CN115812573A - Garden irrigation method, device, equipment and storage medium - Google Patents
Garden irrigation method, device, equipment and storage medium Download PDFInfo
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- CN115812573A CN115812573A CN202211483006.XA CN202211483006A CN115812573A CN 115812573 A CN115812573 A CN 115812573A CN 202211483006 A CN202211483006 A CN 202211483006A CN 115812573 A CN115812573 A CN 115812573A
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Abstract
The invention relates to the technical field of agricultural planting, in particular to a garden irrigation method, a device, equipment and a storage medium, wherein the method comprises the following steps: acquiring current weather information, and acquiring a predicted rainfall according to the current weather information; determining irrigation water demand according to the estimated rainfall, and generating a sprinkling irrigation task according to the irrigation water demand; and adjusting the switching value of the electromagnetic valve in the irrigation pipeline according to the sprinkling irrigation task so as to enable the electromagnetic valve to irrigate according to the switching value. Because the estimated rainfall is determined according to the current weather information, the irrigation water demand required by irrigation is determined according to the estimated rainfall, the sprinkling task is generated based on the irrigation water demand, and finally the switching value of the electromagnetic valve in the irrigation pipeline is adjusted according to the sprinkling task for irrigation, compared with the existing method for judging whether irrigation is required through manpower, the method and the system combine the weather information, reduce the irrigation water demand when raining, and further save resources.
Description
Technical Field
The invention relates to the technical field of agricultural planting, in particular to a garden irrigation method, device, equipment and storage medium.
Background
At present, with the rapid development of the modernization process of agriculture in China, the adjustment of the agricultural structure, the addition of world trade organization in China and other reasons, the irrigation of the forest is continuously developed, and the requirement on the irrigation is higher and higher.
However, when irrigation of gardens is carried out at present, whether gardens need irrigation is generally judged on the spot by staff, and then rainfall weather appears after irrigation possibly, and water resources are wasted by repeated irrigation.
The above is only for the purpose of assisting understanding of the technical aspects of the present invention, and does not represent an admission that the above is prior art.
Disclosure of Invention
The invention mainly aims to provide a garden irrigation method, a garden irrigation device, garden irrigation equipment and a storage medium, and aims to solve the technical problem that water resources are wasted due to the fact that whether gardens need irrigation or not is judged through manpower in the prior art.
In order to achieve the above objects, the present invention provides a method for irrigating a garden, comprising the steps of:
acquiring current weather information, and acquiring a predicted rainfall according to the current weather information;
determining irrigation water demand according to the estimated rainfall, and generating a sprinkling irrigation task according to the irrigation water demand;
and adjusting the switching value of an electromagnetic valve in an irrigation pipeline according to the sprinkling irrigation task so as to enable the electromagnetic valve to irrigate according to the switching value.
Optionally, before the step of determining the irrigation water demand according to the estimated rainfall and generating the sprinkling irrigation task according to the irrigation water demand, the method further includes:
acquiring current temperature information;
correspondingly, the step of determining the irrigation water demand according to the estimated rainfall and generating a sprinkling irrigation task according to the irrigation water demand comprises the following steps:
determining irrigation water demand according to the estimated rainfall, and adjusting the irrigation water demand according to the current temperature information;
and generating a sprinkling irrigation task according to the adjusted irrigation water demand.
Optionally, before the step of determining the irrigation water demand according to the estimated rainfall and generating the sprinkling irrigation task according to the irrigation water demand, the method further includes:
acquiring current wind speed information;
correspondingly, the step of determining the irrigation water demand according to the estimated rainfall and generating a sprinkling irrigation task according to the irrigation water demand comprises the following steps:
determining irrigation water demand according to the estimated rainfall, and adjusting the irrigation water demand according to the current wind speed information;
and generating a sprinkling irrigation task according to the adjusted irrigation water demand.
Optionally, before the step of determining the irrigation water demand according to the estimated rainfall and generating the sprinkling irrigation task according to the irrigation water demand, the method further includes:
acquiring the current evaporation capacity of water in soil to be detected;
correspondingly, the step of determining the irrigation water demand according to the estimated rainfall and generating a sprinkling irrigation task according to the irrigation water demand comprises the following steps:
determining irrigation water demand according to the estimated rainfall and adjusting the irrigation water demand according to the current evaporation capacity;
and generating a sprinkling irrigation task according to the adjusted irrigation water demand.
