CN216626929U - Water storage type mountain automatic irrigation system with remote supervision function - Google Patents

Abstract

The utility model discloses a remote-supervision water storage type automatic mountain land irrigation system in the technical field of mountain land irrigation, which comprises a water storage pool, a water level sensor, a monitoring unit and a monitoring unit, wherein the water storage pool is a sealed water storage pool and is fixedly arranged on the top of a mountain, a main control station is arranged on the water storage pool, and the water storage pool is also provided with the liquid level sensor; the mountain land is also provided with a solar cell; send water pump station, the setting is under the mountain, the input port is connected with external water source, the delivery port has set up the water feeding valve, can build the liquid reserve tank at the crest of the mountain of planting regional mountain, send water pump station through the mountain with water source or mixed nutrient solution through the water-supply line carry to the water reserve tank in, again by the reservoir from flowing to the work area that needs irrigate, and can be through main control station to the water level of reservoir, and the moist condition of the soil nutrition condition in mountain region carries out comprehensive judgement, this device can advance the automatic irrigation of strip trigger formula automatically, and remote control irrigates or shuts down, high durability and convenient use.

Description

Water storage type mountain automatic irrigation system with remote supervision function

Technical Field

The utility model relates to the technical field of mountain irrigation, in particular to a water storage type mountain automatic irrigation system with remote supervision.

Background

At present, mountain irrigation is troublesome, the pump lift commonly used is not enough, and when planting in the mountain region, the mountain region height generally exceeds 10 meters, and conventional pump irrigation generally only can take the area to press and irrigate in the scope below 10 meters, at this moment when irrigating to mountain top crop, water has not had water pressure basically.

Therefore, most of the existing mountain planting bases still adopt the traditional planting mode, farmers depend on natural rainfall and manual pipe pulling irrigation for irrigation, and fertilizer application depends on chemical fertilizer or farmyard manure for broadcasting, so that manpower is wasted, indexes such as soil moisture content and soil fertility cannot be known, and crops often cannot draw proper nutrient elements in different growth and development stages, and further yield is reduced or the crops are harvested absolutely.

In recent years, with the development of agricultural technologies, some planting bases have built related agricultural facilities, such as laying irrigation engineering pipe networks, matching water and fertilizer pump stations and the like, but the problems of irrigation and fertilization of large-area mountain crops cannot be well solved due to the functions of the facilities and other factors.

Disclosure of Invention

The utility model aims to provide a water storage type automatic mountain land irrigation system with remote supervision, which can build a liquid storage tank on the mountain top of a mountain land in a planting area, convey a water source or mixed nutrient solution into the water storage tank through a water supply pipeline by a mountain water supply pump station, and automatically flow to a crop area needing irrigation from the water storage tank.

The utility model is realized in the following way: a remotely supervised water storage type mountain land automatic irrigation system, comprising:

the water storage tank is a sealed water storage tank and is fixedly arranged on the top of a mountain, a main control station is arranged on the water storage tank, and a liquid level sensor is further arranged in the water storage tank;

the mountain land is also provided with a solar cell;

the water supply pump station is arranged under the mountain, the input port is connected with an external water source, the water outlet is provided with a water supply valve, and the water supply valve is communicated with the interior of the water storage pool through a water supply pipeline;

irrigation pipe network, for gravity irrigation ditch, even distribution has covered the whole plant scope in mountain region domatic, irrigation pipe network separates for the region of a plurality of differences on the mountain region, every different zone irrigation pipe network all is connected with the tank alone, different region irrigation pipe network all is connected with the tank through solitary irrigation valve, on the mountain region still even cover the detection substation of a plurality of real-time supervision soil fertility between the irrigation pipe network, every detect the substation and all with main control station data connection, send water pump station, water feeding valve and irrigation valve all to be connected with main control station, main control station is connected with the solar cell electricity.

Furthermore, a plc controller is arranged in the main control station, the main control station is connected with the detection substations through a lora network, the main control station is used for independently positioning each detection substation through the lora network, and each detection substation belongs to an irrigation pipe network in a fixed range.

Further, it includes soil nitrogen phosphorus potassium sensor, humidity transducer and temperature sensor to detect the substation, soil nitrogen phosphorus potassium sensor, humidity transducer and the temperature sensor in detecting the substation all bury underground in the soil of mountain region.

Further, the irrigation valve and the water feeding valve are electrically operated valves;

each irrigation valve is provided with an electromagnetic flowmeter, and each electromagnetic flowmeter is in data connection with a main control station;

each irrigation valve is installed and connected to the bottom of the inner cavity of the water storage tank.

