CN219811214U - Intelligent safety system for unattended valve room - Google Patents

Abstract

The utility model relates to the technical field of security and protection, in particular to an intelligent security system for an unattended valve room, which comprises a solar power supply system, a controller, an anti-explosion access control integrated machine, an indoor monitoring subsystem, an anti-peripheral intrusion subsystem and a network subsystem. According to the utility model, the outdoor set thunder integrated machine is used for monitoring the external invasion behavior, all-weather monitoring is carried out on the indoor condition of the valve and all equipment through all monitoring equipment in the indoor monitoring subsystem, and the monitoring picture and the collected related parameters are uploaded to the server for remote checking or archiving, so that the potential safety hazard caused by external illegal invasion of an unattended valve chamber is avoided, and meanwhile, the problems can be found and processed in time.

Description

Intelligent safety system for unattended valve room

Technical Field

The utility model relates to the technical field of security protection, in particular to an intelligent security system for an unattended valve room.

Background

The unattended valve chamber (hereinafter referred to as valve chamber for short) is usually arranged in the field of barren suburbs, no staff is attended for a long time, safety management is mostly managed and controlled by means of personnel inspection or a monitoring system, and compared with an attended station, the unattended valve chamber is easier to suffer from potential safety hazards caused by illegal invasion, so that adverse social influence and economic loss are caused, and the traditional monitoring system is relatively large in environmental influence on the aspect of personnel invasion.

Disclosure of Invention

In order to overcome the defects in the prior art, solve the problems that the condition in the unattended valve chamber cannot be monitored in real time and the potential safety hazard caused by illegal invasion is easily suffered, the utility model provides an intelligent safety system for the unattended valve chamber, which specifically adopts the following technical scheme:

an intelligent safety system for an unattended valve room comprises a solar power supply system, a controller, an explosion-proof access control integrated machine, an indoor monitoring subsystem, an anti-peripheral invasion subsystem and a network subsystem;

the solar power supply system is arranged on the roof of the valve chamber and comprises a solar panel, a colloid battery and a solar reverse control integrated machine;

the indoor monitoring subsystem comprises an explosion-proof dome camera, an electronic positioning explosion-proof ball indicator, an explosion-proof electric control lock, a door switch, an LED explosion-proof illuminating lamp, a leakage detector and a combustible gas detector;

the peripheral intrusion prevention subsystem comprises a thunder all-in-one machine arranged at four corners of the outer enclosing wall of the valve chamber;

the network subsystem comprises a switch, a 5G router and a 5G antenna;

the controller is electrically connected with other subsystems.

Preferably, the intelligent security system further comprises an audible and visual alarm subsystem, a six-element microclimate instrument and a forced ventilation subsystem, all of which are electrically connected with the controller.

Preferably, the controller is electrically connected to a solar energy back control integrated unit in the solar energy power supply system.

Preferably, the explosion-proof access control integrated machine is electrically connected with an explosion-proof dome camera and an explosion-proof electric control lock in the indoor monitoring subsystem through an indoor explosion-proof box; the controller is electrically connected with the indoor monitoring subsystem through the indoor explosion-proof box.

And preferably, the indoor monitoring subsystem, the peripheral intrusion prevention subsystem and the six-element microclimate instrument upload the acquired data information to the server through the network subsystem.

Still preferably, the controller, the switch and the audible and visual alarm subsystem are disposed in an outdoor explosion-proof box outside the valve chamber; the six-element microclimate instrument, the 5G router and the 5G antenna are arranged on the roof of the valve chamber; the explosion-proof access control integrated machine is arranged outside the valve chamber gate; the outlet switch is arranged at the inner side of the valve chamber gate; the leakage detector is arranged around the valve; the electronic positioning type explosion-proof through ball indicator is arranged on the outer wall of the pipeline; the combustible gas detector is arranged in the valve chamber; the LED explosion-proof illuminating lamp and the explosion-proof hemisphere camera are arranged on the ceiling of the valve chamber; the forced ventilation subsystem is disposed on the wall of the valve chamber.

Further preferably, the lighting all-in-one machine comprises two light supplementing lamps.

It is further preferred that the flammable gas detector monitors the gas as isobutane, with both low level and high level alarms modes.

