CN206459023U - The monitoring device and system of aqueduct - Google Patents

Abstract

The utility model provides the monitoring device and system of a kind of aqueduct, and the device includes：Data acquisition circuit is arranged on inside aqueduct, for gathering indication signal, and to control circuit output indication signal, and indication signal at least includes the flow signal and pressure signal in aqueduct；Control circuit is electrically connected with data acquisition circuit, the indication signal for receiving data acquisition circuit output, and indication signal progress is handled and obtains target data；Control circuit is connected by telecommunication circuit with server communication, for by telecommunication circuit to server transport target data.The device can in real time be monitored to the flow and pressure in aqueduct, to realize the collection, processing and transmission of a variety of data, in the leakage situation by a variety of Data Detection aqueducts, allow for monitoring result more accurate, and then alleviate when whether being leaked by single data monitoring aqueduct, the poor technical problem of monitoring accuracy.

Description

The monitoring device and system of aqueduct

Technical field

The utility model is related to aqueduct monitoring technical field, a kind of monitoring device more particularly, to aqueduct and System.

Background technology

At present, it is very various in the aqueduct for different purposes of embedded underground, in the use process of aqueduct In, due to the aging and the influence of extraneous factor of pipeline, the phenomenon of aqueduct rupture is happened occasionally, and pipeline breaking can be caused Economic loss and casualties, it is therefore, particularly significant to the accurate measurements of aqueduct.

In the prior art, single method is generally used for the monitoring that aqueduct is leaked, such as by monitoring certain section The uninterrupted at aqueduct two ends determines whether to be leaked between this segment pipe.But, the mode of above-mentioned monitoring is deposited In some defects, such as, after the equipment of single monitoring flow breaks down, if technical staff fails timely to find event Barrier, it would be possible to the phenomenon failed to report occur；In addition, the parameters of aqueduct local environment are changes, the ring of these changes Influence of the border parameter to water flow in pipeline amount is not considered when monitoring water-carrying capacity, so, and monitoring device is likely to occur The phenomenon of wrong report.

So, when the single data obtained by single method carry out judging whether pipeline there occurs leakage, judge Result accuracy it is poor, practicality is relatively low.

Utility model content

In view of this, the purpose of this utility model is the monitoring device and system for providing a kind of aqueduct, to alleviate Whether in the prior art when being leaked by single data monitoring aqueduct, the technology that the accuracy of monitoring is poor is asked Topic.

In a first aspect, the utility model embodiment provides a kind of monitoring device of aqueduct, described device includes：Number According to Acquisition Circuit, control circuit and telecommunication circuit, wherein,

The data acquisition circuit is arranged on inside aqueduct, for gathering indication signal, and to the control circuit The indication signal is exported, wherein, the indication signal at least includes the flow signal and pressure signal in the aqueduct；

The control circuit is electrically connected with the data acquisition circuit, the institute for receiving the data acquisition circuit output Indication signal is stated, and the indication signal progress is handled obtains target data, wherein, the target data at least includes flow Data and pressure data；

The control circuit is connected by the telecommunication circuit with server communication, for by the telecommunication circuit to institute State target data described in server transport.

With reference in a first aspect, the utility model embodiment provide first aspect the first possible embodiment, its In, the data acquisition circuit includes：Flow sensor and pressure sensor；

The input of the flow sensor is threadedly coupled with the aqueduct, for detecting the flow signal；

The input of the pressure sensor is threadedly coupled with the aqueduct, and adjacent with the flow sensor is set Put, for detecting the pressure signal.

With reference in a first aspect, the utility model embodiment provide first aspect second of possible embodiment, its In, the control circuit includes：Controller and power module；

The controller is electrically connected with the output end of the flow sensor and the output end of the pressure sensor respectively, For receiving the flow signal that the flow sensor is sent, and the pressure letter that the pressure sensor is sent Number, and the flow signal and the pressure signal are handled, the data on flows and the pressure data are obtained, its In, the flow signal and the pressure signal are analog signal, and the data on flows and the pressure data are numeral Signal；

The power module is electrically connected with the controller, is the flow for the control instruction according to the controller Sensor and/or the pressure sensor provide electric energy；And, when electricity be less than can be to the flow sensor and/or institute When stating the minimum electricity that pressure sensor is powered, low battery signal is generated, and low battery signal is sent to the control Device.

