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CN109088945A - Multi purpose pumping station and its control method - Google Patents

Multi purpose pumping station and its control method Download PDF

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Publication number
CN109088945A
CN109088945A CN201811099430.8A CN201811099430A CN109088945A CN 109088945 A CN109088945 A CN 109088945A CN 201811099430 A CN201811099430 A CN 201811099430A CN 109088945 A CN109088945 A CN 109088945A
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China
Prior art keywords
information
card
sensor
app
water
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Application number
CN201811099430.8A
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Chinese (zh)
Inventor
金国强
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Jiaxing Xinmingyuan Agricultural Science And Technology Co Ltd
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Jiaxing Xinmingyuan Agricultural Science And Technology Co Ltd
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Priority to CN201811099430.8A priority Critical patent/CN109088945A/en
Publication of CN109088945A publication Critical patent/CN109088945A/en
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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L67/00Network arrangements or protocols for supporting network services or applications
    • H04L67/01Protocols
    • H04L67/02Protocols based on web technology, e.g. hypertext transfer protocol [HTTP]
    • H04L67/025Protocols based on web technology, e.g. hypertext transfer protocol [HTTP] for remote control or remote monitoring of applications
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F04POSITIVE - DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS FOR LIQUIDS OR ELASTIC FLUIDS
    • F04BPOSITIVE-DISPLACEMENT MACHINES FOR LIQUIDS; PUMPS
    • F04B49/00Control, e.g. of pump delivery, or pump pressure of, or safety measures for, machines, pumps, or pumping installations, not otherwise provided for, or of interest apart from, groups F04B1/00 - F04B47/00
    • F04B49/06Control using electricity
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04LTRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
    • H04L67/00Network arrangements or protocols for supporting network services or applications
    • H04L67/01Protocols
    • H04L67/10Protocols in which an application is distributed across nodes in the network
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04MTELEPHONIC COMMUNICATION
    • H04M1/00Substation equipment, e.g. for use by subscribers
    • H04M1/72Mobile telephones; Cordless telephones, i.e. devices for establishing wireless links to base stations without route selection
    • H04M1/724User interfaces specially adapted for cordless or mobile telephones
    • H04M1/72403User interfaces specially adapted for cordless or mobile telephones with means for local support of applications that increase the functionality
    • H04M1/72409User interfaces specially adapted for cordless or mobile telephones with means for local support of applications that increase the functionality by interfacing with external accessories
    • H04M1/72415User interfaces specially adapted for cordless or mobile telephones with means for local support of applications that increase the functionality by interfacing with external accessories for remote control of appliances
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04NPICTORIAL COMMUNICATION, e.g. TELEVISION
    • H04N7/00Television systems
    • H04N7/18Closed-circuit television [CCTV] systems, i.e. systems in which the video signal is not broadcast

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  • Engineering & Computer Science (AREA)
  • Signal Processing (AREA)
  • Computer Networks & Wireless Communication (AREA)
  • Human Computer Interaction (AREA)
  • Multimedia (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Hydroponics (AREA)

Abstract

The invention discloses a kind of multi purpose pumping station and its control method, method includes: A. equipment self-inspection, the improper information that the on-line monitoring element being arbitrarily arranged in pumping plant monitors is fed back to central processing unit, and improper information is sent to terminal backstage;B. remote fault diagnosis periodically or by the long-range startup separator diagnostic program in terminal backstage carries out online maintenance;C. long-range monitoring, terminal backstage adjust rotation ball machine probe by sending rotation regulating command to central processing unit to obtain comprehensive live video information;D. automatic process control system receives card using information or APP of the user in card reader and controls information, opens or closes corresponding water pump according to card using information or APP control information, and IC card or the progress expense calculating of APP account to user.It is an advantage of the current invention that adapting to agricultural modernization demand, it is convenient for pumping plant management and irrigation control, realizes and apply fertilizer while irrigating, raising is irrigated and fertilising efficiency.

Description

Multi purpose pumping station and its control method
Technical field
The invention belongs to water conservancy irrigation technical fields, more particularly, to a kind of multi purpose pumping station and its control method.