The beneficial effects of the utility model are as follows:

the intelligent safety system can monitor whether the gas or the effusion in the pipeline or the valve leaks or not and monitor the running condition of the pipe cleaner in the pipeline in real time through each monitoring device in the indoor monitoring subsystem; the forced ventilation system is arranged on the wall in the valve chamber, so that when leakage occurs, ventilation equipment can be started first in the first time, and potential safety hazards caused by too high concentration of flammable gas in the valve chamber are avoided; the lightning all-in-one machine combined with four corners of the outer wall of the valve chamber can view real-time video pictures at any time by adjusting installation azimuth and angle, records are uploaded to the server and stored, so that potential safety hazards caused by external illegal invasion of the unattended valve chamber are avoided, and meanwhile, the problems can be discovered and processed at the first time.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model, are not to be construed as unduly limiting the utility model.

FIG. 1 is a schematic structural diagram of the present utility model;

fig. 2 is a schematic view illustrating an outdoor unit installation of the present utility model;

FIG. 3 is a schematic view of the indoor equipment installation of the present utility model;

in the figure: 1-an outdoor explosion-proof box; 2-thunder all-in-one machine; 3-a solar power supply system; a 4-5G router; 5-explosion-proof entrance guard integrated machine; 6-explosion-proof dome camera; 7-an electronic positioning type explosion-proof ball indicator; 8-explosion-proof electric control lock; 9-a door switch; 10-LED explosion-proof lighting lamp; 11-a leak detector; 12-a combustible gas detector; 13-six-element microclimate; 14-valve chamber; 15-a valve chamber peripheral wall; 16-indoor explosion-proof box.

Detailed Description

An embodiment of the intelligent security system for an unattended valve compartment provided by the utility model is further described with reference to figures 1-3 and examples.

As shown in fig. 1, the intelligent safety system for the unattended valve room mainly comprises a solar power supply system 3, a controller, an explosion-proof access control integrated machine 5, an indoor monitoring subsystem, an anti-peripheral invasion subsystem, a network subsystem, a six-element microclimate instrument 13, a forced ventilation subsystem and an audible and visual alarm subsystem. It is emphasized that the controller is electrically connected to the other subsystems.

The solar power supply system 3 is arranged on the roof of the valve chamber 14 and comprises a solar panel, a colloid battery and a solar reverse control integrated machine; the solar cell panel is scientifically charged through the solar energy reverse control integrated machine, and the colloid battery is discharged through the solar energy reverse control integrated machine; this wisdom safety coefficient adopts solar energy to contrary accuse all-in-one, has integrated charge-discharge control and contravariant conversion function, and the sexual valence relative altitude, the appearance is pleasing to the eye, and the noise is low, and electromagnetic interference is little, and saves installation space and cost of transportation more.

The network subsystem comprises a switch, a 5G router 4 and a 5G antenna, and provides a network for the whole intelligent security system through the network subsystem, and information data collected by each device is uploaded to a server through a VLAN and stored for remote viewing and operation. The 5G router 4 and the 5G antenna are arranged on the roof of the valve chamber 14, and the switch, the controller and the audible and visual alarm subsystem are arranged in the outdoor explosion-proof box 1.

An indoor explosion-proof box 16 (also called a junction box) is also arranged in the valve chamber 14 at a position corresponding to the outdoor explosion-proof box 1, and is used for installing wires of all components of the indoor monitoring subsystem and providing power supply, so that the circuit is convenient to overhaul.

Preferably, the controller is electrically coupled to the indoor monitoring subsystem through an indoor explosion proof box 16 (also known as a junction box).

The anti-explosion access control integrated machine 5 is arranged outside a gate of the valve chamber 14, and is electrically connected with the anti-explosion electric control lock 8 and the anti-explosion hemisphere camera 6 in the indoor monitoring subsystem through the indoor anti-explosion box 16 (also called as a junction box), so that the personnel access condition of the valve chamber 14 can be managed, controlled and recorded, and meanwhile, the scientific management of the inspection of the valve chamber 14 can be realized.