With reference in a first aspect, the utility model embodiment provide first aspect the third possible embodiment, its In, the controller is connected by the telecommunication circuit with the server communication, with by the telecommunication circuit to the clothes Business device sends at least one of the data on flows, the pressure data and described low battery signal.

With reference in a first aspect, the utility model embodiment provide first aspect the 4th kind of possible embodiment, its In, the power module is lithium battery.

With reference in a first aspect, the utility model embodiment provide first aspect the 5th kind of possible embodiment, its In, the controller is ARM embeded processors Cortex-M3.

With reference in a first aspect, the utility model embodiment provide first aspect the 6th kind of possible embodiment, its In, described device also includes：Equipment box and the support for fixing the equipment box, wherein, it is described to control circuit and described logical Letter circuit is arranged in the equipment box, and the data acquisition circuit is arranged at outside the equipment box.

With reference in a first aspect, the utility model embodiment provide first aspect the 7th kind of possible embodiment, its In, the telecommunication circuit is GPRS communication modules.

Second aspect, the utility model embodiment also provides a kind of monitoring system of aqueduct, and the system includes：On State monitoring device, aqueduct, server and the terminal device of the aqueduct described in first aspect；

The monitoring device of the aqueduct is threadedly coupled with the aqueduct, for monitoring in the aqueduct Indication signal, and the indication signal progress is handled obtain target data, the target data is sent to the server, Wherein, the indication signal at least includes the flow signal and pressure signal in the aqueduct, and the target data is at least Including data on flows and pressure data；

The monitoring device of the server and the aqueduct is communicated to connect, for receiving the target data, with right The target data is handled, and obtains the information of aqueduct, and stores the information of the aqueduct, wherein, it is described defeated The information of waterpipe includes at least one of：For indicating the information whether aqueduct leaks, for indicating The information of the aqueduct leak position, the information for indicating the aqueduct leakiness；

The terminal device is connected with the server communication, and the server is transferred for the instruction of transferring according to user In the aqueduct information, and by the presentation of information of the aqueduct in the display interface of the terminal device.

With reference to second aspect, the utility model embodiment provides the first possible embodiment of second aspect, its In, the monitoring device of the aqueduct is multiple, and the monitoring device of each aqueduct is arranged on the water delivery The diverse location of pipeline.

The utility model embodiment brings following beneficial effect：A kind of aqueduct that the utility model embodiment is provided Monitoring device and system, the monitoring device of the aqueduct includes：Data acquisition circuit, control circuit and telecommunication circuit, its In, data acquisition circuit is arranged on inside aqueduct, for gathering indication signal, and to control circuit output indication signal, Wherein, indication signal at least includes the flow signal and pressure signal in aqueduct；Control circuit and data acquisition circuit electricity Connection, target data is obtained for receiving the indication signal that data acquisition circuit is exported, and indication signal progress being handled, its In, target data at least includes data on flows and pressure data；Control circuit is connected by telecommunication circuit with server communication, is used In by telecommunication circuit to server transport target data；

Carry out judging whether aqueduct is leaked with the single data that obtain by single method in the prior art Compare, it gathers indication signal by being arranged at the data acquisition circuit inside aqueduct, and the indication signal at least includes stream Signal and pressure signal are measured, then to control circuit output indication signal, indication signal is handled by control circuit Target data, corresponding target data at least includes data on flows and pressure data, and eventually through telecommunication circuit to server Export target data.The device can in real time be monitored to the flow and pressure in aqueduct, to realize a variety of data Collection, processing and transmission, it is simple to operate.In the leakage situation by a variety of Data Detection aqueducts, it becomes possible to so that prison Whether the result of survey is more accurate, and then alleviate and leaked by single data monitoring aqueduct in the prior art When, the poor technical problem of the accuracy of monitoring.

Further, the monitoring device of the aqueduct is applied in the monitoring system of aqueduct, passes through server Processing to target data, can be accurately obtained aqueduct whether leak, the degree of the position that leaks and leakage Information, practicality is good, and application value is higher.

Other feature and advantage of the present utility model will illustrate in the following description, also, partly from specification In become apparent, or understood by implementing the utility model.The purpose of this utility model and other advantages are in explanation Specifically noted structure is realized and obtained in book, claims and accompanying drawing.

To enable above-mentioned purpose of the present utility model, feature and advantage to become apparent, preferred embodiment cited below particularly, and Coordinate appended accompanying drawing, be described in detail below.