Optionally, after the step of adjusting the switching value of the electromagnetic valve in the irrigation pipe according to the sprinkling irrigation task so that the electromagnetic valve irrigates according to the switching value, the method further comprises:
acquiring current pipeline pressure information and pipeline flow information;
judging the irrigation state according to the current pipeline pressure information and the pipeline flow information;
and generating a corresponding maintenance suggestion based on the judgment result.
Optionally, the step of generating a corresponding maintenance recommendation based on the determination result includes:
when the judgment result is in a first preset state, generating a maintenance suggestion for stopping irrigation;
and generating a maintenance suggestion for periodic inspection when the judgment result is in a second preset state.
Optionally, after the step of adjusting the switching value of the electromagnetic valve in the irrigation pipe according to the sprinkling irrigation task so that the electromagnetic valve irrigates according to the switching value, the method further includes:
acquiring the current use time of the electromagnetic valve, and judging the current use time and a preset use time;
and when the current use time length exceeds the preset use time length, generating a maintenance suggestion according to the operation and maintenance manual.
In addition, in order to achieve the above object, the present invention further provides a garden irrigation apparatus, comprising:
the weather obtaining module is used for obtaining current weather information and obtaining the estimated rainfall according to the current weather information;
the task generation module is used for determining irrigation water demand according to the estimated rainfall and generating a sprinkling irrigation task according to the irrigation water demand;
and the switching value adjusting module is used for adjusting the switching value of the electromagnetic valve in the irrigation pipeline according to the sprinkling irrigation task so that the electromagnetic valve can irrigate according to the switching value.
In addition, to achieve the above object, the present invention also provides a garden irrigating apparatus, including: a memory, a processor, and a garden irrigation program stored on the memory and executable on the processor, the garden irrigation program configured to implement the steps of the garden irrigation method as described above.
In addition, to achieve the above object, the present invention further provides a storage medium, which stores therein a garden irrigation program, and the garden irrigation program, when executed by a processor, implements the steps of the garden irrigation method as described above.
The invention obtains the current weather information and obtains the estimated rainfall according to the current weather information; determining irrigation water demand according to the estimated rainfall, and generating a sprinkling irrigation task according to the irrigation water demand; and adjusting the switching value of an electromagnetic valve in an irrigation pipeline according to the sprinkling irrigation task so as to enable the electromagnetic valve to irrigate according to the switching value. Because the estimated rainfall is determined according to the current weather information, the irrigation water demand required by irrigation is determined according to the estimated rainfall, the sprinkling task is generated based on the irrigation water demand, and finally the switching value of the electromagnetic valve in the irrigation pipeline is adjusted according to the sprinkling task for irrigation, compared with the existing method for judging whether irrigation is required through manpower, the method and the system combine the weather information, reduce the irrigation water demand when raining, and further save resources.
Drawings
Fig. 1 is a schematic structural diagram of a garden irrigation apparatus in a hardware operating environment according to an embodiment of the present invention;
FIG. 2 is a schematic flow chart of a first embodiment of the garden irrigation method according to the invention;
FIG. 3 is a schematic flow chart of a garden irrigation method according to a second embodiment of the present invention;
fig. 4 is a schematic flow chart of a third embodiment of the garden irrigation method according to the invention;
fig. 5 is a block diagram illustrating the structure of a garden irrigating device according to a first embodiment of the present invention.
The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.
Detailed Description
It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.
Referring to fig. 1, fig. 1 is a schematic structural diagram of a garden irrigation apparatus in a hardware operating environment according to an embodiment of the present invention.
As shown in fig. 1, the garden irrigation apparatus may include: a processor 1001, such as a Central Processing Unit (CPU), a communication bus 1002, a user interface 1003, a network interface 1004, and a memory 1005. Wherein a communication bus 1002 is used to enable connective communication between these components. The user interface 1003 may include a Display (Display), an input unit such as a Keyboard (Keyboard), and the optional user interface 1003 may also include a standard wired interface, a wireless interface. The network interface 1004 may optionally include a standard wired interface, a Wireless interface (e.g., a Wireless-Fidelity (Wi-Fi) interface). The Memory 1005 may be a high-speed Random Access Memory (RAM) or a Non-Volatile Memory (NVM), such as a disk Memory. The memory 1005 may alternatively be a storage device separate from the processor 1001.
