CN110199843A - A kind of long-range irrigation monitor control system - Google Patents

Abstract

The present invention disclose it is a kind of long-range irrigate monitor control system, for solving the problems, such as how to be that irrigation provides water resource and reasonable water price and how to solve to give irrigation user's irrigation when duty deficiency using life water；Module, database, participation computing module, water price computing module, sign-on access module, data preparation module and control module are obtained including recycling water system, water storage system, irrigation system, data acquisition module, antenna；User's treated sanitary sewage is recycled by recycling water system；On the one hand it may be implemented to save water resource, on the other hand can reduce the expense of field irrigation；Control module control irrigation system is that irrigation user is chosen to irrigate according to duty, and when solving water shortage, reasonable arrangement is irrigated, and is accumulated by the offer water of user usually, reduces irrigation cost, improves the enthusiasm and participation of user's irrigation.

Description

A kind of long-range irrigation monitor control system

Technical field

The present invention relates to irrigation control system technical fields, more particularly to a kind of long-range irrigation monitor control system.

Background technique

Currently, the duty control mode that China is most widely used is mainly the form of IC card pre-payment.However, this Kind of irrigation control mode is there are still some disadvantages in certain actual applications, and the use degree of user is not high and how is water price It is reasonable to calculate；

In a kind of crop quantifying irrigation control system and method based on Internet of Things of patent CN106688826A, disclose " described Crop water metering system needs water side by calculating water requirement formulation crop cycle each stage of Different Crop different phase Case, and need water scheme to export to the crop irrigation control system formulation；The crop irrigation control system is according to formulation Need water scheme to crop carry out quantifying irrigation；The crop irrigation real-time monitoring system respectively controls the crop irrigation System and the crop water metering system carry out real-time monitoring, and monitoring result is fed back to the crop water metering system ", How existing deficiency distributes the participation irrigating and how improving user and use irrigation system to user when water shortage Property.

Summary of the invention

The purpose of the present invention is to provide a kind of long-range irrigation monitor control system, the present invention passes through recycling water system recycling User's treated sanitary sewage；On the one hand it may be implemented to save water resource, on the other hand can reduce the expense of field irrigation； Control module control irrigation system is that irrigation user is chosen to irrigate according to duty, when solving water shortage, rationally It arranges to irrigate.

The technical problems to be solved by the invention are as follows:

(1) how using life water for irrigate water resource and reasonable water price are provided；

(2) how to solve how to irrigate to irrigation user when duty deficiency.

The purpose of the present invention can be achieved through the following technical solutions: a kind of long-range irrigation monitor control system, including be returned It receives water system, water storage system, irrigation system, data acquisition module, antenna and obtains module, database, participation computing module, water Valence computing module, sign-on access module, data preparation module and control module；

The recycling water system treated for recycling user sanitary sewage；Recycle water system will recycle user treated it is raw Sewage transport living to water storage system carries out water resource storage；The water storage system is used to provide water resource for irrigation system；It is described Irrigation system is used to irrigate for the farmland of user；

The data acquisition module is used to acquire the master data in recycling water system, water storage system and irrigation system；The base Notebook data includes recycle-water data, water storage data and irrigation data；The recycle-water data be user in preset time range Sanitary sewage total amount after the recovery processing of statistics and the pollutant load in treated sanitary sewage；The water storage data packet Include position and the water storage total amount of water storage；It is described to irrigate the farmland that data include the position of the irrigation equipment for field irrigation, user Position and agricultural land soil humidity；The master data of acquisition is sent in database and stores by the data acquisition module；

The weather obtains module and is used to obtain 30 days rainfalls that farmland position corresponds to weather forecast prediction；The weather obtains The data of weather forecast of the position of the irrigation equipment of acquisition is sent to database purchase by modulus block；

The participation computing module is used to calculate the participation value that user participates in recycling sanitary sewage, and steps are as follows for specific calculating:

Step 1: each offer of counting user treated sanitary sewage amount；And water quality is carried out to the sanitary sewage of processing Detection, obtains the content of pollutant；

Step 2: the summation in preset time range for the sanitary sewage amount that provides that treated is calculated, and is denoted as Wi；It is right The content of the pollutant detected every time sums and takes its average value, and is denoted as Ri；