Brief description of the drawings

, below will be right in order to illustrate more clearly of the utility model embodiment or technical scheme of the prior art The accompanying drawing used required in embodiment or description of the prior art is briefly described, it should be apparent that, describe below In accompanying drawing be some embodiments of the present utility model, for those of ordinary skill in the art, do not paying creativeness On the premise of work, other accompanying drawings can also be obtained according to these accompanying drawings.

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

The structural representation of the monitoring device for another aqueduct that Fig. 2 provides for the utility model embodiment；

A kind of structural representation of the monitoring device for optional aqueduct that Fig. 3 provides for the utility model embodiment；

A kind of structural representation of the monitoring system for aqueduct that Fig. 4 provides for the utility model embodiment；

The structure of the monitoring system for the aqueduct without aqueduct that Fig. 5 provides for the utility model embodiment is shown It is intended to.

Icon：

The monitoring device of 1- aqueducts；11- data acquisition circuits；12- controls circuit；13- telecommunication circuits；21- water deliverys Pipeline；22- servers；23- terminal devices；17- equipment boxs；18- supports；111- flow sensors；112- pressure sensors； 121- power modules；122- controllers.

Embodiment

To make the purpose, technical scheme and advantage of the utility model embodiment clearer, below in conjunction with accompanying drawing to this The technical scheme of utility model is clearly and completely described, it is clear that described embodiment is that the utility model part is real Apply example, rather than whole embodiments.Based on the embodiment in the utility model, those of ordinary skill in the art are not making The every other embodiment obtained under the premise of creative work, belongs to the scope of the utility model protection.

At present, leakage situation of the single data obtained in the prior art generally by single method to aqueduct 21 Judged, still, the judged result accuracy obtained by single data is poor, and practicality is relatively low.Based on this, the utility model The monitoring device and system for a kind of aqueduct that embodiment is provided, can be carried out real to the flow in aqueduct 21 and pressure When monitor, can realize more than one data collection, processing and transmit, it is simple to operate.So, by a variety of data to water delivery The leakage situation of pipeline 21 is monitored so that the result of monitoring is more accurate.

For ease of understanding the present embodiment, first to a kind of aqueduct disclosed in the utility model embodiment Monitoring device 1 describes in detail.

A kind of monitoring device 1 of aqueduct, with reference to Fig. 1, the device includes：Data acquisition circuit 11, control circuit 12 With telecommunication circuit 13, wherein,

Data acquisition circuit 11 is arranged on aqueduct 21 (aqueduct 21 is not shown in Fig. 1) inside, for gathering Indication signal, and to the control output indication signal of circuit 12, wherein, indication signal at least includes the flow letter in aqueduct 21 Number and pressure signal；

Control circuit 12 is electrically connected with data acquisition circuit 11, the instruction letter for receiving the output of data acquisition circuit 11 Number, and indication signal progress is handled obtain target data, wherein, target data at least includes data on flows and pressure data；

Control circuit 12 to be communicated to connect by telecommunication circuit 13 and server 22 (server 22 is not shown in Fig. 1), use In by telecommunication circuit 13 to the transmission objectives data of server 22.

In the utility model embodiment, the monitoring device 1 of aqueduct is to the environmental requirement ratio residing for aqueduct 21 It is relatively low, can be the aqueduct 21 being directly embedded in the aqueduct 21 of underground or Underground Culvert or piping lane. When in use, the monitoring device 1 of aqueduct may be mounted in inspection shaft or blast pit or other can realize The optional position of monitoring, the utility model embodiment does not do specific limitation to it.

In the utility model embodiment, the collection of data is by flow sensor 111 and the (Fig. 1 of pressure sensor 112 Not shown in) complete.Flow sensor 111 and pressure sensor 112, which have, to be reflected sensitive, long lifespan, is swift in motion, safely Reliable advantage, can accurately detect the water-carrying capacity and hydraulic pressure of ad-hoc location in aqueduct 21 respectively, wherein, water-carrying capacity It is above-mentioned indication signal with hydraulic pressure.

Further, data acquisition circuit 11 is to the control output indication signal of circuit 12, and control circuit 12 is getting finger Show after signal, indication signal will be handled, to obtain target data, wherein, target data at least includes data on flows And pressure data.Then, control circuit 12 exports target data by telecommunication circuit 13 to server 22, so that server 22 is protected Deposit target data.Finally, server 22 is after target data is got, it is possible to carry out total score to current target data Analysis handles the information for obtaining aqueduct 21.It should be noted that when to 22 transmission objectives data of server, server 22 will Target data is preserved in real time, that is to say, that in the utility model embodiment, except being entered according to current target data Outside row comprehensive analysis processing, the target data (that is, the target data of history) that can be combined with having preserved carries out integrated treatment, Obtain the information of aqueduct 21.