Background technique
Important component of the rural irrigation pumping plant as construction of water conservancy works, has the characteristics that have a large capacity and a wide range.Traditional The pump house of pumping plant is mostly brick mix structure, is covered an area of, and the construction time is long, and the electric controling mode of traditional pump station is excessively simple The disadvantages of single, the degree of automation is not high enough, complicated and difficult there are management service, has been difficult to adapt to agricultural modernization and information The development need of change, people have carried out long-term exploration thus, such as Chinese patent discloses a kind of integral intelligent pumping plant [Shen Please number: CN201610877887.1], including pump house, water pump assembly, pumped vacuum systems, pipeline, valve, camera, human body infrared Detector, alarm device, ventilation equipment, thresholding level sensor, liquid crystal display, peep hole, card reader and control cabinet;Pump house four sides Eaves are equipped with camera, human body infrared detector, alarm device, ventilation equipment;Video camera, pump house door also are provided in pump house On thresholding level sensor, liquid crystal display, peep hole, card reader and air intake window are installed;Thresholding level sensor is for judging pump Whether door is opened or closed;Liquid crystal display intuitively shows all operation datas of pumping plant;Peep hole facilitates user not Pump house inner case is observed in the case where enabling;Card reader controls water pump operation for swiping the card;Water pump machine is installed inside pump house Group, pipeline, valve, water ga(u)ge, pumped vacuum systems and control cabinet;Pipeline inlet a part is stretched out outside pump house, another part It is connected in pump house and with pump intake, water pump and motor use axis to connect mode or belt connection type, pump outlet peace Equipped with electric butterfly valve, electric butterfly valve connects straight-run of pipe Duan Houyu water ga(u)ge pipeline and is connected, and the water ga(u)ge other end is water outlet Pipeline section, a part is in pump house, and a part is outside pump house.
Above scheme proposes a kind of higher Intelligent pumping station of the degree of automation, can preferably adapt to agricultural modernization and Information-based development need, but above scheme still has the place that has much room for improvement, for example, being used when pumping plant breaks down The Intelligent pumping station of above scheme can not carry out self-test and remote fault diagnosis, lead to problems such as later maintenance difficult;And it is above-mentioned Pumping plant also can not carry out disbursement and sattlement to user's start and stop pumping plant, there is a problem of management inconvenience.
Summary of the invention
Regarding the issue above, the present invention provides a kind of mistake function pumping plant control method for being able to carry out self-test;
It is a further object of the present invention to provide a kind of multi purpose pumping stations based on above-mentioned control method.
In order to achieve the above objectives, present invention employs following technical proposals:
A kind of multi purpose pumping station control method, comprising:
A. equipment self-inspection, the improper information that the on-line monitoring element being arbitrarily arranged in pumping plant monitors fed back to The improper information is sent to terminal backstage by wireless module by central processor;
B. remote fault diagnosis periodically or by the long-range startup separator diagnostic program in terminal backstage carries out online maintenance;
C. long-range monitoring is provided with multi-wad join at pumping plant and pops one's head in the ball machine of central processing unit, terminal backstage pass through to Central processing unit sends rotation regulating command to adjust rotation ball machine probe to obtain comprehensive live video information;
D. automatic process control system receives card using information or APP of the user in card reader and controls information, according to letter of swiping the card Breath or APP control information open or close corresponding water pump, and IC card or the progress expense calculating of APP account to user.
In above-mentioned multi purpose pumping station control method, in method D, the card using information and APP control information difference The balance information of balance information and corresponding APP account including corresponding IC card, and automatically according to locality after this end of run Water resource rate and energy charge take off expense.
In above-mentioned multi purpose pumping station control method, in method D, when receiving card using information, in liquid crystal display Screen display corresponds to the start and stop option of each water pump, and the corresponding water pump of result start and stop according to the user's choice, and each water pump Corresponding one or more is wait fill generally;
When receiving APP control information, the start and stop option for corresponding to each water pump is returned to the end APP, and according to user The corresponding water pump of selection result start and stop, the corresponding one or more of each water pump is wait fill generally.
In above-mentioned multi purpose pumping station control method, further includes:
Fertilising control, control is connected to the solenoid valve in different fertilizer storehouse and is connected to the water pump of reservoir to carry out not respectively Fertilising movement in proportion;
Rotation flow control, after receiving the irrigation instruction based on card using information, APP control information or terminal backstage, to each A filling generally carries out ration water supply water distribution.
