CN206848787U - A kind of nuclear power plant's low-temperature receiver sea area monitoring system based on intelligent buoy - Google Patents

Abstract

It the utility model is related to a kind of sea area monitoring system, specifically disclose a kind of nuclear power plant's low-temperature receiver sea area monitoring system based on intelligent buoy, including the buoy located at nuclear power plant's low-temperature receiver marine site, electric power system is equipped with the buoy, data collecting system including data acquisition module and detection components, monitoring system and communication system, the data acquisition module is connected with the detection components, the bank base station in the low-temperature receiver marine site is provided with master system, the utility model is used as carrying means by developing intellectual resource buoy, reach the purpose of detection barrier by multi-point arrangement, intelligent buoy can be deployed troops on garrison duty apart from intake remote position, so as to improve the early warning reaction time, ensure that nuclear power is safe for operation, reduce economic loss.

Description

A kind of nuclear power plant's low-temperature receiver sea area monitoring system based on intelligent buoy

Technical field

It the utility model is related to a kind of sea area monitoring system, and in particular to a kind of nuclear power plant's low-temperature receiver sea based on intelligent buoy Domain monitoring system.

Background technology

In recent years, due to the threat of a large amount of marine growths, cooling system cisco unity malfunction is made, cause generating set to shut down, Nuclear reactor shutdown phenomenon is happened occasionally, and potential hazard is caused to nuclear power plant's production safety to nuclear power plant's low-temperature receiver marine site marine growth. Nuclear power plant's low-temperature receiver marine site marine organisms are mostly fishes and shrimps, marine alga, jellyfish and Haiti melon etc., and they are different with season, when breaking out Between it is also different.Influenceed by extreme weather, by the effect of stormy waves stream, the ocean of intake marine site distant place may be given birth to simultaneously Thing is sent near intake, causes low-temperature receiver security risk.If detector deployed troops on garrison duty around intake, although can detect And early warning, but the reaction time for leaving nuclear power plant for is considerably less, threatens the safe operation of nuclear power plant.Therefore need to consider to visit The problems such as interception extends at a distance to intake, and this relates to that detecting devices is fixed, power and communicates, it is therefore desirable to There is good carrying equipment.Intelligent buoy is used to carry monitoring device, power supply is provided for detecting devices, after detection information is gathered Ashore server, the system can be deployed troops on garrison duty at a distance for transmission, and the reaction time of abundance is provided for nuclear power plant, realizes that depth is prevented Imperial target.

The content of the invention

The purpose of this utility model is to provide a kind of nuclear power plant's low-temperature receiver sea area monitoring system based on intelligent buoy, can be by it Deploy troops on garrison duty apart from intake remote position, increase detection range, realize depth defense, improve the early warning reaction time, in real time prison Mouth of a river marine site marine growth amount and distribution situation are measured, and then improves nuclear power plant's low-temperature receiver reliability.

To reach above-mentioned purpose, technical scheme provided by the utility model is：A kind of nuclear power plant based on intelligent buoy is cold Source sea area monitoring system, including the buoy located at nuclear power plant's low-temperature receiver marine site, electric power system including data are equipped with the buoy The data collecting system of acquisition module and detection components, monitoring system and communication system, the data acquisition module and the inspection Component to be surveyed to be connected, the bank base station in the low-temperature receiver marine site is provided with master system, wherein,

The electric power system, the data collecting system, the communication system and the monitoring system are connected respectively and is It provides voltage needed for work；

The data collecting system, environment real time information monitoring and collection are carried out to nuclear power plant's low-temperature receiver marine site；

The monitoring system, the data collecting system, the communication system and the electricity consumption of itself are monitored simultaneously To the buoy, itself working condition perceives；

The communication system, the data collecting system and the monitoring system are connected respectively, by the data acquisition system The information that system and the monitoring system are collected is transmitted；

The master system, receive the information that the communication system is sent and handled.

