CN205561962U - Regional water level monitoring system of ponding monitoring system and zigbee - Google Patents

Abstract

The utility model discloses a ponding monitoring system, include: the regional water level monitoring net of at least one zigbee, GPRS wireless transmission net and centralized control center, the regional water level monitoring net of zigbee for the data message of monitoring point is respectively treated to the acquisition area intra -area, the GPRS wireless transmission net for it is central to the centralized control with the data information transfer that the regional water level monitoring net of each zigbee was gathered, the centralized control center for with the received data message save, processing, analysis or show. This locality response is carried out to each regional inner product regimen condition of this ponding monitoring system real -time supervision, simultaneously, conveys the centralized control center in real time with each regional ponding circumstances to the efficiency that the monitor information that floods gathered, and form ponding monitoring and the early warning system that many coverage network formatted. Still include the regional water level monitoring system of a zigbee.

Description

A kind of long-pending water monitoring system and Zigbee regional water level monitoring system

Technical field

The utility model relates to the plumbing technical field in architectural engineering, particularly relates to a kind of long-pending water monitoring system and Zigbee Regional water level monitoring system.

Background technology

Along with the needs of urban construction, substantial amounts of underpass, market place builet below the ground have been built in a lot of cities in order to alleviate traffic pressure Etc. infrastructure, and these infrastructure are usually present the feature that physical features is relatively low, when meeting with Heavy Rainfall Weather, it is easy to because Cannot draining in time and affect normal use.

Meanwhile, transformer station, civilian pump house need due to its operating, deploy the facilities such as more deep well and cable duct, and this A little low laying areas are easy to because the reasons such as rainwater cause the deepest situation of ponding, if many places ponding in transformer station, will have very much can The power supply safety of transformer station can be threatened, cause the life of transformer station's affiliated area and produce power failure, and because of high voltage supply Equipment short circuit is likely to result in fire incident and casualties.

The many employings of currently available technology arrange level detecting device at the ponding monitoring point needed, and are sent by level detecting device Alarm signal send reception terminal to, in order to make reply according to alarm signal.Or arrange and comprise range sensor and measurement The water level detecting equipment of the level sensor of height of water level, and after described height of water level is beyond setting threshold value, then triggering is controlled Control equipment controls operation accordingly.

But there are the following problems for above-mentioned prior art: the detection device negligible amounts of deployment, the data of collection are the most comprehensive；Cannot be same Time the ponding situation in multiple regions is monitored and timely responds to.

The technical problem of above-mentioned existence will cause the ponding situation at the scene of cannot accurately grasping, it is impossible to makes in time and successfully managing.

Utility model content

For above-mentioned technical problem, the utility model provides a kind of long-pending water monitoring system, and this system is by arranging multiple Zigbee Region water level monitoring net, subregion gathers data message, is both provided with work station in each region and centralized control center and processes water level in time Information, forms the ponding situation information gathering net of multizone point how to be monitored, thus improves water level monitoring information gathering efficiency, have Effect is avoided affecting the problems such as the normal use of infrastructure because ponding crosses deep.

A kind of long-pending water monitoring system, including: at least one Zigbee region water level monitoring net, GPRS is wirelessly transferred net and collection control Center；

Described Zigbee region water level monitoring net, the data message of each point to be monitored in pickup area；

Described GPRS is wirelessly transferred net, for the data message of each Zigbee region water level monitoring net collection is sent to collection control Center；

Described centralized control center, for carrying out response operation based on the data message received.Described response operation includes: storage, Process, analyze or show.

In said system, described data message includes: waterlevel data or alert data.

Further, described Zigbee region water level monitoring net, including: at least one Zigbee monitoring terminal node, Zigbee Region aggregation node and regional work station；

Described Zigbee monitoring terminal node, for gathering the data message of point to be monitored, carries out local warning and will collect Data message be sent to Zigbee region aggregation node；

Described Zigbee region aggregation node, gathers, for converging, the data message that the transmission of each Zigbee monitoring terminal node comes；

Described regional work station, for by the data message real-time storage of Zigbee region aggregation node collection and process.

Further, described Zigbee monitoring terminal node, including: water sensor, dipperstick, water-level alarm Device and Zigbee transmission module；

Described water sensor is connected with dipperstick, water level alarm and Zigbee transmission module；

Described dipperstick is for showing the waterlevel data that water sensor monitors, when waterlevel data exceedes alarm threshold value, Alarm signal is sent by described water level alarm；The data message collected is sent to affiliated district by described Zigbee transmission module Zigbee region aggregation node in territory.

Wherein, by this locality or centralized control center is remotely located and/or change for the alarm threshold value of described water level alarm.