In above-mentioned multi purpose pumping station control method, further includes:
Data upload, and various kinds of sensors, the on-line monitoring collected monitoring data of element are uploaded to cloud platform;
Dual power supply is powered by solar battery and alternating current respectively, and wherein the electric energy in solar battery is by light Volt plate receives and converts solar energy and obtain, and the electric energy in solar battery is converted to 220V alternating current to supply by inverter Pumping plant electric energy.
In above-mentioned multi purpose pumping station control method, during irrigation, irrigation water is carried out by gravel filter Sandstone filtering, and the irrigation of pipeline constant pressure water supply is carried out by constant pressure frequency conversion control cabinet.
A kind of multi purpose pumping station, including pump house, pipe-line system, Internet of things system, metering system, monitoring system and automation Control system and self-checking system, the self-checking system include multiple on-line monitoring elements being arranged in pumping plant;The Internet of Things Net system includes IC card and APP;The metering system includes electromagnetic flowmeter, ammeter and card-reading system;The monitoring system Including infrared probe and video monitor;The automatic control system includes man-machine system, and the man-machine system has center Processor and the liquid crystal display for being connected to central processing unit, the man-machine system be connected to Internet of things system, monitoring system, from Check system and metering system;The automatic control system is connected to terminal backstage by cloud platform.
It further include multiple fertilizer bins for storing corresponding fertilizer, the fertilizer of each fertilizer bin in above-mentioned multi purpose pumping station Material output channel is all connected to mixing bunker, and is provided with solenoid valve and peristaltic pump on the fertilizer output channel of each fertilizer bin, The peristaltic pump is all connected to automatic control system;
The upper limit sensor for being all connected to automatic control system, middle limit are provided in the mixing bunker from top to bottom Sensor and lower limit level sensor;
The mixing output channel of the mixing bunker is connected to the water delivery pipe road of reservoir, the mixing output channel and water It is provided with water pump on output channel, and is additionally provided with non-return valve on the mixing output channel, water delivery pipe is also set up on road There are PH sensor, EC sensor and flowmeter.
It further include double power-supply system in above-mentioned multi purpose pumping station, the double power-supply system includes dual power supply modulus of conversion Block, and be connected to the mains system and solar cell system of dual power supply conversion module, the dual power supply conversion module it is another One end is connected to pumping plant so that mains supply or solar battery power are conveyed to pumping plant;
The Internet of things system further includes soil temperature-moisture sensor, aerial temperature and humidity sensor, optical sensor, dioxy Change carbon sensor and pipe pressure sensor and Current Voltage sensor, and each sensor integration in an acquisition rod with right Each sensor carries out integrated setting, and the Internet of things system is connected to the cloud platform, by the acquisition data of each sensor It is uploaded to the cloud platform;
The video monitor includes that multichannel is able to carry out the ball machine probe rotated up and down;
The pump house is integrated structure, and the pump house is made of WPC environment-friendly materials.
In above-mentioned multi purpose pumping station, gravel filter and constant pressure frequency conversion control cabinet are provided at the pipe-line system, To carry out sandstone filtering to irrigation water and carry out the irrigation of pipeline constant pressure water supply.
The present invention compared with the existing technology the advantages of be: can preferably adapt to agricultural modernization and information-based development It needs;Can periodically or non-periodically self-test and remote fault diagnosis, be convenient for later maintenance;During using pumping plant directly to Electric water consumption carries out disbursement and sattlement, convenient for management using simple;It can apply fertilizer while irrigating, mitigate peasant's fertilising Burden improves fertigation efficiency.
Figure of description
Fig. 1 is the system structure diagram in the embodiment of the present invention one;
Fig. 2 is the pump room structure figure in the embodiment of the present invention one;
Fig. 3 is the connection relationship diagram of man-machine system and metering system and monitoring system in the embodiment of the present invention one;
Fig. 4 is the structural schematic diagram of cloud platform in the embodiment of the present invention one;
Fig. 5 is the structural schematic diagram of double power-supply system in the embodiment of the present invention two;
Fig. 6 is the structural schematic diagram that solar cell system is powered in the embodiment of the present invention two;
Fig. 7 is the structural schematic diagram of automatic fertilization unit in the embodiment of the present invention three;
Fig. 8 is the structural schematic diagram of the embodiment of the present invention four.