Furthermore, the outside camera that has set up of tank, camera and main control station data connection, main control station passes through wireless network and external mobile terminal data connection, the camera is outdoor waterproof control.

Further, the solar cell covers the side wall of the water storage tank;

and filter screens are arranged at the top of the water storage tank and at the connecting pipe openings of the water storage tank, the irrigation valve and the water feeding valve.

Furthermore, the number of the liquid level sensors is at least two, and the two liquid level sensors are respectively arranged at the top and the bottom of the inner cavity of the water storage tank;

and a PH sensor and an industrial EC sensor are also arranged at the bottom of the inner cavity of the water storage tank.

The beneficial effects of the utility model are: 1. the water pump station with larger lift is controlled to convey water into the water storage tank on the top of the mountain in a centralized manner, so that the water pump station is not required to operate all the time, the water pressure of a pump station is not required to be maintained during irrigation, and the water pump station is more convenient to use and saves energy;

2. the device stores water in a centralized manner through the water storage tank, then opens the gate to discharge water when needed, performs gravity irrigation, does not need a water pump to pressurize during irrigation, is convenient to use, saves energy, is simple to operate, and avoids the trouble of pressurizing mountains during irrigation;

3. the device can perform partition management on each area of the mountain land and perform refined partition detection on soil in different areas through the detection substations, so that different crops can be planted in each area, the use is convenient, different areas can be subjected to differentiated irrigation, the differentiated partitions are very convenient, and only the irrigation valve needs to be additionally arranged and the irrigation pipe network needs to be independent;

4. this device passes through wireless network and main control station, can carry out remote control to the irrigation pipe network for this device can just can control the crop without people going up a mountain, convenient to use, when personnel do not operate, this device also can carry out automatic irrigation when the irrigation condition triggers through main control station, and the manual work can also be long-rangely carried out remote control intervention through control terminal, and it is more nimble convenient to use.

Drawings

The utility model will be further described with reference to the following examples with reference to the accompanying drawings.

FIG. 1 is a top view of an irrigation pipe network on a mountain land in accordance with the present invention;

FIG. 2 is a schematic view of a water supply pipeline and a water storage tank in a mountain land;

FIG. 3 is a schematic view of the structure of the water storage tank of the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

1-a water storage tank, 11-a main control station, 12-a camera, 13-a liquid level sensor, 14-a solar cell, 2-a water supply pump station, 21-a water supply pipeline, 22-a water supply valve, 3-an irrigation pipe network, 31-a detection substation and 32-an irrigation valve.

Detailed Description

Referring to fig. 1 to 3, the present invention provides a technical solution: a remotely supervised water storage type mountain land automatic irrigation system, comprising:

the water storage tank 1 is a sealed water storage tank and is fixedly arranged on the top of a mountain, a main control station 11 is arranged on the water storage tank, and a liquid level sensor 13 is also arranged in the water storage tank 1;

the mountain land is also provided with a solar battery 14;

the water supply pump station 2 is arranged under the mountain, the input port is connected with an external water source, the water outlet is provided with a water supply valve 22, and the water supply valve 22 is communicated with the interior of the water storage tank 1 through a water supply pipeline 21;

the irrigation pipe network 3 is a self-flowing irrigation ditch, is uniformly distributed on the slope surface of the mountain land, covers the whole plant range of the mountain land, the irrigation pipe network 3 is divided into a plurality of different areas on the mountain land, the irrigation pipe network 3 of each different area is independently connected with the water storage tank 1, the irrigation pipe network 3 of each different area is connected with the water storage tank 1 through an independent irrigation valve 32, a plurality of detection substations 31 for monitoring the soil fertility in real time are uniformly covered between the irrigation pipe networks 3 on the mountain land, each detection substation 31 is in data connection with a main control station 11, the water feeding pump station 2, the water feeding valve 22 and the irrigation valve 32 are all connected with the main control station 11, the main control station 11 is electrically connected with the solar cell 14, the water storage tank can be built on the mountain tops of the mountain land of planting areas, a water source or mixed nutrient solution is conveyed into the water storage tank through a water feeding pipeline by an under-mountain water feeding pump station, again by the reservoir from flowing to the work area region that needs irrigate, and can be through the water level of main control station to the reservoir, and the moist condition of the soil nutrition condition in mountain region synthesizes and judge, when nobody controls, this device can advance condition trigger formula automatic irrigation voluntarily, do not need the water pump during irrigation moreover, avoided because water pressure is not enough, and lead to the condition of irrigating the difficulty, and this device can look over the pond condition through the camera moreover, also can inquire the soil information of crop, and remote control irrigate or shut down, high durability and convenient use.