Step 3: the participation value Ci of user is acquired using formula Ci=Wi*j1+ (1/Ri) * j2；J1 and j2 is preset ratio Coefficient；The summation that user provides treated sanitary sewage amount is more, and participation value is bigger；User provides that treated, and life is dirty The mean value of the pollutant load of water is smaller, and participation value is bigger；

The participation value of calculating is sent in database and stores by the participation computing module；The water price computing module is used The duty and water price of irrigating user are reserved in calculating；The irrigation of user is irrigated in the reservation of calculating by the water price computing module Water and water price, which are sent in database, to be stored；The control module be used for obtains reservation irrigation user duty, The moisture storage capacity of participation value and water storage system simultaneously controls irrigation system as subscriber irrigation, and specific rate-determining steps are as follows:

S1: the moisture storage capacity for count its irrigation total Water and water storage system to reservation irrigation user compares；

S2: total Water is irrigated when the moisture storage capacity of water storage system is less than, user is irrigated to reservation and is screened；

S3: the position in the farmland of reservation irrigation user and the position of water storage are obtained, and calculates its range difference, and range difference is denoted as Hi；

S4: obtaining reservation and irrigate the participation value Ci of user and the agricultural land soil humidity of reservation irrigation user, and agricultural land soil is wet Degree be denoted as Bi, utilize formula Yi=Ci*v1+(1/Bi) * v2+(1/Hi) * v3 acquire reservation irrigate user preferred value Yi； Wherein v1, v2, v3 are preset ratio coefficient；It can be obtained by formula, participation value is bigger, and preferred value is bigger, and soil moisture is smaller, excellent First it is worth bigger；Range difference is smaller, and preferred value is bigger；

S5: the preferred value for irrigating user to reservation carries out descending be ranked up；When preferred value is equal, successively compare participation Value, soil moisture and range difference size are ranked up；Participation value it is big in preceding sequence, when participation value is identical, soil moisture is small In preceding sequence, when soil moisture is identical, range difference is small in preceding sequence；

S6: the duty of user is successively irrigated by the corresponding reservation of the preceding preferred value of superposition rearward by the sequence of preferred value；Work as water storage The moisture storage capacity of system subtracts the duty of superposition and difference is less than preset threshold, then stops being superimposed, will be superimposed duty It is to choose to irrigate user that user's mark is irrigated in reservation；

S7: control module control irrigation system is that irrigation user is chosen to irrigate according to duty.

Preferably, the water price computing module is used to calculate duty and water price that user is irrigated in reservation, specific to calculate Step:

Step 1: obtaining precipitation and agricultural land soil humidity Bi that the corresponding prediction in farmland position of user is irrigated in reservation, will The precipitation of prediction is denoted as Di；

Step 2: duty Gi is acquired using formula Gi=(1/Bi) * z1+(1/Di) * z2, wherein z1, z2 are default Proportionality coefficient, soil moisture is lower, and duty is bigger；The precipitation of prediction is smaller, and duty is bigger；

Step 3: participation value Ci and range difference Hi that user is irrigated in reservation are obtained；

Step 4: water unit price Mi is acquired using formula Mi=Ma+Hi*k1-Ci*k2；Wherein k1, k2 are preset ratio coefficient； Ma is water unit price basic value；Range difference is bigger, and water unit price is higher；Participation value is bigger, and water unit price is lower；

Step 5: water price is acquired using formula F i=Gi*Mi；

The duty of user is irrigated in the reservation of calculating to the water price computing module and water price is sent in database and deposits Storage；

Preferably, the user data that the data preparation module is used to store up databases is integrated, and user data includes Corresponding master data, participation value, duty and water price, specific integration step are as follows:

SS1: obtaining at the beginning of user data stores and the participation value of user, and the total degree of counting user data access, User data accesses every time will obtain the single duration of a storage；It is accessed by access total degree and the product for storing single duration Increase duration；

SS2: storage duration is divided into several class, the corresponding duration of each class；

SS3；The corresponding different value range of each class；Participation value is matched with value range；

SS4: class and duration of the participation value in corresponding value range are obtained；

SS5: equal with the current time in system with the sum of duration and access increase duration at the beginning of user data storage；Then Compression storage is carried out to the user data；

SS6: the time that counting user compression storing data starts；When the sum of the time of subscriber data compression storage beginning and duration It is equal with the current time in system；Then Cloud Server is sent to the user data to store；

Preferably, the sign-on access module accesses the user data in database by mobile phone terminal for user and passes through hand Machine terminal pays water price.