Appended drawing reference: pump house 1;Self-checking system 2;Monitor element 21 on-line;Internet of things system 3;IC card 31;APP32;Acquisition Stick 33;Metering system 4;Electromagnetic flowmeter 41;Ammeter 42;Card-reading system 43;Monitoring system 5;Infrared probe 51;Video monitor 52;Ball machine probe 521;Automatic control system 6;Man-machine system 61;Central processing unit 62;Liquid crystal display 63;Upper limit passes Sensor 64;Middle limit sensors 65;Lower limit level sensor 66;Terminal backstage 7;Cloud platform 8;Acquisition system 81;Control system 82; Meteorological system 83;Video system 84;Cloud Server 9;Fertilizer bin 100;Fertilizer output channel 101;Mixing bunker 200;Mixing output Pipeline 201;Non-return valve 202;Solenoid valve 300;Peristaltic pump 400;Reservoir 500;Water delivery pipe road 501;Water pump 600;Dual power supply System 700;Dual power supply conversion module 701;Mains system 702;Solar cell system 703;Solar panel 704;Photovoltaic Inverter 705;Well house 800;Immersible pump 801;Gravel filter 900;Grid filter 901;PH sensor PH;EC sensor EC;Flowmeter F;Pressure gauge Pi.
Specific embodiment
The present invention will be further described in detail with reference to the accompanying drawings and detailed description.
Embodiment one
Present embodiment discloses a kind of multi purpose pumping station as shown in Figure 1, and multi purpose pumping station specifically included pump house 1, Water pump assembly, vacuumize or flood pattern, pipe-line system, intelligent electric system (containing breaker, overheat protector, motor protect Protect device, the equipment such as frequency conversion), Internet of things system 3, metering system 4, monitoring system 5, automatic control system 6, self-checking system 2 etc. Module, aforesaid plurality of module, such as water pump assembly, vacuumize or flood pattern, pipe-line system, intelligent electric system etc. use The scheme of the prior art, the present embodiment are described in detail only for improvement, for prior art module set-up mode with Structure and working principle is herein without repeating.
Specifically, 1 structure of pump house is as shown in Fig. 2, 1 use of pump house of the present embodiment is integrated made of Novel environment-friendlymaterial material Formula structure pump house, Novel environment-friendlymaterial material can be WPC, be commonly called as wood moulding;WPC environment-friendly materials have intensity is good, hardness is high, it is anti-skidding, It is wear-resisting, do not crack, do not damage by worms, water imbibition is small, ageing-resistant, corrosion-resistant, antistatic and ultraviolet light, insulation, heat-insulated, fire-retardant equal spies Point, while the renewable chemical component without noxious material pollution-free recycling and reusing and can re-work use, can also biology Degradation.
Further, as shown in Figure 1, self-checking system 2 includes multiple on-line monitoring elements 21 being arranged in pumping plant 1, The information of line monitoring element 21 all feeds back to central processing unit 62, and the improper information of any one on-line monitoring element 21 can It is enough to be captured by central processing unit 62, and improper information is sent to by terminal backstage 7 or other management terminals by network.
Internet of things system 3 includes IC card 31 and APP32, and APP32 may be mounted in the mobile terminals such as mobile phone, passes through IC card 31 and APP32 start & shutdown through one key pumping plant;Metering system 4 includes electromagnetic flowmeter 41, ammeter 42 and card-reading system 43;User Ke Tong Direct start and stop pumping plant of swiping the card is crossed, pumping plant takes off expense automatically according to local water resource rate and energy charge;Similarly, user may be used also With by APP32 start and stop pumping plant, operator is not necessarily to scene remotely control pumping plant, while aided remote regards Frequency can directly observe live operating condition.It should be noted that being only authenticated to be pumping plant in order to facilitate management and safety The APP account of administrative staff just has pumping plant control authority;
In addition, monitoring system 5 includes infrared probe 51 and video monitor 52, wherein infrared probe 51 is for solving pumping plant In the unattended safety precaution problem of inoperative device, infrared probe 51 can be set multiple, be separately positioned on each of pumping plant A coke is wealthy, it is ensured that omnidirectional detection is any to enter target, and video monitor 52 includes that multichannel is able to carry out and rotates up and down Network video ball machine probe 521, user can adjust rotation ball machine probe 521 as needed, pass through APP32 or terminal backstage 7 Realize remote real_time control ball machine probe 521, to obtain ideal live video information in further detail, video monitor here Tetra- tunnel 52 Fen Wei, four tunnel ball machines probe 521 are respectively arranged in four corners of pump house 1, infrared probe 51 and ball machine probe 521 It is dynamic, allow safety precaution to become visually, the mobile object for entering pumping plant circumference is captured in playback, and also settable alarm module is to alert Intruder and to 110 or terminal backstage 7 alarm.
