pressure containers; the system can realize the automatic operation of the whole process of control and alarm, ensure the safe and reliable operation of the equipment, reduce the labor intensity of personnel and improve the production efficiency.

Drawings

FIG. 1 is a system schematic of an automatic alarm control system for a pressure vessel according to the present invention.

Fig. 2 is a schematic diagram of the operation of an automatic alarm control system for a pressure vessel according to the present invention.

Detailed Description

An automatic alarm control system for a pressure vessel according to the present invention will be described in further detail with reference to the accompanying drawings.

With reference to fig. 1-2, an automatic alarm control system for a pressure vessel includes a central processing module for system control, a control interface module for information display and parameter setting, an operation control module for controlling start and stop, a data analysis and comparison module for comparing actual parameters with set parameters, a fault processing module for fault protection, an alarm module for alarm reminding, and a pressure vessel module respectively connected to the operation control module, the data analysis and comparison module, and the fault processing module, and further includes an emergency braking module electrically connected to the central processing module and the pressure vessel module.

The central processing module comprises an upper computer and a programmable processor electrically connected with the upper computer, and the programmable processor is electrically connected with the control interface module, the operation control module, the data analysis and comparison module, the fault processing module, the alarm module and the emergency braking module respectively.

The control interface module comprises a display, and the display is provided with functions of automatic adjustment control operation, real-time data display and parameter setting.

The operation control module comprises a start-stop electromagnetic valve used for controlling the work and stop of the pressure container module.

The data analysis and comparison module comprises a pressure sensor and a comparator, wherein the pressure sensor is used for detecting the actual pressure of the pressure container module and feeding back the result to the central processing module after the actual pressure is processed by the comparator.

The fault handling module comprises a shut-off valve for pressure venting when the actual pressure of the pressure vessel module is excessive.

The alarm module comprises an audible and visual alarm and is used for alarming and warning in the automatic alarm control system.

The pressure container module comprises a pressure container, a booster pump and a pressure gauge, the booster pump is connected with the pressure container, and the pressure gauge is installed at an outlet of the pressure container.

The emergency brake system comprises a brake button and a brake solenoid valve for emergency stop of the pressure vessel module.

The mobile terminal is connected with the central processing module through the Internet of things.

When the invention is implemented in practice, the alarm parameters are set through the display in practical use, and the display can display the practical detection parameters at any time, the outlet of the booster pump is connected with a pressure container, the pressure sensor is positioned at the outlet of the pressure container, the pressure sensor detects the actual pressure of the pressure container at any time, then the detection data is transmitted to a comparator, the comparator compares the actual detection parameters with the set parameters and transmits the comparison result to an editable processor, according to the comparison result, if the actual pressure of the pressure container is greater than the set parameter, the editable processor controls the audible and visual alarm to give an alarm, and meanwhile, the starting and stopping electromagnetic valve is controlled to be disconnected, so that the booster pump stops working, and if the actual pressure is far greater than the set parameter, the programmable processor simultaneously controls the stop valve to be opened to carry out pressure relief on the pressure container.

When an emergency occurs, the brake solenoid valve can be controlled to be closed through the brake button, so that the booster pump stops working.

The pressure gauge is a pressure gauge with a pointer of an electrode, can be used for on-site checking and can be used for comparing with system detection data.

The mobile terminal can be used for receiving detection data, is convenient for a user to remotely check, can realize remote control parameter modification and brake control, and can be a mobile phone, a professional controller or a remote control terminal, but is not limited to the mobile phone, the professional controller or the remote control terminal.

The present invention and its embodiments have been described above, and the description is not intended to be limiting, and the drawings are only one embodiment of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should appreciate that they can readily use the disclosed conception and specific embodiments as a basis for designing or modifying other structures for carrying out the same purposes of the present invention without departing from the spirit and scope of the invention as defined by the appended claims.