Further, described GPRS is wirelessly transferred net, including: GPRS region aggregation node and GPRS Centroid；

The data message that each Zigbee region water level monitoring net collects is sent to GPRS by described GPRS region aggregation node Centroid；Described data message is forwarded to centralized control center by described GPRS Centroid.

The utility model provides a kind of Zigbee regional water level monitoring system, the number of each point to be monitored in pickup area simultaneously It is believed that breath, including: at least one Zigbee monitoring terminal node, Zigbee region aggregation node and regional work station；

Described Zigbee monitoring terminal node is each point to be monitored in being deployed in region as required, for gathering the number of point to be monitored It is believed that breath, carry out local warning and the data message collected is sent to Zigbee region aggregation node；

Described Zigbee region aggregation node, gathers, for converging, the data message that the transmission of each Zigbee monitoring terminal node comes；

Described regional work station, for by the data message real-time storage of Zigbee region aggregation node collection and process.

Further, described Zigbee monitoring terminal node is the embedded awareness apparatus possessing bi-directional communication function.

In sum, the utility model provides a kind of long-pending water monitoring system, disposes multiple Zigbee regions water level as required Monitoring net, and be wirelessly transferred net by GPRS and send ponding situation and the warning message of regional to centralized control center in time. Further, at setting area, each region work station, realize dependency number together with the ponding monitoring center work station of centralized control center and it is believed that The storage of breath, record, report to the police, analysis and decision.Present invention achieves the differentiated control technology of ponding monitoring, it is achieved that region Level (level of standing) water level monitoring information unification collection also carries out localization process, and can the collection of multizone (level of standing) water regime monitoring Middle management controls.

Meanwhile, the invention provides a kind of Zigbee regional water level monitoring system, belong to a kind of station level water level monitoring system, energy The data message that enough each Zigbee monitoring terminal nodes converged in time in region gather, if waterlevel data exceedes alarm threshold value, Send alarm signal the most in time, related data information is sent after converging to Zigbee region aggregation node and integrate simultaneously Send to regional work station, with the storage of complete paired data, analysis and decision, thus can effectively control and manage at regional work station The ponding situation of (or station level) in reason region, in order to make and tackle timely and process.

Accompanying drawing explanation

In order to be illustrated more clearly that the technical solution of the utility model, will the accompanying drawing used required in embodiment be made simple below Ground is introduced, it should be apparent that, the accompanying drawing in describing below is only some embodiments described in the utility model, for ability From the point of view of the those of ordinary skill of territory, on the premise of not paying creative work, it is also possible to obtain other accompanying drawing according to these accompanying drawings.

A kind of ponding monitoring system embodiment structural representation that Fig. 1 provides for the utility model；

The one that Fig. 2 provides for the utility model monitors system embodiment structural representation for transformer substation accumulated water.

Detailed description of the invention

The utility model gives a kind of long-pending water monitoring system, in order to make those skilled in the art be more fully understood that the utility model Technical scheme in embodiment, and it is understandable to enable above-mentioned purpose of the present utility model, feature and advantage to become apparent from, knot below Close accompanying drawing technical scheme in the utility model is described in further detail:

The utility model provides a kind of ponding monitoring system embodiment, as it is shown in figure 1, include:

At least one Zigbee region water level monitoring net 10, GPRS is wirelessly transferred net 20 and centralized control center 30；

Described Zigbee region water level monitoring net 10, the data message of each point to be monitored in pickup area；

Described GPRS is wirelessly transferred net 20, for being sent to by the data message that each Zigbee region water level monitoring net 10 gathers Centralized control center 30；

Described centralized control center 30, for carrying out response operation based on the data message received.Wherein, described response operation, extremely Include less: store, process, analyze or show.

In said system, described data message includes: waterlevel data or alert data.

Preferably, described Zigbee region water level monitoring net, including: at least one Zigbee monitoring terminal node, Zigbee Region aggregation node and regional work station；

Described Zigbee monitoring terminal node, for gathering the data message of point to be monitored, carries out local warning and will collect Data message be sent to Zigbee region aggregation node；

Described Zigbee region aggregation node, gathers, for converging, the data message that the transmission of each Zigbee monitoring terminal node comes；

Described regional work station, for by the data message real-time storage of Zigbee region aggregation node collection and process.

Wherein, described Zigbee monitoring terminal node can carry out classifying alarm threshold value setting, can be localized sound and light alarm and The function of information transmission.

It is further preferable that described Zigbee monitoring terminal node, including: water sensor, dipperstick, water-level alarm Device and Zigbee transmission module；

Described water sensor is connected with dipperstick, water level alarm and Zigbee transmission module；

Described dipperstick is for showing the waterlevel data that water sensor monitors, when waterlevel data exceedes alarm threshold value, Alarm signal is sent by described water level alarm；The data message collected is sent to affiliated district by described Zigbee transmission module Zigbee region aggregation node in territory.