Those skilled in the art will appreciate that the configuration shown in fig. 1 is not limiting to the garden irrigation apparatus and may include more or fewer components than shown, or some components may be combined, or a different arrangement of components.
As shown in fig. 1, the memory 1005, which is a storage medium, may include therein an operating system, a network communication module, a user interface module, and a garden irrigation program.
In the garden irrigation apparatus shown in fig. 1, the network interface 1004 is mainly used for data communication with a network server; the user interface 1003 is mainly used for data interaction with a user; the processor 1001 and the memory 1005 of the garden irrigation device according to the present invention may be disposed in the garden irrigation device, and the garden irrigation device calls the garden irrigation program stored in the memory 1005 through the processor 1001 and executes the garden irrigation method according to the embodiment of the present invention.
An embodiment of the invention provides a method for irrigating gardens, and referring to fig. 2, fig. 2 is a schematic flow chart of a first embodiment of the method for irrigating gardens according to the invention.
In this embodiment, the garden irrigation method includes the following steps:
step S10: and acquiring current weather information, and acquiring the predicted rainfall according to the current weather information.
It should be noted that the method of the present embodiment may be applied to a landscape irrigation scenario or other scenarios requiring irrigation. The main executing body of the present embodiment may be garden irrigation equipment with data processing, network communication and program running functions, such as an automatic garden sprinkler, or other equipment capable of implementing the same or similar functions. The present embodiment and the following embodiments are specifically described with the garden watering apparatus (hereinafter referred to as "apparatus") described above.
It can be understood that the current weather information may include humidity change information, wind speed change information, rainfall information, and other weather information, the current weather information may be weather information of the current day, or may be future weather information, and the specific future date may be set according to actual conditions, which is not limited in this embodiment.
It should be understood that, in order to obtain the above current weather information, the above device may install weather monitoring stations at the garden position, the number of the specific weather monitoring stations is not limited in this embodiment, the above current weather information may be obtained by the above weather monitoring stations, and meanwhile, in order to ensure the accuracy of the information, the above device may further obtain the current weather information at the garden position from the weather station, and the current weather information obtained from the weather station and the current weather information obtained from the weather monitoring stations are comprehensively analyzed, thereby improving the accuracy of the above current weather information.
In a specific implementation, the device may obtain current weather information from the weather monitoring station, and obtain a predicted rainfall amount for several days in the future or a predicted rainfall amount at each moment of each day, that is, an instantaneous rainfall amount, by analyzing the current weather information.
Step S20: and determining the irrigation water demand according to the estimated rainfall, and generating a sprinkling irrigation task according to the irrigation water demand.
It can be understood that a mapping relation table between the expected rainfall and the irrigation water demand may be stored in the device, and the mapping relation table may have irrigation water demands corresponding to different expected rainfall, and the specific corresponding relation is not limited in this embodiment.
It should be noted that, considering that different vegetation has different requirements to irrigation volume, the above-mentioned equipment still can be adjusted irrigation water demand according to the kind of target irrigation vegetation, and then promotes the degree of accuracy of irrigation.
It should be understood that, can include the amount of sprinkling irrigation every day among the above-mentioned sprinkling irrigation task to and the amount of sprinkling irrigation at concrete sprinkling irrigation moment in the day, judge as above-mentioned equipment simultaneously that the rainfall moment is at night, and not satisfy in the amount of irrigation behind the rainfall, when still needing to continue to spray irrigation, because the night sprinkling irrigation staff is not convenient for patrol, and then can adjust the sprinkling irrigation time according to staff's daily working moment, the staff's of being convenient for management.
In a particular implementation, the apparatus may determine an irrigation water demand based on a projected rainfall, and generate a sprinkler irrigation task based on the irrigation water demand.
Step S30: and adjusting the switching value of an electromagnetic valve in an irrigation pipeline according to the sprinkling irrigation task so as to enable the electromagnetic valve to irrigate according to the switching value.