The system comprises a main control station 11, a plc controller, detection substations 31, a lora network and a plurality of irrigation pipe networks, wherein the plc controller is arranged in the main control station 11, the main control station 11 is connected with the detection substations 31 through the lora network, the main control station 11 independently positions each detection substation 31 through the lora network, each detection substation 31 belongs to an irrigation pipe network 3 in a fixed range, the whole system is managed through the lora network, networking is convenient, positioning can be achieved, operation is simple, and pipe network laying is convenient;

the detection substation 31 comprises a soil nitrogen phosphorus potassium sensor, a humidity sensor and a temperature sensor, wherein the soil nitrogen phosphorus potassium sensor, the humidity sensor and the temperature sensor in the detection substation 31 are buried in soil in a mountain land, so that the soil can be monitored in real time and managed in a data mode, and the purpose of accurate irrigation is achieved;

both the irrigation valve 32 and the water feed valve 22 are electrically operated valves;

each irrigation valve 32 is provided with an electromagnetic flow meter, and each electromagnetic flow meter is in data connection with the main control station 11;

each irrigation valve 32 is installed and connected to the bottom of the inner cavity of the water storage tank 1, the flow rate of the irrigation valve 32 can be controlled through the design, the purpose of controlling the irrigation quantity is achieved, the irrigation quantity is counted through an electromagnetic flowmeter, the accuracy is improved, and the purpose of fine irrigation is achieved;

the camera 12 is arranged outside the water storage tank 1, the camera 12 is in data connection with the main control station 11, the main control station 11 is in data connection with an external mobile terminal through a wireless network, the camera 12 is used for outdoor waterproof monitoring, real-time monitoring on mountain top facilities is facilitated, people do not need to look up the mountain, and the use is convenient;

the solar cell 14 covers the side wall of the water storage tank 1;

the top of the water storage tank 1 and the connecting pipe orifices of the water storage tank 1, the irrigation valve 32 and the water feeding valve 22 are provided with filter screens, so that pipeline blockage is avoided, light energy conversion is facilitated, and stable power supply is provided;

the number of the liquid level sensors 13 is at least two, and the two liquid level sensors 13 are respectively arranged at the top and the bottom of the inner cavity of the water storage tank 1;

the inner cavity bottom of the water storage tank 1 is also provided with a PH sensor and an industrial EC sensor, so that the water quality and the water quality ion concentration in the water storage tank 1 can be monitored in real time conveniently.

In one embodiment of the utility model:

the embodiment of the utility model provides a water storage type mountain land automatic irrigation system for remote supervision, and the utility model solves the technical problems that: 1. the existing irrigation operation of the mountain land is difficult, mainly because the mountain land can only be supplied with water by a pump station with high lift, the operation cost of the station is high, the station is complicated to use, the switching is inconvenient for one time, the switching is not simple operation for each time, the pump station is used for continuously operating the mountain land to irrigate, the cost is too high, and the realization difficulty is high; 2. at present, mountain areas are manually checked, irrigated and fertilized, the workload is large, the effect of a master worker is poor, and the frequency of fertilization and irrigation cannot be improved manually; 3. at present, crops planted in mountainous regions are different generally according to the difference between the sunny side and the sunny side, the requirements of different crops on water and fertilizer are different, at present, no proper method is used for differential irrigation, only manual operation is needed, and the workload is very large.

The realized technical effects are as follows: 1. according to the utility model, the water is intensively conveyed to the water storage tank 1 on the mountain top by controlling the water conveying pump station 2 with larger lift, so that the water conveying pump station 2 is not required to operate all the time, and the water pressure is not required to be kept during irrigation, so that the use is more convenient and energy-saving;

2. the device stores water in a centralized manner through the water storage tank 1, then opens a gate to discharge water when needed, performs gravity irrigation, does not need a water pump to pressurize during irrigation, is convenient to use, saves energy, is simple to operate, and avoids the trouble of difficult pressurization of mountainous regions during irrigation;

3. the device can perform partition management on each region of the mountain land and perform refined partition detection on soil in different regions through the detection substations 31, realizes that different crops can be planted in each region, is convenient to use, can perform differentiated irrigation on different regions, is very convenient to perform differentiated partition, and only needs to additionally install the irrigation valves 32 and independently connect the irrigation pipe network 3 with the water storage tank 1;

4. this device passes through wireless network and main control station 11, can carry out remote control to irrigation pipe network 3 for this device can just can control the crop without people going up the mountain, convenient to use, when personnel do not operate, this device also can carry out automatic irrigation when the irrigation condition triggers through main control station 1, and the manual work can also be long-rangely carried out remote control intervention through control terminal, and it is more nimble convenient to use.