A kind of monitoring device 1 for aqueduct that the utility model embodiment is provided, the monitoring device 1 of the aqueduct is wrapped Include：Data acquisition circuit 11, control circuit 12 and telecommunication circuit 13, wherein, data acquisition circuit 11 is arranged on aqueduct 21 Inside, for gathering indication signal, and to the control output indication signal of circuit 12, wherein, indication signal at least includes water-supply-pipe Flow signal and pressure signal in road 21；Control circuit 12 is electrically connected with data acquisition circuit 11, for receiving data acquisition The indication signal that circuit 11 is exported, and indication signal progress is handled obtain target data, wherein, target data at least includes stream Measure data and pressure data；Control circuit 12 is communicated to connect by telecommunication circuit 13 with server 22, for passing through telecommunication circuit 13 to the transmission objectives data of server 22；

Judge whether aqueduct there occurs leakage phase with the single data obtained in the prior art by single method Than.In the utility model embodiment, indication signal is gathered by being arranged at the data acquisition circuit 11 inside aqueduct 21, Wherein, the indication signal at least includes flow signal and pressure signal；Then, to the control output indication signal of circuit 12, then by Control circuit 12, which is handled indication signal progress, obtains target data, wherein, target data at least includes data on flows and pressure Data；The method for exporting target data to server 22 eventually through telecommunication circuit 13, can be to the flow in aqueduct 21 Monitored in real time with pressure, the collection, processing and transmission of more than one data can be realized, it is simple to operate.In this way, it is possible to The leakage situation of aqueduct 21 is monitored by a variety of data so that the result of monitoring is more accurate, alleviated existing In technology when whether being leaked by single data monitoring aqueduct, the poor technical problem of the accuracy of monitoring.

Further, the monitoring device 1 of the aqueduct is applied in the monitoring system of aqueduct, passes through server The processing of 22 pairs of target datas, can be accurately obtained aqueduct 21 whether leak, the position that leaks and leakage The information of degree, practicality is good, and application value is higher.

The above describes the structure of the monitoring device 1 of aqueduct on the whole, below to the monitoring of aqueduct The concrete structure of device 1 is described in detail.

With reference to Fig. 2, data acquisition circuit 11 includes：Flow sensor 111 and pressure sensor 112；

The input of flow sensor 111 is threadedly coupled with aqueduct 21, for detection flows signal；Wherein, flow Annexation between sensor 111 and aqueduct 21 is not shown in fig. 2, specifically, in lower Fig. 3, gives flow Annexation between sensor 111 and aqueduct 21.

The input of pressure sensor 112 is threadedly coupled with aqueduct 21, and is disposed adjacent with flow sensor 111, For detecting pressure signal, wherein, the annexation between pressure sensor 112 and aqueduct 21 is also not shown in fig. 2. Specifically, in figure 3, the annexation between pressure sensor 112 and aqueduct 21 is given.

In the utility model embodiment, the input of flow sensor 111 and pressure sensor 112 is threaded knot Structure, sets two adjacent perforates for being threaded structure at the position that aqueduct 21 is pre-set.So, flow sensing The input for being threaded structure of device 111 and pressure sensor 112 can just intert into aqueduct 21 with matching spiral shell In the perforate of line structure.Sensor with helicitic texture on the one hand, can realize flow sensor 111, pressure sensor 112 with the threaded connection of aqueduct 21；On the other hand, it can be good at the perforate sealing of aqueduct 21.

In addition, it is in order to by flow sensor 111 and pressure that why two perforates for being threaded structure, which are disposed adjacent, Force snesor 112 detects the indication signal at same position simultaneously, and such setting causes the result of post analysis judgement more Accurately.

The structure for controlling circuit 12 is specifically described below.