It should be noted that, the above-mentioned sprinkling irrigation pipeline can be provided with solenoid valves, the above-mentioned equipment accessible 4G-LORA gateway control solenoid valve's switching value, the quantity of above-mentioned solenoid valve can be a plurality of, and different solenoid valves correspond different sprinkling irrigation regions, because the region that the rainfall difference is expected to also probably appear in the same gardens, and then above-mentioned equipment can adjust the solenoid valve in different regions.
As another implementation manner of this embodiment, the above-mentioned device may determine an expected rainfall of each area in the garden according to the above-mentioned current weather information, divide the areas with the same expected rainfall into the same class according to the expected rainfall, determine the irrigation water demand in the area, and control the switching value of the electromagnetic valve in the corresponding area according to the irrigation water demand, so as to set different switching values for the electromagnetic valves in the areas with different expected rainfall, thereby implementing accurate irrigation as a whole.
As another implementation manner of this embodiment, the above-mentioned device may further determine a current rainfall according to the above-mentioned current weather information, determine the above-mentioned irrigation water demand according to the current rainfall, and generate a sprinkling irrigation task according to the irrigation water demand to perform sprinkling irrigation.
As another implementation manner of this embodiment, the above-mentioned device may further combine the current rainfall and the predicted rainfall to simultaneously analyze, determine a ratio between the current rainfall and the predicted rainfall by taking the current rainfall as a main part and the predicted rainfall as an auxiliary part, determine the irrigation water demand according to the ratio, and generate a sprinkling task according to the irrigation water demand to perform sprinkling irrigation.
It is emphasized that the above-mentioned sprinkling irrigation tasks and the switching values of the solenoid valves can be transmitted to the mobile terminal of the worker for viewing and management.
In a specific implementation, the equipment can adjust the switching value of the electromagnetic valve in the irrigation pipeline according to the sprinkling irrigation task, so that the electromagnetic valve irrigates according to the switching value.
Further, consider that the solenoid valve is because the long lapse of use, the condition that probably breaks can appear, the staff can lead to water resource loss if not in time discovering, and then in this embodiment, for the water economy resource, after above-mentioned step S30, still include:
step S80: and acquiring the current service life of the electromagnetic valve, and judging the current service life and the preset service life.
It should be noted that the current service life may be set from the time when the solenoid valve is installed in the irrigation pipe, and the preset service life may be set according to the type of the solenoid valve used, because the service lives of different solenoid valves may be different, and then different preset service lives may be set to perform accurate monitoring.
Step S90: and when the current use time length exceeds the preset use time length, generating a maintenance suggestion according to the operation and maintenance manual.
It can be understood that the operation and maintenance manual may be a manual for maintenance set up according to the electromagnetic valve, maintenance strategies corresponding to different service durations of the electromagnetic valve may be stored in the operation and maintenance manual, and the embodiment of the specific strategy of the operation and maintenance manual is not limited.
It should be understood that, the above-mentioned device may be provided with a prompt device for displaying a maintenance suggestion, and may be a display screen, or a speaker, and the above-mentioned device may display the generated maintenance suggestion through the display screen, or broadcast through the speaker, and may also be sent to a mobile device of a target worker through a server, and then may prompt the worker to perform maintenance in time.
As another implementation manner of this embodiment, the device may further obtain the number of times of switching the electromagnetic valve, determine through the number of times of switching and a preset number of times of switching, generate a maintenance suggestion according to the operation and maintenance manual when the number of times of switching exceeds the preset number of times of switching, and upload a maintenance log to the server at the same time, thereby facilitating subsequent management.
In specific implementation, the equipment can acquire the current service time of the electromagnetic valve, judge the current service time and the preset service time, and generate a corresponding maintenance suggestion according to the operation and maintenance manual when the current service time exceeds the preset service time, so that the operation and maintenance manual can help a worker to maintain quickly.
It should be emphasized that the above-described apparatus may also be used for regular maintenance of other critical apparatus than solenoid valves, for example: water storage device, power device etc. this embodiment does not put the restriction, and above-mentioned equipment still can remind the staff to carry out all-round maintenance to the equipment that relates in the whole irrigation pipe every year simultaneously.
