CN211906074U - Safety monitoring and integrated control system - Google Patents

Abstract

The utility model discloses a safety monitoring and comprehensive control system, which comprises a power supply system, a user control interface, a central controller, a power system and a safety monitoring system; the user control interface sends various operation instructions to the central controller, and the safety monitoring result can be displayed in real time; the central controller feeds back the monitoring result of the safety monitoring system to the user control interface in real time to control the execution of the whole system; the power system realizes the opening and closing of the structural unit; the safety monitoring system comprises a mechanical monitoring system, an anemograph, a video monitor, a fire smoke alarm and a snow melting system. The scheme can meet the requirement of rapid and safe automatic opening and closing of the temporary top cover of the reactor plant, has the function of safety monitoring, and further ensures the safety and high efficiency of the temporary top cover of the reactor plant in the using process.

Description

Safety monitoring and integrated control system

Technical Field

The utility model belongs to the technical field of safety monitoring and integrated control system, in particular to safety monitoring and mechanical control of automatic switching building roof structure.

Background

The open-close roof in the building field belongs to a new structural form, and along with the continuous development and progress of the automation and intelligent technology in China, the roof structure capable of being automatically opened and closed has great uniqueness in the aspects of functional use, structural design, comprehensive control and the like. At present, the structural form is adopted more and more in large buildings such as nuclear power stations, stadiums, airport terminals, high-speed railway stations, exhibition halls and the like in the whole country, but along with the requirements on the safety and the complexity of roofs of the special buildings are higher and higher, the control operation difficulty is also continuously improved.

Taking the third generation nuclear power station in China as an example, an openable temporary top cover is adopted during construction and installation of a supporting project to reduce the influence of bad weather on the construction and installation process of a reactor plant, and the temporary top cover is arranged on a ring beam at the highest layer (CV3) of a containment barrel. However, the temporary top cover is manually opened and closed, more than 8 hours of 4 workers are needed for single complete opening or closing, the efficiency of responding to weather change is very low, in the using process of the temporary top cover capable of being opened and closed depending on projects, the weather often occurs in the morning and raining, the workers stop raining in the process of closing the roof, and the roof needs to be opened again in the afternoon, so that the hoisting operation in the whole day cannot be normally carried out. Moreover, the rain film is required to be folded when the roof is opened, and the roof is bound manually, so that the risks of high-altitude operation and falling objects are increased. In addition, rely on the project temporarily top cap that can open and close and the safety problems such as membrane volume water has appeared tearing, local structural strength is not enough breaks have caused bad influence in the use.

In order to solve the problem, a safety monitoring and integrated control system, can satisfy the requirement of the quick and safe automatic switching of the interim top cap of reactor factory building to possess safety monitoring's function, further ensured the safety and the high efficiency in the interim top cap use of reactor factory building.

SUMMERY OF THE UTILITY MODEL

The utility model provides a safety monitoring and integrated control system solves the problem that the switching can not be automated fast to interim top cap of reactor factory building and other room lid structures to carry out real-time supervision to interim top cap, ensured to have operated the security reliability, have the sexual valence relative altitude, the advanced reliable, each system maturation and compatible good characteristics of technique, but wide application.

A safety monitoring and comprehensive control system can rapidly and safely realize the operation of an automatic opening and closing structure, has the safety monitoring function, and further ensures the safety and high efficiency of the opening and closing structure in the operation process;

the power supply system provides power guarantee for the whole system, and can supply power for industrial power or temporary power generation equipment independently;

the user control interface is connected with the central controller, various operation instructions can be sent to the central controller through the user control interface, and safety monitoring results can be displayed in real time;

the central controller feeds back the monitoring result of the safety monitoring system to the user control interface in real time, and issues an operation command of the whole system according to the feedback result to control the execution of the whole system;

the power system realizes the opening and closing of a structural unit, and the power parameters of the structural unit can be set in the user control interface;

the safety monitoring system comprises a mechanical monitoring system, an anemograph, a video monitor, a fire smoke alarm and a snow melting system.

Preferably, the user control interface may include a single or multiple displays for displaying the safety monitoring results in real time, including monitoring real-time pictures, mechanics real-time monitoring data information, and wind speed real-time monitoring data.

Preferably, the power system comprises a hydraulic power system, a slip driving power system and a wire rope traction power system.

Preferably, the central controller is provided with a storage function, can receive and store feedback results of the operation of the whole system, and can be provided with an output and input device.

The utility model discloses a safety monitoring and integrated control system can apply to the reactor factory building of nuclear island containment and can open and close on the interim top cap, also can install on other similar switching building roofs. Not only can satisfy the requirement of the quick and safe automatic switching of the interim top cap of reactor factory building to possess safety monitoring's function, further ensured the safety and the high efficiency in the interim top cap use of reactor factory building.