Further, the monitoring system including at least 1 be equipped with the data collecting system, the communication system, The buoy of the electric power system and the monitoring system.

Further, the detection components include waterborne/underwater video collector and to detect the sonar of marine organisms Equipment, the waterborne/underwater video collector and the sonar set are connected with the data acquisition module respectively.

Further, the detection components also include water quality sensor, current meter, meteorological sensor, Temperature Humidity Sensor And water depth sensor, the water quality sensor, the current meter, the meteorological sensor, the Temperature Humidity Sensor and described Water depth sensor is connected with the data acquisition module respectively.

Further, the electric power system is including described in solar power system, wind power generation system, battery pack, control The controller for solar and control the wind power generation system to the electricity that solar power system charges to the battery pack The wind energy controller of pond group charging.

Further, the communication system uses the transmission means that WIFI and 4G are combined.

Further, the monitoring system includes buoy water inlet inductor, buoy hatch door opens inductor, temperature inside buoy Humidity sensor and the monitor to monitoring voltage electric current.

Further, the buoy includes buoy float, the buoy base below the buoy float, located at the buoy Installing the buoy restocking of the solar power system and the wind power generation system, the upper top of the buoy float above body Face and bottom surface are respectively equipped with the hatch door for being easy to equipment to install and debug.

Further, the buoy is fixed using 4 anchor architectures.

Further, the master system is included to show the display device of received information.

After above technical scheme, nuclear power plant's low-temperature receiver sea area monitoring system of the present utility model based on intelligent buoy is led to Developing intellectual resource buoy is crossed as carrying means, and combines intake continental rise fixed form installation detecting devices, multi-point can be passed through Arrangement reaches the purpose of detection barrier.Intelligent buoy can be deployed troops on garrison duty apart from intake remote position, so as to improve early warning In the reaction time, grace time is provided for decision support, it is ensured that nuclear power is safe for operation, reduces economic loss.

Brief description of the drawings

Accompanying drawing 1 is the block architecture diagram of nuclear power plant's low-temperature receiver sea area monitoring system of the present utility model based on intelligent buoy；

Accompanying drawing 2 is the intelligent buoy structure schematic diagram in the utility model；

Accompanying drawing 3 is 4 anchor tying compositions in the utility model.

Wherein, 1, buoy；101st, buoy float；102nd, buoy base；103rd, buoy restocking；104th, hatch door；2nd, data acquisition System；3rd, communication system；4th, master system；5th, electric power system；501st, solar panels；502nd, blower fan；6th, monitoring system；7th, four Point anchor system；701st, buoyancy buoy；702nd, anchor chain；703rd, sinker；704th, high holding power anchor；705th, kernmantle；706th, ball float.

Embodiment

Below in conjunction with the accompanying drawings and embodiment the utility model is described in further detail.

As shown in Figure 1 to Figure 3, a kind of nuclear power plant's low-temperature receiver sea area monitoring system based on intelligent buoy, including located at nuclear power The buoy 1 in factory's low-temperature receiver marine site, data collecting system 2, communication system 3, electric power system 5 and monitoring system are equipped with the buoy 1 System 6, the bank base station in the low-temperature receiver marine site is provided with master system 4.

Preferably, it can be arranged in intake multi-point and be equipped with data collecting system 2, communication system 3, electric power system 5 With the buoy 1 of monitoring system 6, so as to form detection barrier.

Electric power system 5 is used to provide voltage needed for work for data collecting system 2, communication system 3 and monitoring system 6.For Electrically by the way of solar power generation and wind power generation are combined, ensure to charge in rainy days and at night, it is ensured that be System long-play.

Electric power system 5 includes solar power system, wind power generation system, battery pack, the control solar power generation system Unite the wind that the controller for solar to be charged to the battery pack and the control wind power generation system charge to the battery pack Can controller.