Control circuit 12 includes：Power module 121 and controller 122；

Controller 122 is electrically connected with the output end of flow sensor 111 and the output end of pressure sensor 112 respectively, is used Believe in the flow signal for receiving the transmission of flow sensor 111, and the pressure signal that pressure sensor 112 is sent, and to flow Number and pressure signal handled, obtain data on flows and pressure data, wherein, flow signal and pressure signal are simulation letter Number, data on flows and pressure data are data signal；

Power module 121 is electrically connected with controller 122, is flow sensor for the control instruction according to controller 122 111 and/or pressure sensor 112 provide electric energy；And, when electricity be less than being capable of flow sensor 111 and/or pressure sensing During the minimum electricity that device 112 is powered, low battery signal is generated, and low battery signal is sent to controller 122.

In the utility model embodiment, controller 122 is ARM embeded processor Cortex-M3, high-performance ARM Embeded processor Cortex-M3, mainly controls the normal operation of the monitoring device 1 of aqueduct, using optimization processing It is high that control system can reduce device power consumption, integrated level.Controller 122 can also receive flow sensor 111 and pressure sensing Flow signal and pressure signal that device 112 is sent, the flow signal and pressure signal are analog signal, then to flow signal and Pressure signal is handled (processing here specifically refers to analog-to-digital conversion), obtains data on flows and pressure data, wherein, flow Data and pressure data are data signal；In addition, include in controller 122 pre-set be used for control power module 121 The control instruction of power on/off, can be automatically controlled to the power on/off situation of power module 121.

Power module 121 is electrically connected with controller 122, and power on/off, power supply mould can be realized according to the control of controller 122 Block 121 can electrically connect (not shown in Fig. 2) with flow sensor 111, pressure sensor 112 respectively, and this makes it possible to convection current Quantity sensor 111 and/or pressure sensor 112 carry out offer electric energy, and the electric energy in device needed for other devices work can lead to Cross and realize power supply with the direct or indirect connection of power module 121.Specifically, power module 121 is lithium battery, wherein, lithium electricity Pond possesses excessively stream, over-voltage protecting function, ensure that safe handling of the device in complex environment, provides lasting, steady for device The fixed energy.In addition, when the electricity in power module 121 be less than being capable of flow sensor 111 and/or pressure sensor 112 During the minimum electricity being powered, low battery signal is generated, and low battery signal is sent to controller 122.

Further, controller 122 is communicated to connect by telecommunication circuit 13 with server 22, with by telecommunication circuit 13 to At least one of the transmitted traffic data of server 22, pressure data and low battery signal.

In the utility model embodiment, telecommunication circuit 13 is preferably general packet radio service (General Packet Radio Service, referred to as GPRS) communication module, alternatively, it is also possible to being 3G, 4G communication module, the utility model embodiment It is not particularly limited；Data on flows, pressure data and low battery signal can be arrived by network transmissions such as communication network, internets Server 22, server 22 is received after low battery signal, can realize that low battery is alarmed by terminal device 23, to remind user The monitoring device 1 to aqueduct changes lithium battery in time；Meanwhile, server 22 is receiving data on flows and pressure data Afterwards, data on flows and pressure data can also be handled (process specifically handled is described below), it is defeated to obtain The information of waterpipe 21.

In addition, with reference to Fig. 3, the monitoring device 1 of above-mentioned aqueduct also includes：Equipment box 17 and for fixing equipment case 17 Support 18, wherein, control circuit 12 and telecommunication circuit 13 be arranged in equipment box 17, data acquisition circuit 11 is arranged at equipment Outside case 17.

Specifically, control circuit 12 and telecommunication circuit 13 are arranged in equipment box 17, it is ensured that whole device is being used During security, it is relatively reliable.

With reference to Fig. 4, the utility model embodiment additionally provides a kind of monitoring system of aqueduct, and the system includes：It is defeated Monitoring device 1, aqueduct 21, server 22 and the terminal device 23 of waterpipe；

The monitoring device 1 of aqueduct is threadedly coupled with aqueduct 21, for monitoring the letter of the instruction in aqueduct 21 Number, and indication signal progress is handled obtain target data, target data is sent to server 22, wherein, indication signal is extremely Include the flow signal and pressure signal in aqueduct 21 less, target data at least includes data on flows and pressure data；

The monitoring device 1 of server 22 and aqueduct is communicated to connect, for receiving target data, to enter to target data Row processing, obtains the information of aqueduct 21, and stores the information of aqueduct 21, wherein, the information of aqueduct 21 includes At least one of：For indicating the information whether aqueduct 21 leaks, for indicating the leak position of aqueduct 21 Information, the information for indicating the leakiness of aqueduct 21；

Terminal device 23 is communicated to connect with server 22, for according to user transfer instruction transfer it is defeated in server 22 The information of waterpipe, and by the presentation of information of aqueduct in the display interface of terminal device 23.