In order to solve the above problems, the technical solution in the embodiments of the present invention has the following general idea:

for better understanding of the above technical solutions, the following detailed descriptions will be provided in conjunction with the drawings and the detailed description of the embodiments.

During manufacturing, different crops and different hillsides are managed in a differentiated mode on the mountain land, different independent irrigation pipe networks 3 are laid according to different divided regions, the region division mainly needs to be carried out according to the difference of the crops, the difference of illumination, the difference of high and low altitude, the difference of soil components and the difference of slope of the mountain land, the irrigation pipe networks 3 are laid independently, and the irrigation pipe networks 3 are just traditional self-flowing ditches;

at least one detection substation 31 is arranged in each different regional pipe network on the mountain land, 2 or more detection substations 31 are required to be laid in the irrigation pipe network 3 with a larger coverage area, the detection substations can be additionally arranged according to actual conditions, a soil nitrogen phosphorus potassium sensor, a humidity sensor and a temperature sensor are arranged in each detection substation 31, and the sensors are buried in soil at the positions of the mountain land monitoring substations 31, so that real-time data monitoring on soil environments is facilitated;

the large-volume water storage tank 1 is arranged on the mountain top, the volume of the water storage tank 1 is enough for irrigating the whole mountain land for 4-5 times, the crop water demand of the mountain land is generally very low, the occupied area of the water storage tank 1 is not particularly large, the occupied area is generally 30-200 tons, namely a water tank with the length of 5 meters, the width of 4 meters and the height of 100 tons is the water storage tank 1, the occupied area is very small for the mountain land, and the size of the water storage tank 1 is built according to the actual use condition of the mountain land;

then install level sensor 13 in tank 1, low liquid level of a high liquid level, all need install level sensor 13, and every level sensor 13 all will with 11 data connection of main control station, main control station 11 is installed by tank 1 at the mountain top, a data for collecting each detection substation 31, and main control station 11 needs to carry out the setting of one-to-one with the position that detects substation 31 and the irrigation valve 32 that corresponds, ensure that the independent irrigation pipe network 3 that every irrigation valve 32 is connected is the one-to-one with the regional detection substation 31 information in place.

A PH sensor and an industrial EC sensor are also required to be installed in the water storage tank 1 for monitoring the water quality and the ion concentration in water, so as to judge the condition of water and fertilizer.

A camera 12 is further installed beside the main control station 11 and is used for checking the running conditions of all equipment, whether water is discharged smoothly, whether an irrigation pipe network 3 is smooth, whether water exists in the water storage tank 1 and whether the main control station 11 is intact, and the monitoring can be carried out through the camera 12;

then, the solar cell 14 is arranged outside the water storage tank 1, or can be directly arranged on the outer side wall of the water storage tank 1, or the top of the water storage tank can be arranged, as long as the water storage tank can receive light conveniently;

then a water supply pump station 2 is built under the mountain, a water inlet is connected with an external water source, a water supply pipeline 21 is arranged after water is discharged, the water supply pipeline 21 is connected with the water storage tank 1, and a water supply valve 22 is arranged between the water supply pipeline 21 and the water supply pump station 2;

reservoir 1 sets up irrigation valve 32 with every independent irrigation pipe network 3 junction, irrigation valve 32 just can be convenient the irrigation condition of the irrigation pipe network 3 in every region of control through control, and set up electromagnetic flowmeter on irrigation valve 32, an irrigation volume for every different regions in real-time supervision mountain region, be convenient for data management, irrigation valve 32 need install the bottom at reservoir 1, ensure that all water in reservoir 1 can all leave and be used for watering mountain crops, be convenient for also can circulate the water of reservoir 1 bottom, and water-supply pipeline 21 can connect at the top of reservoir 1 or the middle height all can, but install in the bottom at best, ensure that the water in reservoir 1 can constantly circulate to flow away the watering can.

When the water supply device is used, an external water source and nutrient solution are mixed by the water supply pump station 2 and then pumped into the water storage tank 1 at the top of a mountain, when the water amount touches the liquid level sensor 13 at the high position in the water storage tank 1, the water supply pump station 2 stops and does not supply water, when the water amount touches the liquid level sensor 13 at the bottom in the water storage tank 1, the water supply pump station 2 starts to supply water into the water storage tank 1, and because the irrigation does not need the pressurization of a water pump, the irrigation and the water supply operation into the water storage tank 1 are not influenced mutually;

then, according to the monitoring data of the soil nitrogen phosphorus potassium sensor, the humidity sensor, the PH sensor and the temperature sensor of the monitoring substation 31, determining the optimal environmental requirements of crops in different areas of the mountainous region, and then setting soil environment trigger condition data of different areas in the main control station 11, namely, the trigger conditions of the soil environments in different divided areas of the mountainous region are different;

when the detection substation 31 in a certain area detects that the humidity is lower, the main control station 11 opens the irrigation valve 32 in the area to control irrigation, no matter when certain parameter in soil is lower, the device starts irrigation, and when certain parameter is larger or after irrigating for a set fixed time, the main control station 11 closes the corresponding irrigation valve 32 to stop irrigation.

