CN207969361U - A kind of agricultural Intelligent irrigation system - Google Patents

Abstract

The utility model discloses a kind of agricultural Intelligent irrigation systems, including temperature sensor, humidity sensor, water level sensor, soil nutrient detector, data collection module, data processing unit, control unit, rich water pond, feed cistern, electric T-shaped valve, haffir, water delivery main road pipe and water delivery bypass duct, the temperature sensor, humidity sensor, water level sensor, soil nutrient detector wireless connection data collector unit, data collection module network connection data processing unit, data processing unit connects control unit, control unit controls each hydraulic pipeline and completes to irrigate.The utility model is simple in structure, reasonable design, compared with traditional timing irrigation, the utility model is irrigated in due course according to each parameter situation of plant growth environment, save irrigation water, conducive to the growth of crops, and the variation of rainy day farmland water level can be collected by water level sensor, then after doing relevant treatment, rainwater resource is stored, dry season irrigation is used for.

Description

A kind of agricultural Intelligent irrigation system

Technical field

The utility model belongs to breed of crop field, more particularly to a kind of agricultural Intelligent irrigation system.

Background technology

Crops normal growth needs to keep soil adequate water, this just needs plant personnel often to be filled to crops It irrigates, the shortcomings that timing irrigation is current most common irrigation method, the irrigation method is to irrigate regardless of external environment situation, no Pipe weather is arid or rainfall is plentiful all can temporally regulation be irrigated, not only harmful to crop growth in this way, but also Water resource waste can be caused, while the water resource within season with heavy rainfall, farmland often causes to be lost in vain, without Storage in time, and in arid, water resource seems that catching taboo sees elbow again, not enough, therefore that how to effectively control irrigation systems is in due course It irrigates, Rational Irrigation, efficiently using water resource becomes the important topic of this field research.

Utility model content

The purpose of this utility model is realized by following technical proposals：

A kind of agricultural Intelligent irrigation system, it is characterised in that：Including temperature sensor, humidity sensor, level sensor Device, soil nutrient detector, data collection module, data processing unit, control unit, rich water pond, feed cistern, electric three passes Valve, haffir, water delivery main road pipe and water delivery bypass duct, the temperature sensor, humidity sensor, water level sensor, soil It is arranged independently of each other between earth nutrient detector and is wirelessly connected with data collection module, the data collection module network connection Data processing unit, the data processing unit connect control unit, and the rich water pond is by being provided with the first of the first water pump Water-supply-pipe is connected to the ports A1 of electric T-shaped valve, and the feed cistern is connected to by being provided with the second water-supply-pipe of the second water pump The ports A3 of the ports A2 of electric T-shaped valve, the electric T-shaped valve connect water delivery main road pipe, are arranged on the water delivery main road pipe There are flowmeter, the flowmeter to connect unit at data, the water delivery main road pipe end connects water delivery bypass duct, the feed cistern It is connected between haffir by being provided with the rainwater recycle pipe of third water pump, first water pump, the second water pump, third Water pump and electric T-shaped valve are separately connected control unit.

Preferably, equidistant in the water delivery bypass duct be provided with spraying head type nozzle.

It using above-mentioned design scheme, is irrigated due to the use of spraying head type nozzle, needs the pipeline being laid with is less to take up an area less, And it pours water uniformly, effectively save water resource.

Preferably, first water-supply-pipe, the second water-supply-pipe, rainwater collection collector, water delivery main road pipe and water delivery bypass duct Pipeline outer wall be coated with erosion resistant coating.

It easily corrodes and gets rusty since pipeline is exposed to the sun and rain outdoors using above-mentioned design scheme, therefore be coated with anti-corrosion Layer, can improve pipeline service life, cost-effective.

Compared with prior art, the beneficial effects of the utility model are：

The utility model is simple in structure, reasonable design, passes through temperature sensor, humidity sensor, water level sensor, soil Nutrient detector, collects residing for crops each parameter attribute under growing environment, after analyzing and processing data, implements when needing the when of supplying water It irrigates, compared with traditional timing irrigation, not only saves irrigation water, but also need to irrigate in due course according to crops, more conducively agriculture The growth of crop, and the variation of rainy day farmland water level can be collected by water level sensor, then after doing relevant treatment, it can be effective Storage rainwater resource is collected, dry season irrigation is used for.

Description of the drawings

Fig. 1 is the structural schematic diagram of the utility model；

Specific implementation mode

The utility model is further described with reference to specific embodiments and the drawings.