In the utility model embodiment, the monitoring device 1 of aqueduct monitors the indication signal of aqueduct 21, and right Indication signal progress, which is handled, obtains target data, and target data is sent to server 22；Target data is entered by server 22 Row processing obtains the information of aqueduct 21, and the presentation of information that most aqueduct 21 is leaked at last is in the display of terminal device 23 In interface, for user's real time inspection.

Data handling system and data-storage system are included in server 22, data handling system is by the target data being sent to It is identified, calls flow sensor 111 and the corresponding historical data of pressure sensor 112, by current target data and phase Correspondence historical data carries out many data comprehensive analysis of polymorphic type, obtains the information of aqueduct 21, and be presented to terminal device 23 Display interface on, while the information that aqueduct 21 is leaked is stored into storage system, checked so that user calls.

With reference to Fig. 5, the monitoring device 1 of aqueduct is multiple, and the monitoring device 1 of each aqueduct is arranged on defeated The diverse location of waterpipe 21, wherein, aqueduct 21 is not shown in Figure 5.

The process that server 22 is handled target data below is described in detail：

Server 22 is received after the data on flows and pressure data of multiple transmissions of aqueduct monitoring devices 1, according to phase Data on flows and the size of pressure data that two adjacent aqueduct monitoring devices 1 are sent, rough judgement are two neighboring defeated Whether the aqueduct 21 between waterpipe monitoring device 1 is leaked.If the foundation of judgement is two adjacent water-supply-pipes Road monitoring device 1 monitor obtained data on flows and pressure data difference it is larger when, just can determine that two aqueducts monitorings Aqueduct 21 between device 1 is leaked；If the flow number that adjacent two aqueduct monitoring devices 1 monitoring is obtained During according to of substantially equal with pressure data, the aqueduct 21 between two aqueduct monitoring devices 1 of primitive decision is not let out Leakage；

Further, then the history target data that is stored in server 22 (the i.e. aqueduct of corresponding position is passed through Detection means 1 monitors obtained former data on flows and pressure data) result of above-mentioned judgement is verified, such as can be with The target data of current target data and yesterday is analyzed, or, by the target data in current (such as winter) It is analyzed with the target data in winter last year, so as to eliminate the environmental factor in the external world to flow in aqueduct and pressure The influence of power, so, the information of obtained aqueduct 21 more accurately and reliably, have substantially prevented the feelings reported by mistake and failed to report Condition.

It is in addition, passing through the analysis to target data, additionally it is possible to obtain the information of the leakiness of aqueduct 21, such as adjacent The monitoring devices 1 of two aqueducts monitor that the obtained difference of target data is very big, then illustrate the prison of two aqueducts The aqueduct 21 surveyed between device 1 there occurs serious leakage, endanger very big；And the monitoring device of two adjacent aqueducts The difference for the target data that 1 monitoring is obtained is not very big, then illustrates the aqueduct 21 between the monitoring device 1 of two aqueducts It there occurs slight leakage.This comprehensive analysis by big data can be accurately obtained the running situation of aqueduct 21, It is significant.

The monitoring system for a kind of aqueduct that the utility model embodiment is provided, it is possible to achieve multi-method is monitored, when many Intermediate node aggregation of data Treatment Analysis so that the result (i.e. the information of aqueduct 21) of monitoring is more accurate, in monitoring pipeline While leakage, additionally it is possible to obtain the running situation of aqueduct 21, systematic difference value is substantially increased.

It is apparent to those skilled in the art that, for convenience and simplicity of description, the system of foregoing description With the specific work process of device, the corresponding process in preceding method embodiment is may be referred to, be will not be repeated here.

In addition, in the description of the utility model embodiment, unless otherwise clearly defined and limited, term " installation ", " connected ", " connection " should be interpreted broadly, for example, it may be being fixedly connected or being detachably connected, or integratedly be connected Connect；Can be mechanical connection or electrical connection；Can be joined directly together, can also be indirectly connected to by intermediary, can To be the connection of two element internals.For the ordinary skill in the art, above-mentioned term can be understood with concrete condition Concrete meaning in the utility model.