Drawings

Fig. 1 is a general schematic diagram of a safety monitoring and integrated control system according to the present invention;

fig. 2 is a partial structural layout view of the temporary roof according to the embodiment of the present invention;

fig. 3 is a schematic structural diagram of a safety monitoring and integrated control system according to the present invention;

fig. 4 is a flow chart of the operation of the safety monitoring and integrated control system of the present invention.

Wherein: 1. hydraulic means, 2, the drive arrangement that slides, 3, flip structure, 4, the structure that slides, 5, the track that slides, 6, supporting beam.

Detailed Description

In order to make the above objects, features and advantages of the present invention more comprehensible, the present invention is described in detail with reference to the accompanying drawings and the detailed description.

As shown in fig. 1, the safety monitoring and integrated control system is applied to a temporary top cover of a reactor factory building in a nuclear power plant construction stage, can quickly and safely realize the operation of an automatic opening and closing structure, has a safety monitoring function, and further ensures the safety and high efficiency of the opening and closing structure in the operation process.

The power supply system provides power guarantee for the whole safety monitoring and comprehensive control system, and can supply power for industrial power or temporary power generation equipment independently and need to keep the stability of power.

As shown in fig. 3, the user control interface may include a single or multiple displays for displaying the safety monitoring results in real time, including monitoring real-time images, mechanics real-time monitoring data information, wind speed real-time monitoring data, and the like.

The user control interface is connected with the central controller, and an operator can send various operation instructions to the central controller through the user control interface.

The central controller belongs to the core of the whole system, and can be provided with an output and input device for issuing the operation command of the whole system and controlling the execution of the whole system.

The system is characterized in that the central controller has a certain storage function and is used for receiving and storing feedback results of the operation of the safe real-time monitoring and control system.

As shown in fig. 3, the power system includes a hydraulic power system and a slip driving power system, and is used for opening and closing the opening and closing structure, and related power parameters can be set in the user control interface, including an opening angle, a movement displacement, an operation speed, and the like.

As shown in fig. 3, the safety monitoring system includes a mechanical monitoring system, an anemometer, a video monitor, etc., wherein the mechanical monitoring system can perform real-time monitoring and feedback of stress strain, displacement deflection, etc. on key parts of the opening and closing structure, the central controller feeds back all safety monitoring results to the user display interface in real time, and an operator can determine a next-step action instruction of the opening and closing structure according to the feedback results.

As shown in fig. 4, the main process of the system operation is to start the system, check the result of the safety monitoring feedback on the display interface, select the action unit, check the operation status of the power system and the structure unit, set action parameters on the user control interface, open the positioning and locking device, send an action command, start the power system and the mechanism, move the structure unit to a specified position, close the positioning and locking device and lock the structure unit, and end the action.

As shown in fig. 4, in the whole system operation process, if the related monitoring parameters fed back by the safety monitoring system exceed the specified values, the central controller sends an emergency braking instruction to stop the movement of the structural unit; if the operator finds that potential safety hazards exist in the operation process of the system, the operator can stop the movement of the structural unit through the emergency protection button.

The above embodiments are merely illustrative of the principles and effects of the present invention, and are not to be construed as limiting the invention. Modifications and variations can be made to the above-described embodiments by those skilled in the art without departing from the spirit and scope of the present invention. Accordingly, it is intended that all equivalent modifications or changes which may be made by those skilled in the art without departing from the spirit and technical spirit of the present invention be covered by the claims of the present invention.

Claims (4)

1. A safety monitoring and comprehensive control system is characterized by comprising a power supply system, a user control interface, a central controller, a power system and a safety monitoring system;

the power supply system provides power guarantee for the whole system, and can supply power for industrial power or temporary power generation equipment independently;

the user control interface is connected with the central controller, various operation instructions can be sent to the central controller through the user control interface, and safety monitoring results can be displayed in real time;

the central controller feeds back the monitoring result of the safety monitoring system to the user control interface in real time, and issues an operation command of the whole system according to the feedback result to control the execution of the whole system;

the power system realizes the opening and closing of a structural unit, and the power parameters of the structural unit can be set in the user control interface;

the safety monitoring system comprises a mechanical monitoring system, an anemograph, a video monitor, a fire smoke alarm and a snow melting system.

2. The safety monitoring and integrated control system according to claim 1, wherein the user control interface comprises a single or multiple displays for displaying the safety monitoring results in real time, including monitoring real-time images, mechanics real-time monitoring data information, and wind speed real-time monitoring data.

3. A safety monitoring and integrated control system according to claim 1, wherein the power system comprises a hydraulic power system, a slip drive power system, and a cable traction power system.

4. A safety monitoring and integrated control system according to claim 1, wherein the central controller is provided with a memory function for receiving and storing feedback of the operation of the whole system, and an input/output device.

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