Wherein, by this locality or centralized control center is remotely located and/or change for the alarm threshold value of described water level alarm.Thus side Just local management and the most effectively manipulation.

Preferably, described GPRS is wirelessly transferred net, including: GPRS region aggregation node and GPRS Centroid；

The data message that each Zigbee region water level monitoring net collects is sent to GPRS by described GPRS region aggregation node Centroid；Described data message is forwarded to centralized control center by described GPRS Centroid.

The long-pending water monitoring system that above-described embodiment is provided by multiple Zigbee regions water level monitoring net, GPRS be wirelessly transferred net and Centralized control center forms.Multiple Zigbee monitoring terminal node can be set in the water level monitoring net of described Zigbee region further, Thus in the place needed, many places Zigbee monitoring terminal node is set, when water accumulation level data exceed warning with gridding form Sound and light alarm can be localized during threshold value, meanwhile, in each region, be both provided with work station with centralized control center, these work Station is respectively provided with powerful storage and disposal ability, will carry out management and the disposal of data in region, the data letter in all regions Breath will carry out in centralized control center storing, process, analyze or showing again.Therefore, this long-pending water monitoring system has distributed and collection concurrently The advantage of Chinese style management, has ensured the integrality of data message, is more beneficial for making more accurately according to data message and timely Response, it is to avoid owing to ponding crosses harm that is deep and that bring.

The utility model provides a kind of ponding monitoring system embodiment, as a example by transformer station, as in figure 2 it is shown, include:

At least one Zigbee region water level monitoring net 10, GPRS is wirelessly transferred net 20 and centralized control center 30；

Described Zigbee region water level monitoring net 10 also includes: at least one Zigbee monitoring terminal node 101, Zigbee district Territory aggregation node 102 and regional work station 103；Described Zigbee monitoring terminal node 101 farther includes: water sensor, Dipperstick, water level alarm and Zigbee transmission module；

Described GPRS is wirelessly transferred net 20, including: GPRS region aggregation node 201 and GPRS Centroid 202；

When, in the Zigbee region water level monitoring net 10 in No. 1 transformer station region, being positioned at the Zigbee monitoring terminal of No. 1 deep well The water sensor of node 101 monitors the waterlevel data of to three grades, and locally displayed by dipperstick, by water-level alarm Device sends the alarm signal of appropriate level, and the data message of collection is sent to by Zigbee transmission module by wireless channel Zigbee region aggregation node 102, after regional work station 103 processes, after being processed by GPRS region aggregation node 201 Data message is sent to GPRS Centroid 202, and described data message is forwarded to collection control by described GPRS Centroid 202 The ponding monitoring center work station at center 30 carries out storing, process, analyze or the operation such as display.

Wherein, data message can be polymerization storage in the state of the storage of the ponding monitoring center work station of centralized control center 30, I.e. carry out intelligent data repository at ponding monitoring center work station, eliminate redundant data, simplify storage index, accurate, complete with energy Whole records transformer station and the numbering of monitoring point and title, water level, warning level, generation date, and duration.

The state that the data message ponding monitoring center work station in centralized control center 30 processes can be that confirmation processes, and i.e. monitors work Make personnel and pass through the artificial treatment at ponding monitoring center work station, or administrative staff pass through internet in palm intelligent terminal Early warning is eliminated after carrying out confirmation process, and by timely for relevant information record.

The state that the data message ponding monitoring center work station in centralized control center 30 is analyzed can be intellectual analysis and aid decision System, it is simple to carry out the water level forecast of science, it is achieved save efficient scientific management.

Wherein, described Zigbee monitoring terminal node 101 can carry out classifying alarm threshold value setting, can be localized acousto-optic report The function that alert and information is transmitted.

Wherein, by this locality or centralized control center is remotely located and/or change for the alarm threshold value of described water level alarm.Thus side Just local management and the most effectively manipulation.

This gives a kind of long-pending water monitoring system, as a example by the ponding monitoring in transformer station, Zigbee monitoring terminal node Water level early warning both can be localized acousto-optic early warning, it is also possible to feed back to centralized control center；Zigbee region water level monitoring net is led to Cross Zigbee region aggregation node, the Zigbee monitoring terminal node of multiple monitoring points in whole transformer station can be managed, theoretical Capacity is up to 65535；The Zigbee region water level monitoring net of native system and centralized control center are equipped with work station, are respectively provided with strong Big storage and disposal ability, have distributed and centralized management feature concurrently, ensured data integrity；Communication network in native system Network has two-way function, both can carry out data acquisition easily, it is also possible to reliably carry out order distribution, so that respectively In the water level monitoring net of Zigbee region, the data message of each Zigbee monitoring terminal node can send to centralized control center in time, and The order of centralized control center can also be distributed to each Zigbee region water level monitoring net in time, sends to the most in time to each district Zigbee monitoring terminal node in territory.The Zigbee region water level monitoring net of native system uses free 2.4GHz frequency range, joint About mass data flow, is greatly improved economy；Wherein, described centralized control center work station can realize water level monitoring data Intelligent storage, analyze and process, it is simple to realize water level forecast and aid decision by intelligent algorithm.