If the function is realized using in the form of SFU software functional unit and is used as independent production marketing or in use, can be with It is stored in a computer read/write memory medium.Based on it is such understand, the technical solution of the utility model substantially or Person says that the part of the part contributed to prior art or the technical scheme can be embodied in the form of software product, The computer software product is stored in a storage medium, including some instructions are to cause a computer equipment (can be with It is personal computer, server, or network equipment etc.) perform whole or the portion of the utility model each embodiment methods described Step by step.And foregoing storage medium includes：USB flash disk, mobile hard disk, read-only storage (ROM, Read-Only Memory), with Machine access memory (RAM, Random Access Memory), magnetic disc or CD etc. are various can be with Jie of store program codes Matter.

, it is necessary to explanation in description of the present utility model, term " " center ", " on ", " under ", it is "left", "right", " perpendicular Directly ", the orientation or position relationship of the instruction such as " level ", " interior ", " outer " are, based on orientation shown in the drawings or position relationship, to be only Described for the ease of description the utility model and simplifying, rather than to indicate or imply that signified device or element must have specific Orientation, with specific azimuth configuration and operation, therefore it is not intended that to limitation of the present utility model.In addition, term " the One ", " second ", " the 3rd " are only used for describing purpose, and it is not intended that indicating or implying relative importance.

Finally it should be noted that：Embodiment described above, embodiment only of the present utility model, to illustrate this The technical scheme of utility model, rather than its limitations, protection domain of the present utility model are not limited thereto, although with reference to foregoing The utility model is described in detail embodiment, it will be understood by those within the art that：It is any to be familiar with this skill The technical staff in art field is in the technical scope that the utility model is disclosed, and it still can be to the skill described in previous embodiment Art scheme is modified or can readily occurred in change, or carries out equivalent substitution to which part technical characteristic；And these modifications, Change is replaced, and the essence of appropriate technical solution is departed from the spirit and model of the utility model embodiment technical scheme Enclose, should all cover within protection domain of the present utility model.Therefore, protection domain of the present utility model described should be wanted with right The protection domain asked is defined.

Claims (8)

1. a kind of monitoring device of aqueduct, it is characterised in that described device includes：Data acquisition circuit, control circuit and Telecommunication circuit, wherein,

The data acquisition circuit is arranged on inside aqueduct, for gathering indication signal, and to the control circuit output The indication signal, wherein, the indication signal at least includes the flow signal and pressure signal in the aqueduct；

The control circuit is electrically connected with the data acquisition circuit, the finger for receiving the data acquisition circuit output Show signal, and the indication signal progress is handled obtain target data, wherein, the target data at least includes data on flows And pressure data；

The control circuit is connected by the telecommunication circuit with server communication, for by the telecommunication circuit to the clothes Business device transmits the target data.

2. device according to claim 1, it is characterised in that the data acquisition circuit includes：Flow sensor and pressure Force snesor；

The input of the flow sensor is threadedly coupled with the aqueduct, for detecting the flow signal；

The input of the pressure sensor is threadedly coupled with the aqueduct, and is disposed adjacent with the flow sensor, For detecting the pressure signal.

3. device according to claim 2, it is characterised in that the control circuit includes：Controller and power module；

The controller is electrically connected with the output end of the flow sensor and the output end of the pressure sensor respectively, is used for The flow signal that the flow sensor is sent, and the pressure signal that the pressure sensor is sent are received, and The flow signal and the pressure signal are handled, the data on flows and the pressure data is obtained, wherein, it is described Flow signal and the pressure signal are analog signal, and the data on flows and the pressure data are data signal；

The power module is electrically connected with the controller, is the flow sensing for the control instruction according to the controller Device and/or the pressure sensor provide electric energy；And, when electricity be less than can be to the flow sensor and/or the pressure During the minimum electricity that force snesor is powered, low battery signal is generated, and low battery signal is sent to the controller.

4. device according to claim 3, it is characterised in that the controller passes through the telecommunication circuit and the service Device is communicated to connect, to send the data on flows, the pressure data and described to the server by the telecommunication circuit At least one of low battery signal.

5. device according to claim 3, it is characterised in that the power module is lithium battery.

6. device according to claim 3, it is characterised in that the controller is ARM embeded processors Cortex- M3。

7. device according to claim 1, it is characterised in that described device also includes：Equipment box and for fixed described The support of equipment box, wherein, the control circuit and the telecommunication circuit are arranged in the equipment box, the data acquisition electricity Road is arranged at outside the equipment box.

8. device according to claim 1, it is characterised in that the telecommunication circuit is GPRS communication modules.