Beneficial effects of the present invention:

(1) user's treated sanitary sewage is recycled by recycling water system；Recycling water system is detected and is counted to sewage Water and will will recycling user treated that sanitary sewage is delivered to that water storage system carries out water resource storage, on the one hand may be implemented Water resource is saved, the expense of field irrigation on the other hand can be reduced；It is acquired using formula Ci=Wi*j1+ (1/Ri) * j2 The participation value Ci of user measures the water price in later period by the size of participation value；

(2) control module is used to obtain reservation and irrigates the duty of user, the moisture storage capacity of participation value and water storage system and control Irrigation system is subscriber irrigation, irrigates total Water when the moisture storage capacity of water storage system is less than, irrigates user to reservation and sieve Choosing；Utilize formula Yi=Ci*v1+(1/Bi) * v2+(1/Hi) * v3 acquire reservation irrigate user preferred value Yi；To reservation The preferred value for irrigating user carries out descending be ranked up；Acquisition, which is chosen, irrigates user；Control module controls irrigation system Irrigation user is chosen to irrigate according to duty, when solving water shortage, reasonable arrangement is irrigated；

(3) water price computing module calculates the duty and water price that user is irrigated in reservation, utilizes formula Gi=(1/Bi) * z1+(1/ Di) * z2 acquires duty Gi, and soil moisture is lower, and duty is bigger；The precipitation of prediction is smaller, duty It is bigger；Water unit price Mi is acquired using formula Mi=Ma+Hi*k1-Ci*k2；By the accumulation of user usually, irrigation expense is reduced With, improve user irrigation enthusiasm and participation；

(4) user data that data preparation module is used to store up databases is integrated, and passes through access total degree and storage The product of single duration obtains access and increases duration；Storage duration is divided into several class, is matched and is obtained with class by participation value Take duration；It is equal with the current time in system with the sum of duration and access increase duration at the beginning of user data storage；Then Compression storage is carried out to the user data；The time that counting user compression storing data starts；To subscriber data compression store with And storage is after a certain period of time, reasonable arrangement to Cloud Server carries out cloud storage, the memory space of reasonable arrangement database.

Detailed description of the invention

The present invention will be further described below with reference to the drawings.

Fig. 1 is a kind of long-range functional block diagram for irrigating monitor control system of the invention.

Fig. 2 is recycle-water system structure diagram of the present invention.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts all other Embodiment shall fall within the protection scope of the present invention.

Refering to Figure 1, the present invention is a kind of long-range irrigation monitor control system, including recycling water system, water storage system System, irrigation system, data acquisition module, antenna obtain module, database, participation computing module, water price computing module, log in Access modules, data preparation module and control module；

Recycling water system treated for recycling user sanitary sewage；User will be recycled treated that life is dirty by recycling water system Water is delivered to water storage system and carries out water resource storage；Water storage system is used to provide water resource for irrigation system；Irrigation system is used for It is irrigated for the farmland of user；

Data acquisition module is used to acquire the master data in recycling water system, water storage system and irrigation system；Fundamental packets It includes recycle-water data, water storage data and irrigates data；Recycle-water data are at the recycling that user counts in preset time range Sanitary sewage total amount after reason and the pollutant load in treated sanitary sewage；Water storage data include position and the storage of water storage Water inventory；Irrigating data includes the position of irrigation equipment, the farmland position of user and the agricultural land soil humidity for field irrigation； The master data of acquisition is sent in database and stores by data acquisition module；

Weather obtains module and is used to obtain 30 days rainfalls that farmland position corresponds to weather forecast prediction；Weather obtains module will The data of weather forecast of the position of the irrigation equipment of acquisition is sent to database purchase；

Participation computing module is used to calculate the participation value that user participates in recycling sanitary sewage, and steps are as follows for specific calculating:

Step 1: each offer of counting user treated sanitary sewage amount；And water quality is carried out to the sanitary sewage of processing Detection, obtains the content of pollutant；

Step 2: the summation in preset time range for the sanitary sewage amount that provides that treated is calculated, and is denoted as Wi；It is right The content of the pollutant detected every time sums and takes its average value, and is denoted as Ri；

Step 3: the participation value Ci of user is acquired using formula Ci=Wi*j1+ (1/Ri) * j2；J1 and j2 is preset ratio Coefficient；The summation that user provides treated sanitary sewage amount is more, and participation value is bigger；User provides that treated, and life is dirty The mean value of the pollutant load of water is smaller, and participation value is bigger；The water provided according to user is more, and the value of formula is bigger, and The water pollutant of raising is fewer, and the value of formula is bigger, according to the two conditions, has obtained formula Ci=Wi*j1+ (1/Ri) * j2；

The participation value of calculating is sent in database and stores by participation computing module；Water price computing module is pre- for calculating About irrigate the duty and water price of user；The duty of user is irrigated in the reservation of calculating to water price computing module and water price is sent out It send to being stored in database；Control module is used to obtain duty, participation value and water storage system that user is irrigated in reservation Moisture storage capacity and control irrigation system as subscriber irrigation, specific rate-determining steps are as follows:

S1: the moisture storage capacity for count its irrigation total Water and water storage system to reservation irrigation user compares；

S2: total Water is irrigated when the moisture storage capacity of water storage system is less than, user is irrigated to reservation and is screened；

S3: the position in the farmland of reservation irrigation user and the position of water storage are obtained, and calculates its range difference, and range difference is denoted as Hi；

S4: obtaining reservation and irrigate the participation value Ci of user and the agricultural land soil humidity of reservation irrigation user, and agricultural land soil is wet Degree be denoted as Bi, utilize formula Yi=Ci*v1+(1/Bi) * v2+(1/Hi) * v3 acquire reservation irrigate user preferred value Yi； Wherein v1, v2, v3 are preset ratio coefficient；It can be obtained by formula, participation value is bigger, and preferred value is bigger, and soil moisture is smaller, excellent First it is worth bigger；Range difference is smaller, and preferred value is bigger；

S5: the preferred value for irrigating user to reservation carries out descending be ranked up；When preferred value is equal, successively compare participation Value, soil moisture and range difference size are ranked up；Participation value it is big in preceding sequence, when participation value is identical, soil moisture is small In preceding sequence, when soil moisture is identical, range difference is small in preceding sequence；

S6: the duty of user is successively irrigated by the corresponding reservation of the preceding preferred value of superposition rearward by the sequence of preferred value；Work as water storage The moisture storage capacity of system subtracts the duty of superposition and difference is less than preset threshold, then stops being superimposed, will be superimposed duty It is to choose to irrigate user that user's mark is irrigated in reservation；

S7: control module control irrigation system is that irrigation user is chosen to irrigate according to duty.

Water price computing module is used to calculate duty and water price that user is irrigated in reservation, specifically calculates step:

Step 1: obtaining precipitation and agricultural land soil humidity Bi that the corresponding prediction in farmland position of user is irrigated in reservation, will The precipitation of prediction is denoted as Di；

Step 2: duty Gi is acquired using formula Gi=(1/Bi) * z1+(1/Di) * z2, wherein z1, z2 are default Proportionality coefficient, soil moisture is lower, and duty is bigger；The precipitation of prediction is smaller, and duty is bigger；

Step 3: participation value Ci and range difference Hi that user is irrigated in reservation are obtained；

Step 4: water unit price Mi is acquired using formula Mi=Ma+Hi*k1-Ci*k2；Wherein k1, k2 are preset ratio coefficient； Ma is water unit price basic value；Range difference is bigger, and water unit price is higher；Participation value is bigger, and water unit price is lower；According in use process, User's participation value is big, then the quantity that corresponding user provides is more, then the formula for calculating water price has a participation value big, water The few condition of valence, the distance that formula should also have conveying is closer, the fewer condition of water price；According to the two formula conditions, obtain Mi=Ma+Hi*k1-Ci*k2；

Step 5: water price is acquired using formula F i=Gi*Mi；

The duty of user is irrigated in the reservation of calculating to water price computing module and water price is sent in database and stores.