The equipment of the embodiment can acquire the current weather information from the weather monitoring station and acquire the daily predicted rainfall in a plurality of days in the future by analyzing the current weather information; determining irrigation water demand according to the estimated rainfall, and generating a sprinkling irrigation task according to the irrigation water demand; the switching value of the electromagnetic valve in the irrigation pipeline is adjusted according to the sprinkling irrigation task, so that the electromagnetic valve irrigates according to the switching value, the current weather information can be combined for sprinkling irrigation, the irrigation water demand is reduced when rainfall occurs, and resources can be saved; meanwhile, the equipment can acquire the current use time of the electromagnetic valve, judge the current use time and the preset use time, and generate a corresponding maintenance suggestion according to the operation and maintenance manual when the current use time exceeds the preset use time, so that the maintenance of workers is facilitated, the user experience is improved, and meanwhile, the water resource is saved.
Referring to fig. 3, fig. 3 is a schematic flow chart of a garden irrigation method according to a second embodiment of the invention.
Considering that the factors affecting the irrigation amount further include information of the current ambient temperature, the current wind speed, and the like, and further, in order to more accurately irrigate the garden, based on the above embodiment, as shown in fig. 3, in this embodiment, before step S20, the method further includes:
step S201: acquiring current temperature information;
it should be noted that when the outside environment temperature is high, the water absorption and transpiration of the vegetation are very strong, and when the transpiration is strong, the high-temperature soil is suddenly stimulated by the water source spray irrigation, the soil temperature rapidly drops, the water absorption capacity of the root system of the vegetation drops, and the water absorption rate is lower than the transpiration water loss rate, so that the vegetation wilts.
It is understood that the current temperature information can also be obtained through a weather monitoring station, but in order to obtain the current temperature information more accurately, a soil temperature sensor can be installed near the vegetation to obtain the current temperature information, and the soil temperature sensor can be connected with the 4G-LORA gateway through a LORA transmitter to transmit the current temperature information.
Accordingly, the step S30 includes:
step S31: determining irrigation water demand according to the estimated rainfall, and adjusting the irrigation water demand according to the current temperature information;
step S311: and generating a sprinkling irrigation task according to the adjusted irrigation water demand.
It should be understood that, the mapping relation table between the current temperature information and the adjustment amount may also be stored in the above-mentioned device, and the above-mentioned device may adjust the irrigation water demand through the corresponding adjustment amount, thereby preventing the temperature from being too high and further preventing the vegetation from being damaged by continuous sprinkling irrigation.
It should be emphasized that the above-mentioned device can also obtain future temperature change information and adjust the irrigation water demand according to the temperature change information, for example, if the future will last high temperature, the above-mentioned device can increase the irrigation water demand to irrigate in advance, and then can avoid the situation that the high temperature leads to irrigation failure, but vegetation lacks water.
In concrete the realization, above-mentioned equipment can acquire current temperature information according to soil temperature sensor to confirm irrigation water demand according to the prediction rainfall, reunion current temperature information adjusts irrigation water demand, and the irrigation task is generated according to the irrigation water demand after the adjustment at last, and then can prevent the damage of high temperature weather to the vegetation, increase user experience.
Considering that the lower temperature also affects irrigation, in this embodiment, the current climate information may further include information such as whether frost is reduced, and if the frost is reduced, the device may control the electromagnetic valve to stop irrigation.
Further, considering that the wind speed may also affect the irrigation time, in case of strong wind, a part of water drops may not fall to an irrigation area or directly evaporate, the irrigation efficiency is low, and further, irrigation is inconvenient, so in this embodiment, before the step S20, the method further includes:
step S202: and acquiring current wind speed information.
It should be noted that the current wind speed information may also be obtained by a weather monitoring station, but in order to obtain the current wind speed information more accurately, a wind speed detector may be installed near the vegetation to obtain the current wind speed information.
Accordingly, the step S30 includes:
step S32: and determining the irrigation water demand according to the estimated rainfall, and adjusting the irrigation water demand according to the current wind speed information.
Step S322: and generating a sprinkling irrigation task according to the adjusted irrigation water demand.
It can be understood that the device can also store a mapping relation table between the current wind speed information and the adjustment quantity, and the device can adjust the irrigation water demand through the corresponding adjustment quantity, so that the situation that the wind speed is too high and the irrigation is continued to damage the vegetation is prevented.
It should be understood that, when the current wind speed is too high, in order to prevent the irrigation efficiency from being low, when the current speed is higher than the preset wind speed threshold, the irrigation can be stopped, and meanwhile, the equipment can also obtain the future wind speed change information and adjust the irrigation water demand according to the wind speed change information.
