CN205407883U - Oxygenating water body machine based on cell -phone APP remote control - Google Patents
Oxygenating water body machine based on cell -phone APP remote control Download PDFInfo
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- CN205407883U CN205407883U CN201620157653.5U CN201620157653U CN205407883U CN 205407883 U CN205407883 U CN 205407883U CN 201620157653 U CN201620157653 U CN 201620157653U CN 205407883 U CN205407883 U CN 205407883U
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Abstract
The utility model relates to an oxygenating water body machine based on cell -phone APP remote control, can effectively solve the control of oxygen -increasing machine, the management, thereby realize the in good time effectual oxygenation problem of water, a structure of the handbag is characterized in that, the suspension bracket below is arranged in to the immersible pump, the thing networking communicator that seals in the shell is equipped with in proper order on the last plane of suspension bracket from a left side to the right side, air compressor, a controller, a central processing unit, the water body monitoring ware, thing networking communicator wants the wire to link to each other with central processing unit, air compressor channel qi pipe links to each other with the immersible pump, the controller is respectively through wire and immersible pump, air compressor, central processing unit links to each other, the water body monitoring ware links to each other with central processing unit through the wire, be equipped with on the water body monitoring ware and place the outer dissolved oxygen monitoring probe of shell in, temperature monitoring probe, thing networking communicator is continuous with the high in the clouds server outside arranging the shell in through the wire, high in the clouds server and cell -phone APP terminal wireless connection. The utility model discloses installation convenient to use realizes in real time to oxygenating water body, assurance quality of water.
Description
Technical field
This utility model relates to oxygen increasing equipment, particularly a kind of based on the mobile phone A PP water oxygenation machine remotely controlled.
Background technology
In recent years, all kinds of natural water bodies are seriously polluted, and aquatic ecosystem is severely damaged.The problem that Dissolved Oxygen in Water is not enough is one of key factor of the restriction self-purification of water and artificial-strengthening biological restoration, and the application of aerator can be effectively improved Dissolved Oxygen in Water concentration, is one of important technical of rebuilding of water ecosystem.But traditional water oxygenation machine there is also following defect in actual use:
1, machine operation time is determined by the program designed in advance, when the water quality water yield changes, it may appear that for the situation of oxygen excess or deficiency, thus causing the waste of the energy or the deterioration of water quality;
2, machine operation needs professional staff to scene, it is impossible to remotely operate;
3, oxygenation effect does not have measured data instant playback effect;
4, not having staining effect and early warning system, interactive process is delayed.
Therefore, how to solve the control of aerator, management, thus realizing water body effective oxygen supplement in good time is to solve the technical problem that.
Summary of the invention
For above-mentioned situation, for overcoming the defect of prior art, the purpose of this utility model is just to provide and a kind of can effectively solve the control of aerator, management based on the mobile phone A PP water oxygenation machine remotely controlled, thus realizing water body effective oxygen supplement problem in good time.
The technical scheme that this utility model solves is, including immersible pump, air compressor, controller and central processing unit, immersible pump is placed in below suspension, on suspension, plane is sequentially arranged with the Internet of Things communicator sealed in the enclosure from left to right, air compressor, controller, central processing unit, aquatic monitoring device (also known as water quality monitor), Internet of Things communicator wants wire to be connected with central processing unit, air compressor is connected with immersible pump through trachea, controller is respectively through wire and immersible pump, air compressor, central processing unit is connected, aquatic monitoring device is connected with central processing unit through wire, equipped with the dissolved oxygen monitoring probe being placed in outside shell on aquatic monitoring device, temperature monitoring probe, Internet of Things communicator is connected with the cloud server being placed in outside shell through wire, cloud server is connected with mobile phone A PP terminal wireless.
This utility model simple in construction, novel unique, easily manufacture, easy to install, the remote intelligent effectively solving aerator controls management, and real-time implementation is to water oxygenation, it is ensured that water quality, has significant economic and social benefit.