The user data that data preparation module is used to store up databases is integrated, and user data includes corresponding base Notebook data, participation value, duty and water price, specific integration step are as follows:

SS1: obtaining at the beginning of user data stores and the participation value of user, and the total degree of counting user data access, User data accesses every time will obtain the single duration of a storage；It is accessed by access total degree and the product for storing single duration Increase duration；

SS2: storage duration is divided into several class, the corresponding duration of each class；

SS3；The corresponding different value range of each class；Participation value is matched with value range；

SS4: class and duration of the participation value in corresponding value range are obtained；

SS5: equal with the current time in system with the sum of duration and access increase duration at the beginning of user data storage；Then Compression storage is carried out to the user data；

SS6: the time that counting user compression storing data starts；When the sum of the time of subscriber data compression storage beginning and duration It is equal with the current time in system；Then Cloud Server is sent to the user data to store；

Sign-on access module accesses the user data in database by mobile phone terminal for user and is paid by mobile phone terminal Water price；

It please refers to shown in Fig. 2, recycling water system includes the reservoir 11 for being mounted on underground, and reservoir 11 is by connecting tube 12 and uses The drainage pipeline at family connects, and filter is equipped on drainage pipeline；Filter is used to filter the pollution in user's sanitary sewage Source；The side of reservoir 11 is equipped with sewage-treating agent inlet tube 18, and sewage-treating agent inlet tube 18 is used for into reservoir 11 Sewage-treating agent is added；The inside of reservoir 11 is equipped with agitating shaft 14, and stirring flabellum 13, agitating shaft are equipped on reservoir 11 14 top is located at ground and top end point is equipped with device for twisting waist turntable 15, and the side of device for twisting waist turntable 15 is equipped with device for twisting waist Handrail 16；User twists agitating shaft 14 by device for twisting waist turntable 15, on the one hand achievees the purpose that body-building, on the other hand can also be Sanitary sewage in reservoir 11 is sufficiently merged with sewage-treating agent to be achieved the purpose that preferably to purify decontamination, and the water after decontamination is logical It crosses water pump 17 and is delivered to water storage system；

The working principle of the invention: user's treated sanitary sewage is recycled by recycling water system；Water system is recycled to sewage Detected and counted water and will will recycling user treated that sanitary sewage is delivered to that water storage system carries out water resource storage, On the one hand it may be implemented to save water resource, on the other hand can reduce the expense of field irrigation；Utilize formula Ci=Wi*j1+ (1/ Ri) * j2 acquires the participation value Ci of user, and the summation for sanitary sewage amount that user provides that treated is more, and participation value is bigger； The mean value that user provides the pollutant load of treated sanitary sewage is smaller, and participation value is bigger；Pass through the size of participation value The water price in later period is measured, participation value is bigger, and water price when irrigation is lower；The soil moisture in data collecting module collected user farmland And it is sent to database, user passes through the agricultural land soil humidity that sign-on access module accesses databases are stored up, when needing to irrigate Carry out reservation irrigation；Then water price computing module calculates the duty and water price that user is irrigated in reservation, utilizes formula Gi=(1/ Bi) * z1+(1/Di) * z2 acquires duty Gi, and soil moisture is lower, and duty is bigger；The precipitation of prediction is got over Small, duty is bigger；Water unit price Mi is acquired using formula Mi=Ma+Hi*k1-Ci*k2；Range difference is bigger, and water unit price is got over It is high；Participation value is bigger, and water unit price is lower；