In concrete realization, above-mentioned equipment can acquire current wind speed information according to the wind speed detector to confirm irrigation water demand according to the forecast rainfall, combine current wind speed information to adjust irrigation water demand again, generate the sprinkling irrigation task according to the irrigation water demand after the adjustment at last, and then can prevent the damage of strong wind weather to the vegetation, increase user experience.
Further, considering that the evaporation and transpiration may also cause the loss of water in the soil, in this embodiment, before the step S20, the method further includes:
step S203: acquiring the current evaporation capacity of water in soil to be detected;
it should be noted that, in order to accurately obtain the current evaporation amount of the moisture, in this embodiment, a soil humidity sensor may be installed in the soil to be measured, the apparatus may obtain the current evaporation amount through the soil humidity sensor, and in order to improve the accuracy of the data, the soil humidity sensor may be provided with a plurality of sensors for acquiring data, and the current evaporation amount is obtained by analyzing the acquisition result of each sensor, and the number of the specific soil humidity sensors is not limited in this embodiment.
Accordingly, the step S30 includes:
step S33: determining irrigation water demand according to the estimated rainfall, and adjusting the irrigation water demand according to the current evaporation capacity;
step S333: and generating a sprinkling irrigation task according to the adjusted irrigation water demand.
It can be understood that the device may also store a mapping relationship table between the current evaporation amount and the adjustment amount, and the device may adjust the irrigation water demand by the corresponding adjustment amount, thereby preventing the insufficient irrigation amount caused by too fast evaporation of water in the soil.
It should be understood that the above-described apparatus may also be used to estimate future evaporation based on historical soil moisture evaporation and in conjunction with future weather information.
In concrete the realization, above-mentioned equipment can acquire the current evaporation capacity of moisture in the soil according to soil moisture sensor to confirm irrigation water demand according to prediction rainfall, combine current evaporation capacity to adjust irrigation water demand again, generate the sprinkling irrigation task according to the irrigation water demand after the adjustment at last, and then can effectively prevent to respond to the too fast condition that leads to irrigation not enough of moisture evaporation, increase user experience.
Data such as current temperature information, current wind speed information, current evaporation capacity can be acquireed respectively to the above-mentioned equipment of this embodiment are adjusted the irrigation water demand, in time stop irrigating under the condition that should not irrigate, combine a plurality of dimensions to adjust, have promoted the efficiency of irrigation, also promote the degree of accuracy of irrigation simultaneously, have increased user experience.
Referring to fig. 4, fig. 4 is a schematic flow chart of a garden irrigation method according to a third embodiment of the invention.
In view of timely finding whether there is damage to the component in the irrigation pipe or timely predicting the component that is about to be damaged, based on the above embodiments, as shown in fig. 4, in this embodiment, after step S30, the method further includes:
step S40: and acquiring current pipeline pressure information and pipeline flow information.
In this embodiment, a pressure gauge and a flow meter may be disposed in the irrigation pipe, and both the pressure gauge and the flow meter may transmit collected data to the device, the pressure gauge may collect pipe pressure information in the irrigation pipe, and the flow meter may collect pipe flow information in the irrigation pipe.
It can be understood that, in order to accurately measure the current pressure information and the current flow information at each position in the irrigation pipe, pressure gauges and flow meters can be arranged at a plurality of positions, and the specific position can be set according to the actual situation, and the embodiment is not limited.
Step S50: judging the irrigation state according to the current pipeline pressure information and the pipeline flow information;
step S60: and generating a corresponding maintenance suggestion based on the judgment result.
It should be understood that, the above-mentioned device may determine whether the current irrigation state is normal according to the above-mentioned current pipe pressure information and pipe flow information, and may also predict whether an abnormal irrigation state is about to occur, and generate a corresponding maintenance suggestion according to different irrigation states, and in this embodiment, the determination may be performed by setting different pressure thresholds and flow thresholds.
It should be noted that the maintenance suggestion may be selected from the operation and maintenance manual, or may be selected from other places, which is not limited in this embodiment, and after the maintenance is completed according to the maintenance suggestion, the worker uploads the maintenance log to the server, so as to facilitate subsequent management and viewing.