The operation is convenient, and the control program on the mobile terminal, namely a mobile phone, can directly give an instruction to the main control station 11 to open or close the irrigation valve 32, and can also open or close the water supply pump station 2, so as to achieve the purpose of remote control, and can also monitor the mountain top facilities in real time through the camera 12.

Although specific embodiments of the utility model have been described above, it will be understood by those skilled in the art that the specific embodiments described are illustrative only and are not limiting upon the scope of the utility model, and that equivalent modifications and variations can be made by those skilled in the art without departing from the spirit of the utility model, which is to be limited only by the appended claims.

Claims (7)

1. A water storage type mountain land automatic irrigation system for remote supervision is characterized by comprising:

the water storage tank (1) is a sealed water storage tank and is fixedly arranged on the top of a mountain, a main control station (11) is arranged on the water storage tank, and a liquid level sensor (13) is further arranged in the water storage tank (1);

the mountain land is also provided with a solar cell (14);

the water supply pump station (2) is arranged under the mountain, an input port is connected with an external water source, a water outlet is provided with a water supply valve (22), and the water supply valve (22) is communicated with the interior of the water storage tank (1) through a water supply pipeline (21);

irrigation pipe network (3), for gravity irrigation ditch, even distribution has covered the whole plant scope in mountain region domatic on the mountain region, irrigation pipe network (3) are separated for a plurality of different regions on the mountain region, every different region irrigation pipe network (3) all are connected with tank (1) alone, different region irrigation pipe network (3) are all connected with tank (1) through solitary irrigation valve (32), on the mountain region still even detection substation (31) that have covered a plurality of real-time supervision soil fertility between irrigation pipe network (3), every detection substation (31) all with main control station (11) data connection, send water main control unit station (2), water-supply valve (22) and irrigation valve (32) all to be connected with main control station (11), station (11) are connected with solar cell (14) electricity.

2. The automatic irrigation system of water storage formula mountain region of remote supervision according to claim 1 characterized in that: the utility model discloses an irrigation pipe network, including main control station (11), the main control station has set up the plc controller in (11), main control station (11) pass through the lora network connection with detecting substation (31), main control station (11) are fixed a position every detection substation (31) alone through the lora network, every detection substation (31) all belong to fixed range's irrigation pipe network (3).

3. The remotely supervised water storage type mountain land automatic irrigation system according to claim 1, wherein: detect substation (31) including soil NPK sensor, humidity transducer and temperature sensor, soil NPK sensor, humidity transducer and the temperature sensor in detecting substation (31) all bury underground in the soil in mountain region.

4. The automatic irrigation system of water storage formula mountain region of remote supervision according to claim 1 characterized in that: the irrigation valve (32) and the water supply valve (22) are electrically operated valves;

each irrigation valve (32) is provided with an electromagnetic flow meter, and each electromagnetic flow meter is in data connection with the main control station (11);

each irrigation valve (32) is installed and connected to the bottom of the inner cavity of the water storage tank (1).

5. The automatic irrigation system of water storage formula mountain region of remote supervision according to claim 1 characterized in that: the water storage tank (1) is externally provided with a camera (12), the camera (12) is in data connection with a main control station (11), the main control station (11) is in data connection with an external mobile terminal through a wireless network, and the camera (12) is used for outdoor waterproof monitoring.

6. The remotely supervised water storage type mountain land automatic irrigation system according to claim 1, wherein: the solar cell (14) covers the side wall of the water storage tank (1);

and filter screens are arranged at the top of the water storage tank (1) and at the connecting pipe orifices of the water storage tank (1), the irrigation valve (32) and the water feeding valve (22).

7. The remotely supervised water storage type mountain land automatic irrigation system according to claim 1, wherein: the number of the liquid level sensors (13) is at least two, and the two liquid level sensors (13) are respectively arranged at the top and the bottom of the inner cavity of the water storage tank (1);

and a PH sensor and an industrial EC sensor are also arranged at the bottom of the inner cavity of the water storage tank (1).

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