Embodiment one

As shown in Figure 1, a kind of agricultural Intelligent irrigation system, including temperature sensor 1, humidity sensor 2, level sensor Device 3, soil nutrient detector 4, data collection module 5, data processing unit 6, control unit 7, rich water pond 8, feed cistern 9, electricity Dynamic triple valve 10, haffir 11, water delivery main road pipe 12 and water delivery bypass duct 13, the several groups temperature sensor 1, humidity Sensor 2, water level sensor 3, soil nutrient detector 4 are evenly dispersed to be arranged in entire farmland region, and above-mentioned all biographies Sensor, detector are wirelessly connected with data collection module 5,5 network connection data processing unit 6 of the data collection module, The data processing unit 6 includes central processing unit and central memory, and central processing unit is used for analyzing and processing data receipt Member collects the data of transmission, and central memory is stored with temperature under varying environment, humidity, soil nutrient content, farmland water level Typical set value, the data processing unit 6 connect control unit 7, and the rich water pond 8 is connected to electricity by the first water-supply-pipe 15 The ports A1 of triple valve 10 are moved, are provided with the first water pump 14 on the first water-supply-pipe 15, the feed cistern 9 passes through the second water-supply-pipe 17 The ports A2 of electric T-shaped valve 10 are connected to, the second water pump 16 is provided on the second water-supply-pipe 17, the ports electric T-shaped valve A3 connect Water delivery main road pipe 12 is connect, is provided with flowmeter 18 on the water delivery main road pipe 12, the feed cistern 9 is by being provided with third water pump 20 rainwater collection collector 19 is connected with haffir 11, and rainwater is introduced haffir 11, institute by farmland by flume 22 It states water delivery main road pipe 12 to connect with water delivery bypass duct 13, first water pump 14, the second water pump 16, third water pump 20 and electronic three Port valve 10 is electrically connected control unit 7.

When the utility model at work, by temperature sensor 1 and humidity sensor 2 is equidistant is placed in farmland, if It sets protective shell to place, and carries out position mark, water delivery bypass duct 13 is laid on agriculture according to the irrigation radius of water pipe is equidistant The temperature and humidity related data information of crop growth environment is collected in field by temperature sensor 1 and humidity sensor 2 Afterwards, by data information transfer to data collection module 5, data processing unit 6, central processing are sent to through data collection module 5 Device analyzes related data information, if the data after processing is analyzed and the data comparison of central memory storage are obtained a result as temperature Degree is normal, and soil moisture is normal or temperature is excessively high, and soil moisture is normally then not necessarily to irrigate, if obtain a result for temperature it is excessively high, soil Then control unit 7 sends out instruction to earth humidity deficit, and the ports A2 and A3 of connection electric T-shaped valve 10 are irrigated, while passing through stream Irrigation volume is fed back to data processing unit 6 by gauge 18, when irrigation volume reaches the preset value in central memory, control unit 7 cut-outs are supplied water.

Equally by soil nutrient detector 4 be placed on it is equidistant after protective shell be placed in the soil of farmland, and do good position The related data of detection is passed through data collection module by label, soil nutrient detector 4 for detecting each nutrient content in soil 5 are transmitted to data processing unit 6, the data pair in the result and central memory that are obtained after central processing unit analyzing processing Than if soil nutrient content is relatively low, control unit 7 sends out instruction, and the ports A1 and A3 of connection electric T-shaped valve 10 are filled It irrigates, while irrigation volume is fed back to by data processing unit 6 by flowmeter 18, when irrigation volume reaches default in central memory When value, the cut-out of control unit 7 is supplied water.

In rainwater season, due to heavy rainfall, farmland water level goes up, and the water in farmland enters haffir through flume 11, the information being collected into is transmitted to data processing unit 6 by water level sensor 5 by data collection module 5, in water level is more than When entreating memory set-value, control unit 7 sends out instruction, and the water in haffir 11 is pumped into water supply by third water pump Storage is used for dry season in pond.

Embodiment two

As shown in Figure 1, a kind of agricultural Intelligent irrigation system, including temperature sensor 1, humidity sensor 2, level sensor Device 3, soil nutrient detector 4, data collection module 5, data processing unit 6, control unit 7, rich water pond 8, feed cistern 9, electricity Dynamic triple valve 10, haffir 11, water delivery main road pipe 12 and water delivery bypass duct 13, the several groups temperature sensor 1, humidity Sensor 2, water level sensor 3, soil nutrient detector 4 are evenly dispersed to be arranged in entire farmland region, and above-mentioned all biographies Sensor, detector are wirelessly connected with data collection module 5,5 network connection data processing unit 6 of the data collection module, The data processing unit 6 includes central processing unit and central memory, and central processing unit is used for analyzing and processing data receipt Member collects the data of transmission, and central memory is stored with temperature under varying environment, humidity, soil nutrient content, farmland water level Typical set value, the data processing unit 6 connect control unit 7, and the rich water pond 8 is connected to electricity by the first water-supply-pipe 15 The ports A1 of triple valve 10 are moved, are provided with the first water pump 14 on the first water-supply-pipe 15, the feed cistern 9 passes through the second water-supply-pipe 17 The ports A2 of electric T-shaped valve 10 are connected to, the second water pump 16 is provided on the second water-supply-pipe 17, the ports electric T-shaped valve A3 connect Water delivery main road pipe 12 is connect, is provided with flowmeter 18 on the water delivery main road pipe 12, the feed cistern 9 is by being provided with third water pump 20 rainwater collection collector 19 is connected with haffir, and the water delivery main road pipe 12 is connect with water delivery bypass duct 13, and described first Water pump 14, the second water pump 16, third water pump 20 and electric T-shaped valve 10 are electrically connected control unit 7.