Automatic control system 6 includes man-machine system 61, and man-machine system 61 has central processing unit 62 and is connected to center The liquid crystal display 63 of processor 62, as shown in Fig. 2, liquid crystal display 63 is installed on pump house 1;As shown in figures 1 and 3, people Machine system 61 is connected to Internet of things system 3 and metering system 4 by com port, and is connected to monitoring system 5 and oneself by Ethernet Check system 2.
The Internet of things system 3 further includes soil temperature-moisture sensor, aerial temperature and humidity sensor, optical sensor, two Aoxidize pumping station automatizations and the information such as meteorological sensors and pipe pressure sensor, Current Voltage sensor such as carbon sensor Change needed for other kinds acquisition sensor, can overall process parameter detecting, detection limit include water consumption, electricity consumption, water intaking river Road water level, pipeline pressure, host electric current, voltage, power factor (PF), temperature and humidity etc. in pumping plant.And all kinds of acquisition sensors are integrated In, to carry out integrated setting to each acquisition sensor, certainly, other sensors also can integrate and adopt in this in an acquisition rod 33 Collect in stick 33.Pumping plant is based on the modules such as aforementioned Internet of things system 3 and automatic control system 6 and realizes one-key start, vacuumizes, opens Closing valve judges whether be automatically performed full of water etc. by pumping plant in pipeline, is not necessarily to manual intervention.Internet of things system 3 can also wrap Central die is included, each sensor, collector are both connected to the central die, which is connected to cloud platform 8, will be each The acquisition data of sensor and collector are uploaded to cloud platform 8 or each sensor, the collector of Internet of things system 3 connect It is connected to central processing unit 62, data will be acquired by central processing unit 62 and show on liquid crystal display 63 and be uploaded to cloud platform 8。
As shown in figure 4, cloud platform 8 includes acquisition system 81, control system 82, meteorological system 83 and video system 84, Acquisition system 81 is connected to each acquisition sensor of pumping plant, i.e. acquisition rod 33, control system 82 is connected to automation control system System 6, meteorological system 83 is connected to weather station 8, and weather station includes each meteorological sensor, and video system 84 is connected to positioned at pumping plant Monitoring system 5.Cloud platform 8 is connected to terminal backstage 7, and terminal backstage 7 obtains each acquisition data, monitoring number by cloud platform Control command is automated according to transmission, cloud platform 8 is connected to Cloud Server 9 again.
Preferably, the present embodiment pumping plant uses frequency control mode, is suitable for pipeline constant pressure water supply and irrigates, so in pipeline Constant pressure frequency conversion control cabinet is provided at system, constant pressure frequency conversion control cabinet is connected to automatic control system 6.
Embodiment two
The present embodiment is similar with embodiment one, the difference is that, as shown in figure 5, the pumping plant of the present embodiment further includes having Double power-supply system 700, double power-supply system 700 includes dual power supply conversion module 701, and is connected to dual power supply conversion module 701 Mains system 702 and solar cell system 703, the other end of dual power supply conversion module 701 be connected to each use of pumping plant Electric system is to be conveyed to pumping plant for mains supply or solar battery power, wherein as shown in fig. 6, solar cell system 703 Including solar panel 704 and photovoltaic DC-to-AC converter 705, solar panel 704 is connected to photovoltaic DC-to-AC converter 705, and photovoltaic is inverse Become device 705 and is connected to each electrical equipment of pump house 1 and the immersible pump 801 of well house 800 etc..