In the present embodiment, solar power system takes 12 solar panels 501, power supply capacity 600W, wind power generation system System is powered using 400W blower fans 502, and battery pack is using 8 pieces of 12V/200AH colloid storage battery group, two parallel connections, four groups of series connection Wiring.Wind power generation system is also equipped with stabilising arrangement, wind direction identifying system and emergency braking system.

Data collecting system 2 includes data acquisition module and detection components, and data acquisition module is connected simultaneously with detection components To collect the data that detection components are gathered.Data collecting system is supervised to carry out nuclear power plant's low-temperature receiver marine environment real time information Survey and collect.Detection components include water quality sensor, current meter, meteorological sensor, the temperature and humidity sensing being equipped on buoy 1 Device, water depth sensor and waterborne/underwater video collector, the sonar set for detecting marine organisms.

Certainly, the type located at the detection components thereon of buoy 1 of marine site diverse location can accordingly be set according to sea conditions Put, can be the one or more in type listed above.When being necessary, other kinds of detection can also be set up and set It is standby.

Monitoring system 6 include buoy 1 intake inductor, hatch door 104 open inductor, the inside Temperature Humidity Sensor of buoy 1, And voltage x current monitor.Monitoring system 6 is to Monitoring Data acquisition system 2, communication system 3 and the power consumption of itself and pre- Survey the power-on time of electric power system 5.If necessary, the power supply of which part part is closed.Meanwhile monitoring system 6 is to the buoy 1 Itself posture（Inclination angle, the anglec of rotation, displacement）, security（Internal humiture, whether intake, whether hatch door 104 is opened）Carry out Perceive.

Communication system 3 connects the data collecting system 2 and monitoring system 6, by data collecting system 2 and monitoring system 6 The information of collection is sent to the master system 4 located at bank base station.The biography that the communication system 3 is combined using WIFI and 4G Defeated mode, realize the online processing of information.Especially sonar set is mounted on buoy 1, for detecting marine organisms, and Using wireless data transmission, solve data volume and be wirelessly transferred problem greatly.

Master system 4 receives the information that sends of communication system 3 and is stored in database and the information to reception carries out data Fusion, monitoring information is shown by display device or provides monitoring information to computer client and APP mobile terminals.Host computer System 4 also have management user right, historical information inquiry, printing reports, to data acquiring frequency carry out remotely/be locally located Etc. function.

The design of the buoy 1 is by being designed on the basis of nuclear power plant's marine site sea situation, ocean current, tide etc. are investigated , the normal work under high sea weather can be met.

The buoy 1 includes buoy float 101, the buoy base 102 located at the lower section of buoy float 101, on buoy float 101 The buoy restocking 103 of side, the upper top surface and bottom surface of buoy float 101 are respectively equipped with hatch door 104.Buoy base 102 is carrying Counterweight and sensing equipment, to install solar panels 501 and blower fan 502, the hatch door 104 of setting is easy to equipment for buoy restocking 103 Installation and debugging.

The buoy 1 uses 4 fixations of anchor system 7, and 4 anchor systems 7 include uniformly be laid in the periphery of buoy 14 Buoyancy buoy 701, buoyancy buoy 701 are connected and positioned with sinker 703 and high holding power anchor 704 successively by anchor chain 702, sinker 703 are manufactured using mixed muds or cast iron, between sinker 703 and high holding power anchor 704 at intervals of 1m.Buoyancy buoy 701 and buoy 1 Between by kernmantle 705 be connected, kernmantle 705 is provided with ball float 706.Main rotation and the mistake for preventing buoy 1 of 4 anchor systems 7 Inclination angle is crossed, ensures that buoy is steady.

After above technical scheme, nuclear power plant's low-temperature receiver sea area monitoring system of the present utility model based on intelligent buoy 1 It can deploy troops on garrison duty away from intake position, so as to improve the early warning reaction time, reach real-time monitoring, in time real-time early warning, disposal Purpose, it is ensured that nuclear power is safe for operation, reduce economic loss.