Water price is acquired using formula F i=Gi*Mi；By the accumulation of user usually, irrigation cost is reduced, improves user's filling The enthusiasm and participation irrigate；Control module, which is used to obtain, reserves the duty for irrigating user, participation value and water storage system Moisture storage capacity simultaneously controls irrigation system as subscriber irrigation, irrigates user to reservation and carries out counting its irrigation total Water and water storage system The moisture storage capacity of system compares；Total Water is irrigated when the moisture storage capacity of water storage system is less than, user is irrigated to reservation and is screened；It obtains It takes reservation to irrigate the position in the farmland of user and the position of water storage, and calculates its range difference, obtain the participation that user is irrigated in reservation The agricultural land soil humidity of user is irrigated in value Ci and reservation, and agricultural land soil humidity is denoted as Bi, utilizes formula Yi=Ci*v1+(1/ Bi) * v2+(1/Hi) * v3 acquire reservation irrigate user preferred value Yi；The preferred value for irrigating user to reservation is carried out by big It is ranked up to small；The duty of user is successively irrigated by the corresponding reservation of the preceding preferred value of superposition rearward by the sequence of preferred value； It is less than preset threshold when the moisture storage capacity of water storage system subtracts the duty of superposition and difference, then stops being superimposed, superposition is irrigated It is to choose to irrigate user that user's mark is irrigated in the reservation of water；Control module control irrigation system is to choose to irrigate user according to filling It irrigates water to be irrigated, when solving water shortage, reasonable arrangement is irrigated；What data preparation module was used to store up databases User data is integrated, at the beginning of obtaining user data storage and the participation value of user, and counting user data access Total degree, pass through access total degree and store the product of single duration and obtain access and increase duration；It is several that duration division will be stored A class, the corresponding duration of each class；The corresponding different value range of each class；Participation value and value range into Row matching；Obtain class and duration of the participation value in corresponding value range；When user data storage at the beginning of with duration It is equal with the current time in system to increase the sum of duration with access；Compression storage then is carried out to the user data；Counting user data The time that compression storage starts；When the time of subscriber data compression storage beginning and the sum of duration are equal with the current time in system； Then Cloud Server is sent to the user data to store；By the way that certain time is stored and stored to subscriber data compression Afterwards, reasonable arrangement to Cloud Server carries out cloud storage, the memory space of reasonable arrangement database.

Above content is only to structure of the invention example and explanation, affiliated those skilled in the art couple Described specific embodiment does various modifications or additions or is substituted in a similar manner, without departing from invention Structure or beyond the scope defined by this claim, is within the scope of protection of the invention.

Claims (4)

1. a kind of long-range irrigation monitor control system, which is characterized in that including recycling water system, water storage system, irrigation system, number Module, database, participation computing module, water price computing module, sign-on access module, data are obtained according to acquisition module, antenna Sorting module and control module；

The recycling water system treated for recycling user sanitary sewage；Recycle water system will recycle user treated it is raw Sewage transport living to water storage system carries out water resource storage；The water storage system is used to provide water resource for irrigation system；It is described Irrigation system is used to irrigate for the farmland of user；

The data acquisition module is used to acquire the master data in recycling water system, water storage system and irrigation system；The base Notebook data includes recycle-water data, water storage data and irrigation data；The recycle-water data be user in preset time range Sanitary sewage total amount after the recovery processing of statistics and the pollutant load in treated sanitary sewage；The water storage data packet Include position and the water storage total amount of water storage；It is described to irrigate the farmland that data include the position of the irrigation equipment for field irrigation, user Position and agricultural land soil humidity；The master data of acquisition is sent in database and stores by the data acquisition module；

The weather obtains module and is used to obtain 30 days rainfalls that farmland position corresponds to weather forecast prediction；The weather obtains The data of weather forecast of the position of the irrigation equipment of acquisition is sent to database purchase by modulus block；

The participation computing module is used to calculate the participation value that user participates in recycling sanitary sewage, and steps are as follows for specific calculating:

Step 1: each offer of counting user treated sanitary sewage amount；And water quality is carried out to the sanitary sewage of processing Detection, obtains the content of pollutant；

Step 2: the summation in preset time range for the sanitary sewage amount that provides that treated is calculated, and is denoted as Wi；It is right The content of the pollutant detected every time sums and takes its average value, and is denoted as Ri；

Step 3: the participation value Ci of user is acquired using formula Ci=Wi*j1+ (1/Ri) * j2；J1 and j2 is preset ratio Coefficient；The summation that user provides treated sanitary sewage amount is more, and participation value is bigger；User provides that treated, and life is dirty The mean value of the pollutant load of water is smaller, and participation value is bigger；