Embodiment three
The present embodiment is similar with embodiment one or embodiment two, the difference is that, the present embodiment further includes automatic fertilization Unit, as shown in fig. 7, automatic fertilization unit includes multiple fertilizer bins 100 for storing corresponding fertilizer, wherein each fertilizer bin 100 fertilizer output channel 101 is all connected to mixing bunker 200, and is all provided on the fertilizer output channel 101 of each fertilizer bin 100 It is equipped with solenoid valve 300 and peristaltic pump 400, the peristaltic pump 400 is all connected to automatic control system 6;Wherein, mixing bunker 200 It is inside provided with upper limit sensor 64, middle limit sensors 65 and lower limit level sensor 66 from top to bottom;And have in mixing bunker 200 There is the flowmeter F for corresponding respectively to each fertilizer bin 100.
Further, the mixing output channel 201 of mixing bunker 200 is connected to the water delivery pipe road 501 of reservoir 500, mixes It closes and is provided with water pump 600 on output channel 201 and water delivery pipe road 501, and mix and be additionally provided with check on output channel 201 Valve 202 is additionally provided with PH sensor PH, EC sensor EC and flowmeter F on water delivery pipe road 501.In addition, mixing bunker 200 Upper end also have both ends be respectively communicated on the second pipe of mixing bunker 200 and water delivery pipe road 501, second pipe have electromagnetism Valve 300 and pressure gauge Pi.Aforementioned each sensor, such as upper limit sensor 64, middle limit sensors 65 and lower limit level sensor 66 etc. and controlled electric appliance, such as peristaltic pump 400, solenoid valve 300 be all connected to automatic control system 6.
User controls shutdown or the opening degree of each controlled electric appliance by automatic control system 6 to realize different proportion Fertilising.
Example IV
The present embodiment is similar with embodiment three, the difference is that, as shown in figure 8, being set at the pipe-line system of the present embodiment Gravel filter 900 is equipped with to carry out sandstone filtering to irrigation water, it is preferable that gravel filter rear is also connected with grid filtering Device 901 is to be further filtered irrigation water.
Embodiment five
Present embodiment discloses a kind of controls of the multi purpose pumping station of multi purpose pumping station based on embodiment one to example IV Method, comprising:
A. equipment self-inspection feeds back to the improper information that the on-line monitoring element 21 being arbitrarily arranged in pumping plant monitors The improper information is sent to terminal backstage 7 by wireless module by central processing unit 62;
B. remote fault diagnosis periodically or by the long-range startup separator diagnostic program in terminal backstage 7 carries out online maintenance;
C. long-range to monitor, multi-wad join is provided at pumping plant in the ball machine probe 521 of central processing unit 62, terminal backstage 7 By sending rotation regulating command to central processing unit 62 to adjust rotation ball machine probe 521 to obtain comprehensive live video letter Breath;
D. automatic process control system receives card using information or APP of the user in card reader and controls information, according to letter of swiping the card Breath or APP control information open or close corresponding water pump 600, and carry out expense calculating to the IC card of user 31 or APP account.
Further, in method D, the card using information and APP32 control information respectively include the remaining of corresponding IC card 31 The balance information of volume information and corresponding APP account, and automatically according to local water resource rate and electricity consumption after this end of run Expense takes off expense.And the warning of remaining sum baseline is issued the user with when detecting IC card 31 or APP account balance deficiency, and in IC Autostop is carried out after card 31 or APP account balance use.
Further, in method D, when receiving card using information, display corresponds to each on liquid crystal display 63 The start and stop option of water pump 600, and the corresponding water pump 600 of result start and stop according to the user's choice, and each water pump 600 it is corresponding one or It is multiple wait fill generally;
Similarly, when receiving APP control information, the start and stop choosing for corresponding to each water pump 600 is returned to the end APP32 , and the corresponding water pump 600 of result start and stop according to the user's choice, the corresponding one or more of each water pump 600 is wait fill generally.Pass through The section that the start and stop option of each water pump 600 can satisfy user needs to water management or takes turns tank control needs, when user needs When carrying out section water supply, the water pump 600 of selection starting respective bins selects institute when user carries out wheel tank water supply There is the corresponding water pump 600 in section.
Further, the control method of the present embodiment further include:
Fertilising control, control is connected to the solenoid valve 300 in different fertilizer storehouse 100 and is connected to the water of reservoir 500 respectively Pump 600 acts to carry out the fertilising of different proportion;
Rotation flow control, after receiving the irrigation instruction based on card using information, APP control information or terminal backstage 7, to each A filling generally carries out ration water supply water distribution.