Accompanying drawing explanation
Fig. 1 is that structure of the present utility model connects frame diagram.
Detailed description of the invention
Below in conjunction with accompanying drawing, detailed description of the invention of the present utility model is elaborated.
nullAs shown in Figure 1,This utility model includes immersible pump、Air compressor、Controller and central processing unit,Immersible pump 1 is placed in below suspension 9,On suspension, plane is sequentially arranged with the Internet of Things communicator 8 being sealed in shell 10 from left to right、Air compressor 2、Controller 3、Central processing unit 4、Aquatic monitoring device (also known as water quality monitor) 5,Internet of Things communicator 8 wants wire to be connected with central processing unit 4,Air compressor 2 is connected with immersible pump 1 through trachea,Controller 3 is respectively through wire and immersible pump 1、Air compressor 2、Central processing unit 4 is connected,Aquatic monitoring device 5 is connected with central processing unit 4 through wire,Equipped with the dissolved oxygen monitoring probe 6 being placed in outside shell 10 on aquatic monitoring device 5、Temperature monitoring probe 7,Internet of Things communicator 8 is connected with the cloud server 12 being placed in outside shell through wire,Cloud server 12 and mobile phone A PP terminal 13 wireless connections.
In order to ensure result of use, described immersible pump 1 is suspended in the bottom of suspension 9 through fixed mount 11;Described suspension 9 for light material make square, payload swims on the water surface;
Described controller 3 is cyclelog or singlechip controller;
Described central processing unit be in single-chip microcomputer, programmable logic controller (PLC), digital signal processor and arm processor any one;Described Internet of Things communicator 8 is the one in GPS, GPRS, GSM, WIFI module;
Described dissolved oxygen monitoring probe 6, temperature monitoring probe 7 are fixed on below suspension 9 through buckle.
The above is only preferably case study on implementation of the present utility model; not this utility model is done any pro forma restriction; according to technical spirit of the present utility model, the simple amendment that above-mentioned case is made, equivalent replacement etc., belong to protection domain of the present utility model.
Working condition of the present utility model is, aerator can according to established standards value and Monitoring Data, and Intelligent adjustment runs program, changes working time and oxygen supplement intensity;Being monitored dissolved oxygen and temperature by Internet of Things, the Internet Monitoring Data is sent to cloud server, server calculates assessment oxygenation effect, and sends daily prompting and early warning;User accepts information on mobile phone A PP, can pass through mobile phone A pp simultaneously and send instruction adjustment aerator operation program.Realize remotely controlling and remote maintenance management of aerator accordingly.
This utility model is based on the mobile phone A pp intelligent water body aerator remotely controlled, aerator runs program according to target setting Intelligent adjustment, can also remotely be controlled intelligence to set mode of operation by mobile phone A PP, control oxygen supplement intensity/time, simultaneously by Internet of Things monitoring Dissolved Oxygen in Water content, temperature etc., by the Internet wiFi, these Monitoring Data are sent to cloud server, allow user grasp working condition and the oxygenation effect of aerator by user mobile phone A PP.Mobile phone A PP also has daily prompt facility and warning function, and prompting user carries out plant maintenance and sends early warning when water oxygenation poor effect, and user can make reply according to prompting and early warning in the very first time, carries out remote maintenance management.
Based on Internet of Things, mobile phone A pp client instructions signal server beyond the clouds, pass through mobile Internet, it is sent to the Internet of Things communication module in aerator, instruction is transferred to oxygen supplement and controls module by associated central processing unit, control module instruction again through oxygen supplement and adjust the working procedure of air pump and immersible pump, thus realizing the aerator long-range control based on Internet of Things and the Internet.
Aerator can run program by adjustment, mobile phone A PP sets dissolved oxygen target range by the Internet of Things communication module transmission instruction on cloud server and intelligence aerator to central processing unit, aerator can be run program according to the dissolved oxygen target range set and periodic monitoring data (dissolved oxygen and temperature) and be adjusted by intelligence aerator, thus changing the operation time of aerator, oxygen supplement intensity etc., until it reaches set dissolved oxygen target range.