The participation value of calculating is sent in database and stores by the participation computing module；The water price computing module is used The duty and water price of irrigating user are reserved in calculating；The irrigation of user is irrigated in the reservation of calculating by the water price computing module Water and water price, which are sent in database, to be stored；The control module be used for obtains reservation irrigation user duty, The moisture storage capacity of participation value and water storage system simultaneously controls irrigation system as subscriber irrigation, and specific rate-determining steps are as follows:

S1: the moisture storage capacity for count its irrigation total Water and water storage system to reservation irrigation user compares；

S2: total Water is irrigated when the moisture storage capacity of water storage system is less than, user is irrigated to reservation and is screened；

S3: the position in the farmland of reservation irrigation user and the position of water storage are obtained, and calculates its range difference, and range difference is denoted as Hi；

S4: obtaining reservation and irrigate the participation value Ci of user and the agricultural land soil humidity of reservation irrigation user, and agricultural land soil is wet Degree be denoted as Bi, utilize formula Yi=Ci*v1+(1/Bi) * v2+(1/Hi) * v3 acquire reservation irrigate user preferred value Yi； Wherein v1, v2, v3 are preset ratio coefficient；It can be obtained by formula, participation value is bigger, and preferred value is bigger, and soil moisture is smaller, excellent First it is worth bigger；Range difference is smaller, and preferred value is bigger；

S5: the preferred value for irrigating user to reservation carries out descending be ranked up；When preferred value is equal, successively compare participation Value, soil moisture and range difference size are ranked up；Participation value it is big in preceding sequence, when participation value is identical, soil moisture is small In preceding sequence, when soil moisture is identical, range difference is small in preceding sequence；

S6: the duty of user is successively irrigated by the corresponding reservation of the preceding preferred value of superposition rearward by the sequence of preferred value；Work as water storage The moisture storage capacity of system subtracts the duty of superposition and difference is less than preset threshold, then stops being superimposed, will be superimposed duty It is to choose to irrigate user that user's mark is irrigated in reservation；

S7: control module control irrigation system is that irrigation user is chosen to irrigate according to duty.

2. a kind of long-range irrigation monitor control system according to claim 1, which is characterized in that the water price computing module The duty and water price that user is irrigated for calculating reservation, specifically calculate step:

Step 1: obtaining precipitation and agricultural land soil humidity Bi that the corresponding prediction in farmland position of user is irrigated in reservation, will The precipitation of prediction is denoted as Di；

Step 2: duty Gi is acquired using formula Gi=(1/Bi) * z1+(1/Di) * z2, wherein z1, z2 are default Proportionality coefficient, soil moisture is lower, and duty is bigger；The precipitation of prediction is smaller, and duty is bigger；

Step 3: participation value Ci and range difference Hi that user is irrigated in reservation are obtained；

Step 4: water unit price Mi is acquired using formula Mi=Ma+Hi*k1-Ci*k2；Wherein k1, k2 are preset ratio coefficient； Ma is water unit price basic value；Range difference is bigger, and water unit price is higher；Participation value is bigger, and water unit price is lower；

Step 5: water price is acquired using formula F i=Gi*Mi；

The duty of user is irrigated in the reservation of calculating to the water price computing module and water price is sent in database and deposits Storage.

3. a kind of long-range irrigation monitor control system according to claim 1, which is characterized in that the data preparation module For integrating to the user data that databases are stored up, user data includes corresponding master data, participation value, irrigation water Amount and water price, specific integration step are as follows:

SS1: obtaining at the beginning of user data stores and the participation value of user, and the total degree of counting user data access, User data accesses every time will obtain the single duration of a storage；It is accessed by access total degree and the product for storing single duration Increase duration；

SS2: storage duration is divided into several class, the corresponding duration of each class；

SS3；The corresponding different value range of each class；Participation value is matched with value range；

SS4: class and duration of the participation value in corresponding value range are obtained；

SS5: equal with the current time in system with the sum of duration and access increase duration at the beginning of user data storage；Then Compression storage is carried out to the user data；

SS6: the time that counting user compression storing data starts；When the sum of the time of subscriber data compression storage beginning and duration It is equal with the current time in system；Then Cloud Server is sent to the user data to store.

4. a kind of long-range irrigation monitor control system according to claim 1, which is characterized in that the sign-on access module The user data in database is accessed by mobile phone terminal for user and water price is paid by mobile phone terminal.