Further, since the different judgment results are different in maintenance advice, in this embodiment, when the judgment result is in the first preset state, the maintenance advice for stopping irrigation is generated; and generating a maintenance suggestion for periodic inspection when the judgment result is in a second preset state.
It will be appreciated that the first predetermined condition may be a condition in which a portion of the irrigation pipe has failed or continued irrigation causes failure, and the second predetermined condition may be a condition in which a portion of the irrigation pipe does not fail but is not normal during short-term operation.
The above-mentioned equipment accessible pressure gauge of this embodiment acquires current pipeline pressure information, and acquire current pipeline flow information through the flowmeter, judge irrigation status according to current pipeline pressure information and pipeline flow information, when the judged result is first preset state, can generate the maintenance suggestion that stops irrigating, and then parts such as control solenoid valve close, when the judged result is second preset state, then can generate the maintenance suggestion of periodic check, in order to remind the staff regularly to inspect above-mentioned irrigation pipeline, upload maintenance log to server simultaneously, and then can effectively monitor and predict irrigation status to irrigation pipeline, promote user experience.
In addition, an embodiment of the present invention further provides a storage medium, where the storage medium stores a garden irrigation program, and the garden irrigation program, when executed by a processor, implements the steps of the garden irrigation method as described above.
In addition, referring to fig. 5, fig. 5 is a block diagram illustrating a first embodiment of a garden irrigating device according to the present invention, and the embodiment of the present invention further provides a garden irrigating device, which includes:
a weather obtaining module 501, configured to obtain current weather information and obtain a predicted rainfall according to the current weather information;
a task generating module 502, configured to determine an irrigation water demand according to the estimated rainfall, and generate a sprinkling irrigation task according to the irrigation water demand;
and the switching value adjusting module 503 is configured to adjust the switching value of the electromagnetic valve in the irrigation pipeline according to the sprinkling irrigation task, so that the electromagnetic valve performs irrigation according to the switching value.
The equipment of the embodiment can acquire the current weather information from the weather monitoring station and acquire the daily predicted rainfall in a plurality of days in the future by analyzing the current weather information; determining irrigation water demand according to the estimated rainfall, and generating a sprinkling irrigation task according to the irrigation water demand; the switching value of the electromagnetic valve in the irrigation pipeline is adjusted according to the sprinkling irrigation task, so that the electromagnetic valve irrigates according to the switching value, the current weather information can be combined for sprinkling irrigation, the irrigation water demand is reduced when rainfall occurs, and resources can be saved; meanwhile, the equipment can acquire the current use time of the electromagnetic valve, judge the current use time and the preset use time, and generate a corresponding maintenance suggestion according to the operation and maintenance manual when the current use time exceeds the preset use time, so that the maintenance of workers is facilitated, the user experience is improved, and meanwhile, the water resource is saved.
Other embodiments or specific implementation manners of the garden irrigation device of the present invention can refer to the above method embodiments, and are not described herein again.
It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or system that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or system. Without further limitation, an element defined by the phrases "comprising a," "8230," "8230," or "comprising" does not exclude the presence of other like elements in a process, method, article, or system comprising the element.
The above-mentioned serial numbers of the embodiments of the present invention are merely for description and do not represent the merits of the embodiments. Through the above description of the embodiments, those skilled in the art will clearly understand that the method of the above embodiments can be implemented by software plus a necessary general hardware platform, and certainly can also be implemented by hardware, but in many cases, the former is a better implementation manner. Based on such understanding, the technical solutions of the present invention may be embodied in the form of a software product, which is stored in a storage medium (e.g., a rom/ram, a magnetic disk, an optical disk) and includes instructions for enabling a terminal device (e.g., a mobile phone, a computer, a server, or a network device) to execute the method according to the embodiments of the present invention.
The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.
Claims (10)
1. A method of irrigating a garden, comprising the steps of:
acquiring current weather information, and acquiring a predicted rainfall according to the current weather information;
determining irrigation water demand according to the estimated rainfall, and generating a sprinkling irrigation task according to the irrigation water demand;
and adjusting the switching value of an electromagnetic valve in an irrigation pipeline according to the sprinkling irrigation task so as to enable the electromagnetic valve to irrigate according to the switching value.