After the dissolved oxygen monitoring probe of certain depth monitors water body solution oxygen and temperature data with temperature monitoring probe by setting cycle under water, Monitoring Data is delivered to central processing unit, the signal that central processing unit identifies after processing is divided into three kinds, when dissolved oxygen higher than target range time signal be excessive, when dissolved oxygen is lower than target range, signal is defective, when dissolved oxygen is in target range, signal is qualified.
Aerator has central processing unit and oxygen supplement control module can the working time of aerator, cycle, air inflow be adjusted, the aerator working procedure that oxygen supplement intensity is different can be formed by this adjustment, and central processing unit is after identifying dissolved oxygen monitor signal, if signal is excessive, lower an oxygen supplement strength grade, if signal is defective then one oxygen supplement strength grade of rise, if signal is qualified, maintains original working procedure and work on, realize the self-adaptative adjustment of aerator working procedure accordingly.When dissolved oxygen monitor signal was constantly in high state, aerator will enter dormancy program, suspend oxygen supply, until defective signal occurs;Otherwise, when dissolved oxygen monitor signal is constantly in defective state, aerator will enter continuous firing program, until too high signal occurs.
After user scans the special Quick Response Code of aerator, under wiFi mobile internet environment, it is achieved aerator Internet of Things intelligent apparatus docks with cloud server account number coupling.Cloud server accepts to come from the Monitoring Data of aerator Internet of Things communication module on the one hand, accept on the other hand from the control instruction on mobile phone A pp, calculate assessment oxygenation effect simultaneously, storage is to cloud server, and by mobile phone A PP to user send prompting and early warning signal, it is presented on mobile phone A pp, it is achieved the two-way interactive of data between mobile phone A pp and aerator.
Mobile phone A PP system, divide Android Android and two system versions of Fructus Mali pumilae IOS, but data are from same aerator cloud server, it is user and the tie of aerator realization interaction, it is possible to carry out data transmission, remind and early warning, instruction transmission and acceptance, plant maintenance plan and oxygenation effect setting etc.;User realizes mobile phone interaction function by scanning client Quick Response Code installation mobile phone A PP.
Dissolved oxygen monitoring probe and temperature monitoring probe, fixed by snap in the support structural base that suspends, while, is connected with monitor controller, by Monitoring Data transmission to monitor controller.Described monitor controller is connected with central processing unit, by received Monitoring Data transmission to central processing unit.
Monitor controller can arrange periodic monitoring time and cycle, with digital displaying function, it is provided with the Dissolved Oxygen in Water target range under condition of different temperatures simultaneously, after receiving temperature monitoring probe and dissolved oxygen monitoring probe data, automatically real-time dissolved oxygen value and above-mentioned target range are compared, and transmitting the result to central processing unit, oxygen supplement is controlled module transfer oxygen supplement working procedure according to result and adjusts instruction by central processing unit.
Controller is by program setting air compressor and immersible pump working time, compression air inlet amount etc..Being connected with central processing unit, after receiving central processing unit instruction, programme-control electromagnetic valve adjusts air demand or controls on and off switch by electromagnetic valve, changes service life, with this purpose reaching to adjust aerator oxygen supplement working procedure.Control to can set that air compressor air demand is the 20% of specified air demand, 40%, 60%, 80%, 100% etc. 5 grades by said procedure, working time is it can also be provided that 10 minutes/hour, 20 minutes/hour, 30 minutes/hour, 40 minutes/hour, 40 minutes/hour, 50 minutes/hour, 60 minutes/hour etc. 6 grades, it is more than default setting, can be modified by mobile phone A PP in running.
Central processing unit is connected with Internet of Things communication module, receives the instruction from mobile phone A PP, and transmission instruction controls module to oxygen supplement after computing;Central controller receives and stores the data from monitor controller simultaneously, forms instruction transmission to oxygen supplement and control module after computing, and by Monitoring Data by the Internet transmission to cloud server.