It is equidistant in the water delivery bypass duct 13 to be provided with spraying head type nozzle 21, the spray that the distance between adjacent nozzle is equal to Sprinkling irrigation diameter when head sprinkler irrigation, this design scheme are irrigated due to the use of spraying head type nozzle, need the pipeline being laid with It is less to take up an area less, and pour water uniformly, effectively save water resource.

Embodiment three

As shown in Figure 1, a kind of agricultural Intelligent irrigation system, including temperature sensor 1, humidity sensor 2, level sensor Device 3, soil nutrient detector 4, data collection module 5, data processing unit 6, control unit 7, rich water pond 8, feed cistern 9, electricity Dynamic triple valve 10, haffir 11, water delivery main road pipe 12 and water delivery bypass duct 13, the several groups temperature sensor 1, humidity Sensor 2, water level sensor 3, soil nutrient detector 4 are evenly dispersed to be arranged in entire farmland region, and above-mentioned all biographies Sensor, detector are wirelessly connected with data collection module 5,5 network connection data processing unit 6 of the data collection module, The data processing unit 6 includes central processing unit and central memory, and central processing unit is used for analyzing and processing data receipt Member collects the data of transmission, and central memory is stored with temperature under varying environment, humidity, soil nutrient content, farmland water level Typical set value, the data processing unit 6 connect control unit 7, and the rich water pond 8 is connected to electricity by the first water-supply-pipe 15 The ports A1 of triple valve 10 are moved, are provided with the first water pump 14 on the first water-supply-pipe 15, the feed cistern 9 passes through the second water-supply-pipe 17 The ports A2 of electric T-shaped valve 10 are connected to, the second water pump 16 is provided on the second water-supply-pipe 17, the ports electric T-shaped valve A3 connect Water delivery main road pipe 12 is connect, is provided with flowmeter 18 on the water delivery main road pipe 12, the feed cistern 9 is by being provided with third water pump 20 rainwater collection collector 19 is connected with haffir, and the water delivery main road pipe 12 is connect with water delivery bypass duct 13, and described first Water pump 14, the second water pump 16, third water pump 20 and electric T-shaped valve 10 are electrically connected control unit 7.The water delivery bypass duct It is equidistant on 13 to be provided with spraying head type nozzle 21.

First water-supply-pipe 15, the second water-supply-pipe 17, rainwater collection collector 19, water delivery main road pipe 11 and water delivery bypass duct 13 Pipeline outer wall be coated with erosion resistant coating.It since pipeline is exposed to the sun and rain outdoors, easily corrodes and gets rusty, due to being coated with anti-corrosion Layer, can improve pipeline service life, cost-effective.

The above is only the preferred embodiment of the utility model only, is not intended to limit the utility model, all at this All any modification, equivalent and improvement etc., should be included in the utility model made by within the spirit and principle of utility model Protection domain within.

Claims (3)

1. a kind of agricultural Intelligent irrigation system, it is characterised in that：Including temperature sensor (1), humidity sensor (2), water level Sensor (3), soil nutrient detector (4), data collection module (5), data processing unit (6), control unit (7), rich water Pond (8), feed cistern (9), electric T-shaped valve (10), haffir (11), water delivery main road pipe (12) and water delivery bypass duct (13), The temperature sensor (1), humidity sensor (2), water level sensor (3), soil nutrient detector are set independently of each other between (4) It sets and is wirelessly connected with data collection module (5), data collection module (5) the network connection data processing unit (6) is described Data processing unit (6) connects control unit (7), and the rich water pond (8) is by being provided with the first water delivery of the first water pump (14) Pipe (15) is connected to the ports A1 of electric T-shaped valve (10), and the feed cistern is by being provided with the second water delivery of the second water pump (16) Pipe (17) is connected to the ports A2 of electric T-shaped valve (10), and the ports A3 of the electric T-shaped valve (10) connect water delivery main road pipe (12), flowmeter (18) is provided on the water delivery main road pipe (12), the flowmeter (18) connects data processing unit (6), Water delivery main road pipe (12) the end connection water delivery bypass duct (13), leads between the feed cistern (9) and haffir (11) Cross rainwater recycle pipe (19) connection for being provided with third water pump (20), first water pump (14), the second water pump (16), third water Pump (20) and electric T-shaped valve (10) are separately connected control unit (7).

2. a kind of agricultural Intelligent irrigation system according to claim 1, it is characterised in that：The water delivery bypass duct (13) It is above equidistant to be provided with spraying head type nozzle (21).

3. a kind of agricultural Intelligent irrigation system according to claim 1, it is characterised in that：First water-supply-pipe (15), the pipeline outer wall of the second water-supply-pipe (17), rainwater collection collector (19), water delivery main road pipe (12) and water delivery bypass duct (13) is equal It is coated with erosion resistant coating.