Further, the control method of the present embodiment further include:
Data upload, and various kinds of sensors, the on-line monitoring collected monitoring data of element 21 are uploaded to cloud platform 8;
Dual power supply is powered by solar battery and alternating current respectively, and wherein the electric energy in solar battery is by light Volt plate receives and converts solar energy and obtain, and the electric energy in solar battery is converted to 220V alternating current to supply by inverter Pumping plant electric energy.
In addition, carrying out sandstone filtering to irrigation water by gravel filter 900, and become by constant pressure during irrigation Frequency control cabinet carries out the irrigation of pipeline constant pressure water supply.
Although each method and step is not it should be noted that the present invention carries out A, B, C, D number to each method Sequencing.Specific embodiment described herein is only an example for the spirit of the invention.Technology belonging to the present invention The technical staff in field can make various modifications or additions to the described embodiments or by a similar method Substitution, however, it does not deviate from the spirit of the invention or beyond the scope of the appended claims.
Although pump house 1 is used more herein;Self-checking system 2;Monitor element 21 on-line;Internet of things system 3;IC card 31;APP32;Acquisition rod 33;Metering system 4;Electromagnetic flowmeter 41;Ammeter 42;Card-reading system 43;Monitoring system 5;Infrared probe 51;Video monitor 52;Automatic control system 6;Man-machine system 61;Central processing unit 62;Liquid crystal display 63;Upper limit passes Sensor 64;Middle limit sensors 65;Lower limit level sensor 66;Terminal backstage 7;Cloud platform 8;Acquisition system 81;Control system 82; Meteorological system 83;Video system 84;Cloud Server 9;Fertilizer bin 100;Fertilizer output channel 101;Mixing bunker 200;Mixing output Pipeline 201;Non-return valve 202;Solenoid valve 300;Peristaltic pump 400;Reservoir 500;Water delivery pipe road 501;Water pump 600;Dual power supply System 700;Dual power supply conversion module 701;Mains system 702;Solar cell system 703;Solar panel 704;Photovoltaic Inverter 705;Well house 800;Immersible pump 801;Gravel filter 900;PH sensor PH;EC sensor EC;Flowmeter F;Pressure The terms such as table Pi, but it does not exclude the possibility of using other terms.The use of these items is only for more easily describe The essence of the invention with explanation;Being construed as any additional limitation is disagreed with spirit of that invention.

Claims (10)

1. a kind of multi purpose pumping station control method characterized by comprising
A. equipment self-inspection, the improper information that the on-line monitoring element (21) being arbitrarily arranged in pumping plant monitors fed back to The improper information is sent to terminal backstage (7) by wireless module by central processor (62);
B. remote fault diagnosis periodically or by the long-range startup separator diagnostic program in terminal backstage (7) carries out online maintenance;
C. long-range to monitor, the ball machine that multi-wad join is provided at pumping plant in central processing unit (62) is popped one's head in (521), terminal backstage (7) comprehensive existing to obtain to adjust rotation ball machine probe (521) by sending rotation regulating command to central processing unit (62) Field video information;
D. automatic process control system, receives card using information of the user in card reader or APP controls information, according to card using information or APP control information opens or closes corresponding water pump (600), and carries out expense calculating to the IC card of user (31) or APP account.
2. multi purpose pumping station control method according to claim 1, which is characterized in that in method D, the card using information The balance information of corresponding IC card (31) and the balance information of corresponding APP account are respectively included with APP control information, and in this fortune Expense is taken off automatically according to local water resource rate and energy charge after row.
3. multi purpose pumping station control method according to claim 1, which is characterized in that in method D, swipe the card when receiving When information, display corresponds to the start and stop option of each water pump (600) on liquid crystal display (63), and ties according to the user's choice The corresponding water pump of fruit start and stop (600), and the corresponding one or more of each water pump (600) is wait fill generally;
When receiving APP control information, is held to APP (32) and return to the start and stop option for corresponding to each water pump (600), and according to The corresponding water pump of selection result start and stop (600) of user, the corresponding one or more of each water pump (600) is wait fill generally.