For above-described embodiment only to illustrate technical concepts and features of the present utility model, its object is to allow be familiar with technique Personage can understand content of the present utility model and implement according to this, the scope of protection of the utility model can not be limited with this. All equivalent change or modifications made according to the utility model Spirit Essence, should all cover the scope of protection of the utility model it It is interior.

Claims (10)

1. A kind of 1. nuclear power plant's low-temperature receiver sea area monitoring system based on intelligent buoy, it is characterised in that：Including located at nuclear power plant's low-temperature receiver The buoy in marine site, be equipped with the buoy electric power system including data acquisition module and detection components data collecting system, Monitoring system and communication system, the data acquisition module are connected with the detection components, the bank base station in the low-temperature receiver marine site Provided with master system, wherein,

   The electric power system, the data collecting system, the communication system and the monitoring system are connected respectively and is carried for it For voltage needed for work；

   The data collecting system, environment real time information monitoring and collection are carried out to nuclear power plant's low-temperature receiver marine site；

   The monitoring system, the data collecting system, the communication system and the electricity consumption of itself are monitored and to institute Buoy itself working condition is stated to be perceived；

   The communication system, connect the data collecting system and the monitoring system respectively, by the data collecting system and The information that the monitoring system is collected is transmitted；

   The master system, receive the information that the communication system is sent and handled.
2. A kind of 2. nuclear power plant's low-temperature receiver sea area monitoring system based on intelligent buoy according to claim 1, it is characterised in that： The monitoring system is equipped with the data collecting system, the communication system, the electric power system and described including at least 1 The buoy of monitoring system.
3. A kind of 3. nuclear power plant's low-temperature receiver sea area monitoring system based on intelligent buoy according to claim 1, it is characterised in that： The detection components include waterborne/underwater video collector and to detect the sonar set of marine organisms, described waterborne/underwater Video collector and the sonar set are connected with the data acquisition module respectively.
4. A kind of 4. nuclear power plant's low-temperature receiver sea area monitoring system based on intelligent buoy according to claim 3, it is characterised in that： The detection components also include water quality sensor, current meter, meteorological sensor, Temperature Humidity Sensor and water depth sensor, described Water quality sensor, the current meter, the meteorological sensor, the Temperature Humidity Sensor and the water depth sensor respectively with institute Data acquisition module is stated to be connected.
5. A kind of 5. nuclear power plant's low-temperature receiver sea area monitoring system based on intelligent buoy according to claim 1, it is characterised in that： The electric power system includes solar power system, wind power generation system, battery pack, the control solar power system to institute The controller for solar and the control wind power generation system for stating battery pack charging control to the wind energy that the battery pack charges Device.
6. A kind of 6. nuclear power plant's low-temperature receiver sea area monitoring system based on intelligent buoy according to claim 1, it is characterised in that： The communication system uses the transmission means that WIFI and 4G are combined.
7. A kind of 7. nuclear power plant's low-temperature receiver sea area monitoring system based on intelligent buoy according to claim 1, it is characterised in that： The monitoring system includes buoy water inlet inductor, buoy hatch door opens inductor, Temperature Humidity Sensor, Yi Jiyong inside buoy With the monitor of monitoring voltage electric current.
8. A kind of 8. nuclear power plant's low-temperature receiver sea area monitoring system based on intelligent buoy according to claim 5, it is characterised in that： The buoy include buoy float, the buoy base below the buoy float, above the buoy float to install The buoy restocking of solar power system and the wind power generation system is stated, the upper top surface and bottom surface of the buoy float are set respectively There is the hatch door for being easy to equipment to install and debug.
9. A kind of 9. nuclear power plant's low-temperature receiver sea area monitoring system based on intelligent buoy according to claim 8, it is characterised in that： The buoy is fixed using 4 anchor architectures.
10. 10. a kind of nuclear power plant's low-temperature receiver sea area monitoring system based on intelligent buoy according to claim 1, its feature exist In：The master system is included to show the display device of received information.