As shown in fig. 3, the indoor monitoring subsystem comprises an explosion-proof dome camera 6, an electronic positioning explosion-proof ball indicator 7, an explosion-proof electric control lock 8, a door switch 9, an LED explosion-proof illuminating lamp 10, a leakage detector 11 and a combustible gas detector 12. Wherein the door outlet switch 9 is arranged at the inner side of the gate of the valve chamber 14; the LED explosion-proof lighting lamp 20 and the explosion-proof dome camera 6 are arranged on the ceiling of the valve chamber 14; the electronic positioning type explosion-proof through ball indicator 7 is arranged on the outer wall of the pipeline, so that the pipeline is not required to be damaged compared with the traditional through ball indicator, the installation position is not required to be close to the pipeline, and only the electronic positioning transmitter is required to be arranged in the pipe cleaner, so that the passing time and times of the pipe cleaner can be accurately monitored, and records are saved and uploaded to the server; the leakage detector 11 is arranged around the valve, can monitor leakage conditions of the pipeline or the accumulated liquid in the valve, mainly distinguishes types of leaked liquid which is oil or water, and preferably, sand is paved on the ground below the valve for absorbing the leaked liquid so as to facilitate later cleaning; the flammable gas detector 12 is arranged in the valve chamber 14, has two modes of low-level alarm and high-level alarm, detects that the calibration gas is isobutane, and when detecting that the concentration of the flammable gas in the valve chamber 14 exceeds an alarm set value, the controller sends a signal to the audible and visual alarm subsystem, and the flammable gas detector 12 and the audible and visual alarm subsystem simultaneously generate alarm reminding and upload related data to remote software to remind workers of timely repairing the leakage problem. In addition, a forced ventilation subsystem is further arranged on the wall of the valve chamber 14, when the leakage detector 11 or the flammable gas detector 12 detects that gas or liquid in the valve chamber 14 leaks and exceeds a set concentration, the controller sends a signal to the forced ventilation subsystem, and at the moment, the forced ventilation subsystem is opened to perform ventilation, so that potential safety hazards caused by high-concentration flammable gas in the valve chamber 14 are avoided.

As shown in fig. 2, in order to avoid potential safety hazards caused by external illegal invasion easily suffered by an unattended valve chamber 14, the intelligent safety system is additionally provided with a peripheral invasion prevention subsystem, which mainly comprises a thunder-vision all-in-one machine 2 arranged at four corners of a valve chamber peripheral wall 15, and the whole invasion prevention and prevention of the periphery of the valve chamber 14 can be realized by adjusting the installation azimuth and angle of the thunder-vision all-in-one machine 2, so that real-time monitoring pictures can be checked at any time, monitoring videos in a period of time before, during and after an alarm can be reserved when an invasion alarm occurs, and the monitoring videos are recorded and uploaded to a server for remote check; in addition, the thunder integrated machine 2 also comprises two light supplementing lamps, so that clear and reliable night monitoring pictures can be ensured; the range detected by the radar integrated machine 2 is wide in common monitoring, high in data precision, capable of fully playing the sensing and detecting advantages of the AI and millimeter wave radar, and capable of realizing accurate detection in all weather (daytime, night) and various severe weather environments (wind, frost, rain, snow, sand and haze) through complementation of the video and the radar.

Preferably, the audible and visual alarm subsystem can carry out different voice prompts and on-site lamplight warnings by sending different signals through the receiving controller, so as to deter an intruder and prevent the continuous occurrence of intrusion behaviors.

Still preferably, this wisdom safety system has set up six factor microclimate appearance 13 on the valve chamber 14 roof, can monitor the record to the temperature of valve chamber 14 external environment, humidity, atmospheric pressure, wind speed, wind direction, rainfall, is convenient for do prevent wind flood prevention work before bad weather arrives, avoids equipment damage.

When the intelligent valve is used, the network subsystem is added to the whole unattended valve chamber and is used for providing a network for the intelligent safety system; then outdoor explosion-proof box 1 is arranged outside the wall of valve chamber 14, and the controller, exchanger and audible and visual alarm subsystem are installed in outdoor explosion-proof box 1; the four corners of the outer wall 15 of the valve chamber are respectively provided with a thunder all-in-one machine 2 for monitoring whether external invasion occurs or not; an explosion-proof dome camera 6 and an LED explosion-proof illuminating lamp 10 for illuminating for monitoring the internal condition of the valve chamber 14 are arranged on the ceiling of the valve chamber 14, a door outlet switch 9 is arranged on the inner side of a valve gate of the valve chamber 14, an explosion-proof electric control lock 8 is arranged on the valve gate of the valve chamber 14, then an electronic positioning type explosion-proof ball indicator 7 is arranged around the valve gate, a leakage detector 11 is arranged near a pipeline, and a combustible gas detector 12 is arranged in the valve chamber; an explosion-proof door control integrated machine 5 is arranged at the outer side of a valve chamber 14 gate; the roof of the valve chamber 14 is provided with a solar power supply system 3 and a six-element microclimate instrument 13, a 5G router 4 and a 5G antenna in a network subsystem are also arranged on the roof, and then the subsystems are electrically connected with a controller to complete the installation work of the whole system. When the outdoor four groups of the all-weather operation of the all-in-one thunder and visual machines 2 sense that foreign personnel invade, the field picture is transmitted to the server, the controller sends out a signal, and the acousto-optic alarm subsystem carries out voice and lamplight warning on the field to expel the foreign invader; all-weather supervision is carried out in the valve chamber 14 through the explosion-proof dome camera 6; when the leakage detection 11 and the combustible gas detector 12 detect that the problem of combustible gas or liquid leakage occurs in the chamber 14 and exceeds the set concentration, a signal is sent to the controller at the first time, the forced ventilation subsystem is started, and remote monitoring personnel can timely overhaul and process according to data feedback. The utility model has simple installation and convenient operation, and reduces the labor cost.