4. multi purpose pumping station control method according to claim 1 to 3, which is characterized in that further include:
Fertilising control, control is connected to the solenoid valve (300) of different fertilizer storehouse (100) and is connected to reservoir (500) respectively Water pump (600) acts to carry out the fertilising of different proportion;
Rotation flow control, after receiving the irrigation instruction based on card using information, APP control information or terminal backstage (7), to each Filling generally carries out ration water supply water distribution.
5. multi purpose pumping station control method according to claim 1, which is characterized in that further include:
Data upload, and various kinds of sensors, on-line monitoring element (21) collected monitoring data are uploaded to cloud platform (8);
Dual power supply is powered by solar battery and alternating current respectively, and wherein the electric energy in solar battery is by photovoltaic panel It receives and converts solar energy and obtain, the electric energy in solar battery is converted to supply pumping plant by 220V alternating current by inverter Electric energy.
6. multi purpose pumping station control method according to claim 1, which is characterized in that during irrigation, pass through sandstone Filter (900) carries out sandstone filtering to irrigation water, and carries out the irrigation of pipeline constant pressure water supply by constant pressure frequency conversion control cabinet.
7. a kind of multi purpose pumping station, including pump house (1), pipe-line system, Internet of things system (3), metering system (4), monitoring system (5) and automatic control system (6), which is characterized in that further include self-checking system (2), the self-checking system (2) includes multiple sets Set the on-line monitoring element (21) in pumping plant;The Internet of things system (3) includes IC card (31) and APP (32);The metering System (4) includes electromagnetic flowmeter (41), ammeter (42) and card-reading system (43);The monitoring system (5) includes infrared spy Head (51) and video monitor (52);The automatic control system (6) includes man-machine system (61), the man-machine system (61) With central processing unit (62) and it is connected to the liquid crystal displays (63) of central processing unit (62), man-machine system (61) connection In Internet of things system (3), monitoring system (5), self-checking system (2) and metering system (4);The automatic control system (6) is logical It crosses cloud platform (8) and is connected to terminal backstage (7).
8. multi purpose pumping station according to claim 7, which is characterized in that further include multiple fertilizer for storing corresponding fertilizer The fertilizer output channel (101) in storehouse (100), each fertilizer bin (100) is all connected to mixing bunker (200), and each fertilizer bin (100) solenoid valve (300) and peristaltic pump (400) are provided on fertilizer output channel (101), the peristaltic pump (400) is equal It is connected to automatic control system (6);
It is provided with the upper limit sensor for being all connected to automatic control system (6) from top to bottom in the mixing bunker (200) (64), middle limit sensors (65) and lower limit level sensor (66);
The mixing output channel (201) of the mixing bunker (200) is connected to the water delivery pipe road (501) of reservoir (500), described It is provided with water pump (600) in mixing output channel (201) and water delivery pipe road (501), and the mixing output channel (201) On be additionally provided with non-return valve, PH sensor, EC sensor and flowmeter are additionally provided on water delivery pipe road (501).
9. multi purpose pumping station according to claim 7, which is characterized in that it further include double power-supply system (700), double electricity Source system (700) includes dual power supply conversion module (701), and is connected to the mains system of dual power supply conversion module (701) (702) and solar cell system (703), the other end of the dual power supply conversion module (701) is connected to pumping plant with by alternating current Power supply or solar battery power are conveyed to pumping plant;
The Internet of things system (3) further includes soil temperature-moisture sensor, aerial temperature and humidity sensor, optical sensor, dioxy Change carbon sensor and pipe pressure sensor and Current Voltage sensor, and each sensor integration is in an acquisition rod (33) To carry out integrated setting to each sensor, the Internet of things system (3) is connected to the cloud platform (8), by each sensor Acquisition data be uploaded to the cloud platform (8);
The video monitor (52) includes that multichannel is able to carry out the ball machine probe (521) rotated up and down;
The pump house (1) is integrated structure, and the pump house (1) is made of WPC environment-friendly materials.
10. multi purpose pumping station according to claim 7, which is characterized in that be provided with sandstone filtering at the pipe-line system Device (900) and constant pressure frequency conversion control cabinet, to carry out sandstone filtering to irrigation water and carry out the irrigation of pipeline constant pressure water supply.
CN201811099430.8A 2018-09-20 2018-09-20 Multi purpose pumping station and its control method Pending CN109088945A (en)

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