Under water, air compressor, oxygen supplement control module, central processing unit, monitor controller, Internet of Things communication module are fixed on suspension and support in structure, more than the water surface for immersible pump, dissolved oxygen monitoring probe and temperature monitoring probe.
Air compressor, is fixed on suspension support superstructure, is connected by trachea and immersible pump, compression air is delivered to immersible pump water inlet.Immersible pump is connected with suspension support structure by fixing bar construction, and the compression air entering immersible pump mixes with water, and air is dissolved in the water in a large number, and at submersible pump outlet place, dissolved air discharges from water, forms a large amount of micro-bubble, it is achieved the oxygen supplement of water body.
From the foregoing, this utility model is easy to install, can effectively realize the intelligent control to aerator and management, realize the oxygen supplement to water body, it is ensured that Water quality, cost is low, effective, and economic and social benefit is notable in good time.
Claims (4)
- null1. one kind based on the mobile phone A PP water oxygenation machine remotely controlled,Including immersible pump、Air compressor、Controller and central processing unit,It is characterized in that,Immersible pump (1) is placed in suspension (9) lower section,On suspension, plane is sequentially arranged with the Internet of Things communicator (8) being sealed in shell (10) from left to right、Air compressor (2)、Controller (3)、Central processing unit (4)、Aquatic monitoring device (5),Internet of Things communicator (8) wants wire to be connected with central processing unit (4),Air compressor (2) is connected with immersible pump (1) through trachea,Controller (3) is respectively through wire and immersible pump (1)、Air compressor (2)、Central processing unit (4) is connected,Aquatic monitoring device (5) is connected with central processing unit (4) through wire,Equipped with being placed in shell (10) dissolved oxygen monitoring probe (6) outward on aquatic monitoring device (5)、Temperature monitoring probe (7),Internet of Things communicator (8) is connected with the cloud server (12) being placed in outside shell through wire,Cloud server (12) and mobile phone A PP terminal (13) wireless connections.
- 2. according to claim 1 based on the mobile phone A PP water oxygenation machine remotely controlled, it is characterised in that described immersible pump (1) is suspended in the bottom of suspension (9) through fixed mount (11).
- 3. according to claim 1 based on the mobile phone A PP water oxygenation machine remotely controlled, it is characterised in that described suspension (9) for light material make square.
- 4. according to claim 1 based on the mobile phone A PP water oxygenation machine remotely controlled, it is characterised in that described dissolved oxygen monitoring probe (6), temperature monitoring probe (7) are fixed on suspension (9) lower section through buckle.
Priority Applications (1)
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CN201620157653.5U CN205407883U (en) | 2016-03-02 | 2016-03-02 | Oxygenating water body machine based on cell -phone APP remote control |
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CN201620157653.5U CN205407883U (en) | 2016-03-02 | 2016-03-02 | Oxygenating water body machine based on cell -phone APP remote control |
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CN201620157653.5U Expired - Fee Related CN205407883U (en) | 2016-03-02 | 2016-03-02 | Oxygenating water body machine based on cell -phone APP remote control |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106587404A (en) * | 2017-02-08 | 2017-04-26 | 河南工程学院 | Remote-controllable movable water aerating and sludge scraping apparatus |
CN106745868A (en) * | 2017-02-08 | 2017-05-31 | 河南工程学院 | Mobile water body deposit aerator based on mobile phone A PP remote controls |
-
2016
- 2016-03-02 CN CN201620157653.5U patent/CN205407883U/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106587404A (en) * | 2017-02-08 | 2017-04-26 | 河南工程学院 | Remote-controllable movable water aerating and sludge scraping apparatus |
CN106745868A (en) * | 2017-02-08 | 2017-05-31 | 河南工程学院 | Mobile water body deposit aerator based on mobile phone A PP remote controls |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20160727 Termination date: 20170302 |