It is emphasized here that the intelligent security system for an unattended valve chamber provided by the utility model can be realized by adopting the prior art for various related software or devices, and has the main advantages of selecting and optimizing the devices and the control mode.

In the present utility model, the terms such as "upper", "lower", "bottom", "top", and the like refer to the orientation or positional relationship based on the orientation or positional relationship shown in the drawings, and are merely relational terms used for convenience in describing the structural relationships of the various components or elements of the present utility model, and are not meant to designate any one component or element of the present utility model, and are not to be construed as limiting the present utility model. Terms such as "connected," "coupled," and the like are to be construed broadly and mean either permanently connected or integrally connected or removably connected; can be directly connected or indirectly connected through an intermediate medium. The specific meaning of the terms in the present utility model can be determined according to circumstances by a person skilled in the relevant art or the art, and is not to be construed as limiting the present utility model.

It should be understood that the above description is not intended to limit the utility model to the particular embodiments disclosed, but to limit the utility model to the particular embodiments disclosed, and that the utility model is not limited to the particular embodiments disclosed, but is intended to cover modifications, adaptations, additions and alternatives falling within the spirit and scope of the utility model.

Claims (8)

1. The intelligent safety system for the unattended valve room is characterized by comprising a solar power supply system, a controller, an anti-explosion access control integrated machine, an indoor monitoring subsystem, an anti-peripheral invasion subsystem and a network subsystem;

the solar power supply system is arranged on the roof of the valve chamber and comprises a solar panel, a colloid battery and a solar reverse control integrated machine;

the indoor monitoring subsystem comprises an explosion-proof dome camera, an electronic positioning explosion-proof ball indicator, an explosion-proof electric control lock, a door switch, an LED explosion-proof illuminating lamp, a leakage detector and a combustible gas detector;

the peripheral intrusion prevention subsystem comprises a thunder all-in-one machine arranged at four corners of the outer enclosing wall of the valve chamber;

the network subsystem comprises a switch, a 5G router and a 5G antenna;

the controller is electrically connected with each subsystem.

2. The intelligent security system for an unattended valve room of claim 1 further comprising an audible and visual alarm subsystem, a six element microclimate instrument, and a forced draft subsystem, all in electrical communication with the controller.

3. The intelligent security system for an unattended valve room of claim 1 wherein the controller is electrically connected to a solar energy back control integrated unit in a solar energy power supply system.

4. The intelligent safety system for an unattended valve room of claim 1, wherein the anti-explosion access control integrated machine is electrically connected with an anti-explosion dome camera and an anti-explosion electric control lock in an indoor monitoring subsystem through an indoor anti-explosion box; the controller is electrically connected with the indoor monitoring subsystem through the indoor explosion-proof box.

5. The intelligent security system for an unattended valve room according to claim 1, wherein the indoor monitoring subsystem, the peripheral intrusion prevention subsystem and the six-element microclimate instrument upload collected data information to a server through a network subsystem.

6. The intelligent security system for an unattended valve room of claim 2 wherein the controller, switch and audible and visual alarm subsystem are located in an outdoor explosion proof box outside the valve room; the six-element microclimate instrument, the 5G router and the 5G antenna are arranged on the roof of the valve chamber; the explosion-proof access control integrated machine is arranged outside a valve chamber gate; the door outlet switch is arranged at the inner side of the valve chamber gate; the leakage detector is arranged around the valve; the electronic positioning type explosion-proof through ball indicator is arranged on the outer wall of the pipeline; the combustible gas detector is arranged in the valve chamber; the LED explosion-proof illuminating lamp and the explosion-proof dome camera are arranged on the ceiling of the valve chamber; the forced ventilation subsystem is disposed on the wall of the valve chamber.

7. The intelligent security system for an unattended valve room of claim 1 wherein the integrated machine comprises two light supplementing lights.

8. A smart security system for an unattended valve compartment according to claim 1 or 6, wherein the flammable gas detector monitors that the gas is isobutane, with both low level alarm and high level alarm modes.