The utility model provides a kind of Zigbee regional water level monitoring system, the number of each point to be monitored in pickup area simultaneously It is believed that breath, including:

At least one Zigbee monitoring terminal node, Zigbee region aggregation node and regional work station；

Described Zigbee monitoring terminal node is each point to be monitored in being deployed in region as required, for gathering the number of point to be monitored It is believed that breath, carry out local warning and the data message collected is sent to Zigbee region aggregation node；

Described Zigbee region aggregation node, gathers, for converging, the data message that the transmission of each Zigbee monitoring terminal node comes；

Described regional work station, for by the data message real-time storage of Zigbee region aggregation node collection and process.

Preferably, described Zigbee monitoring terminal node is the embedded awareness apparatus possessing bi-directional communication function.

Above embodiments describing a kind of Zigbee regional water level monitoring system, described Zigbee monitoring terminal node can be according to need Dispose, including: the position such as deep well or cable duct, collect data message, local warning can not only be carried out, it is also possible to The data message of each point to be monitored is sent to Zigbee region aggregation node, finally at regional work station, collection data is carried out Real-time storage and process, thus complete the operations such as the monitoring in real time of station level, data process and alarm response.

Above example is in order to illustrative not limiting the technical solution of the utility model.Without departing from the utility model spirit and scope Any modification or partial replacement, all should contain in the middle of right of the present utility model.

Claims (7)

1. a long-pending water monitoring system, it is characterised in that including: at least one Zigbee region water level monitoring net, GPRS It is wirelessly transferred net and centralized control center；

Described Zigbee region water level monitoring net, the data message of each point to be monitored in pickup area；

Described GPRS is wirelessly transferred net, for the data message of each Zigbee region water level monitoring net collection is sent to collection control Center；

Described centralized control center, for carrying out response operation based on the data message received.

2. the system as claimed in claim 1, it is characterised in that described Zigbee region water level monitoring net, including: at least One Zigbee monitoring terminal node, Zigbee region aggregation node and regional work station；

Described Zigbee monitoring terminal node, for gathering the data message of point to be monitored, carries out local warning and will collect Data message be sent to Zigbee region aggregation node；

Described Zigbee region aggregation node, gathers, for converging, the data message that the transmission of each Zigbee monitoring terminal node comes；

Described regional work station, for by the data message real-time storage of Zigbee region aggregation node collection and process.

3. system as claimed in claim 2, it is characterised in that described Zigbee monitoring terminal node, including: water logging passes Sensor, dipperstick, water level alarm and Zigbee transmission module；

Described water sensor is connected with dipperstick, water level alarm and Zigbee transmission module；

Described dipperstick is for showing the waterlevel data that water sensor monitors, when waterlevel data exceedes alarm threshold value, Alarm signal is sent by described water level alarm；The data message collected is sent to affiliated district by described Zigbee transmission module Zigbee region aggregation node in territory.

4. system as claimed in claim 3, it is characterised in that the alarm threshold value of described water level alarm by local or Centralized control center is remotely located and/or changes.

5. the system as claimed in claim 1, it is characterised in that described GPRS is wirelessly transferred net, including: GPRS district Territory aggregation node and GPRS Centroid；

Described GPRS region aggregation node is for being sent to the data message that each Zigbee region water level monitoring net collects GPRS Centroid；Described GPRS Centroid is for being forwarded to centralized control center by described data message.

6. a Zigbee regional water level monitoring system, it is characterised in that the data letter of each point to be monitored in pickup area Breath, including: at least one Zigbee monitoring terminal node, Zigbee region aggregation node and regional work station；

Described Zigbee monitoring terminal node is each point to be monitored in being deployed in region as required, for gathering the number of point to be monitored It is believed that breath, carry out local warning and the data message collected is sent to Zigbee region aggregation node；

Described Zigbee region aggregation node, gathers, for converging, the data message that the transmission of each Zigbee monitoring terminal node comes；

Described regional work station, for by the data message real-time storage of Zigbee region aggregation node collection and process.

7. system as claimed in claim 6, it is characterised in that described Zigbee monitoring terminal node is for possessing two-way communication The embedded awareness apparatus of function.