2. The method of garden irrigation according to claim 1, wherein said step of determining an irrigation water demand based on said projected rainfall and generating a sprinkler task based on said irrigation water demand is preceded by the step of:
acquiring current temperature information;
correspondingly, the step of determining the irrigation water demand according to the estimated rainfall and generating a sprinkling irrigation task according to the irrigation water demand comprises the following steps:
determining irrigation water demand according to the estimated rainfall, and adjusting the irrigation water demand according to the current temperature information;
and generating a sprinkling irrigation task according to the adjusted irrigation water demand.
3. The method of garden irrigation according to claim 1, wherein said step of determining an irrigation water demand based on said projected rainfall and generating a sprinkler task based on said irrigation water demand is preceded by the step of:
acquiring current wind speed information;
correspondingly, the step of determining the irrigation water demand according to the estimated rainfall and generating a sprinkling irrigation task according to the irrigation water demand comprises the following steps:
determining irrigation water demand according to the estimated rainfall, and adjusting the irrigation water demand according to the current wind speed information;
and generating a sprinkling irrigation task according to the adjusted irrigation water demand.
4. The method of garden irrigation according to claim 1, wherein said step of determining an irrigation water demand based on said projected rainfall and generating a sprinkler task based on said irrigation water demand is preceded by the step of:
acquiring the current evaporation capacity of water in soil to be detected;
correspondingly, the step of determining the irrigation water demand according to the estimated rainfall and generating a sprinkling irrigation task according to the irrigation water demand comprises the following steps:
determining irrigation water demand according to the estimated rainfall, and adjusting the irrigation water demand according to the current evaporation capacity;
and generating a sprinkling irrigation task according to the adjusted irrigation water demand.
5. The method for irrigating gardens of claim 1, wherein said step of adjusting the amount of opening and closing of a solenoid valve in an irrigation pipe according to said sprinkling irrigation task so that said solenoid valve irrigates according to said amount of opening and closing further comprises:
acquiring current pipeline pressure information and pipeline flow information;
judging the irrigation state according to the current pipeline pressure information and the pipeline flow information;
and generating a corresponding maintenance suggestion based on the judgment result.
6. The method for irrigating a garden of claim 5, wherein the step of generating a corresponding maintenance recommendation based on the determination comprises:
when the judgment result is in a first preset state, generating a maintenance suggestion for stopping irrigation;
and generating a maintenance suggestion for periodic inspection when the judgment result is in a second preset state.
7. The method for irrigating gardens of claim 1, wherein said step of adjusting the amount of opening and closing of a solenoid valve in an irrigation pipe according to said sprinkling irrigation task so that said solenoid valve irrigates according to said amount of opening and closing further comprises:
acquiring the current use time of the electromagnetic valve, and judging the current use time and a preset use time;
and when the current use time exceeds the preset use time, generating a maintenance suggestion according to the operation and maintenance manual.
8. A garden watering apparatus, characterized in that the apparatus comprises:
the weather obtaining module is used for obtaining current weather information and obtaining the estimated rainfall according to the current weather information;
the task generation module is used for determining irrigation water demand according to the estimated rainfall and generating a sprinkling irrigation task according to the irrigation water demand;
and the switching value adjusting module is used for adjusting the switching value of the electromagnetic valve in the irrigation pipeline according to the sprinkling irrigation task so that the electromagnetic valve can irrigate according to the switching value.
9. A garden irrigating apparatus, wherein the apparatus comprises: a memory, a processor and a garden irrigation program stored on the memory and executable on the processor, the garden irrigation program being configured to implement the steps of the garden irrigation method as defined in any one of claims 1 to 7.
10. A storage medium, characterized in that the storage medium has stored thereon a garden irrigation program, which when executed by a processor performs the steps of the garden irrigation method as defined in any one of claims 1 to 7.
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CN117770105A (en) * | 2023-12-20 | 2024-03-29 | 北京数智大观科技有限公司 | Intelligent irrigation control method for gardens based on rainfall conditions |
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CN117770105A (en) * | 2023-12-20 | 2024-03-29 | 北京数智大观科技有限公司 | Intelligent irrigation control method for gardens based on rainfall conditions |
CN117770105B (en) * | 2023-12-20 | 2024-06-11 | 北京数智大观科技有限公司 | Intelligent irrigation control method for gardens based on rainfall conditions |
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